Interventional Cardiology & Surgery

There is a potential risk of early structural valve deterioration with the Abbott Trifecta valve and Trifecta valve with glide technology (Trifecta GT), the U.S. Food and Drug Administration says in a letter to health care professionals posted on its website.  

Evidence in the literature suggests a higher cumulative incidence of early structural valve deterioration (SVD) and a lower freedom from reintervention due to SVD with the Trifecta valves, compared with other commercially available bovine pericardial valves, the FDA says.

The Trifecta and Trifecta GT valves are heart valve replacement devices intended to treat diseased, damaged, or malfunctioning native or prosthetic aortic heart valves, the letter notes. The first-generation Trifecta valve was approved in 2011 but is no longer marketed in the United States. The Trifecta GT valve was approved in 2016.

Medical device reports (MDRs) received by the FDA describe early SVD with Trifecta valves, with a peak time to SVD of 3 to 4 years post-implant. “Reported outcomes include surgical valve explant/replacement, transcatheter valve-in-valve intervention, and in some cases death,” the FDA notes.

In a letter to customers, Abbott says a “complaint analysis has shown that most cases of early SVD which occur within 5 years post-implant are characterized as a non-calcific leaflet tear, while most cases of late SVD which occur beyond 5 years post-implant are characterized as a fibrous-calcific SVD.” 

The FDA recommends that health care providers take the following actions:

• Be aware of the potential risk of early SVD with Trifecta valves, and current patient management considerations, as communicated by Abbott.
• Discuss the risks and benefits of all available aortic valve treatment options with patients and caregivers as part of shared clinical decision-making prior to surgery.
• Read and carefully follow the Instructions for Use when implanting a Trifecta GT valve.
• Monitor patients who have undergone implantation with Trifecta valves for signs and symptoms of potential SVD.
• Instruct patients to seek medical attention with new onset of symptoms such as shortness of breath or fatigue.
• Ensure lifelong follow-up visits, conducted at least yearly, including transthoracic echocardiogram assessment of the valve beginning 1-year post-implant.

The FDA is working with Abbott to further evaluate the issue and develop additional patient management strategies, if needed. The FDA says it will continue to monitor the literature and reports of adverse events related to the issue.

Clinicians are encouraged to report any adverse events or quality problems with the Trifecta valves to their local Abbott representative or the customer service department at 1-800-544-1664.

Health care professionals can also report adverse reactions or quality problems they experience using these devices to the FDA’s MedWatch program.

A version of this article first appeared on Medscape.com.

There is a potential risk of early structural valve deterioration with the Abbott Trifecta valve and Trifecta valve with glide technology (Trifecta GT), the U.S. Food and Drug Administration says in a letter to health care professionals posted on its website.  

Evidence in the literature suggests a higher cumulative incidence of early structural valve deterioration (SVD) and a lower freedom from reintervention due to SVD with the Trifecta valves, compared with other commercially available bovine pericardial valves, the FDA says.

The Trifecta and Trifecta GT valves are heart valve replacement devices intended to treat diseased, damaged, or malfunctioning native or prosthetic aortic heart valves, the letter notes. The first-generation Trifecta valve was approved in 2011 but is no longer marketed in the United States. The Trifecta GT valve was approved in 2016.

Medical device reports (MDRs) received by the FDA describe early SVD with Trifecta valves, with a peak time to SVD of 3 to 4 years post-implant. “Reported outcomes include surgical valve explant/replacement, transcatheter valve-in-valve intervention, and in some cases death,” the FDA notes.

In a letter to customers, Abbott says a “complaint analysis has shown that most cases of early SVD which occur within 5 years post-implant are characterized as a non-calcific leaflet tear, while most cases of late SVD which occur beyond 5 years post-implant are characterized as a fibrous-calcific SVD.” 

The FDA recommends that health care providers take the following actions:

• Be aware of the potential risk of early SVD with Trifecta valves, and current patient management considerations, as communicated by Abbott.
• Discuss the risks and benefits of all available aortic valve treatment options with patients and caregivers as part of shared clinical decision-making prior to surgery.
• Read and carefully follow the Instructions for Use when implanting a Trifecta GT valve.
• Monitor patients who have undergone implantation with Trifecta valves for signs and symptoms of potential SVD.
• Instruct patients to seek medical attention with new onset of symptoms such as shortness of breath or fatigue.
• Ensure lifelong follow-up visits, conducted at least yearly, including transthoracic echocardiogram assessment of the valve beginning 1-year post-implant.

The FDA is working with Abbott to further evaluate the issue and develop additional patient management strategies, if needed. The FDA says it will continue to monitor the literature and reports of adverse events related to the issue.

Clinicians are encouraged to report any adverse events or quality problems with the Trifecta valves to their local Abbott representative or the customer service department at 1-800-544-1664.

Health care professionals can also report adverse reactions or quality problems they experience using these devices to the FDA’s MedWatch program.

A version of this article first appeared on Medscape.com.

There is a potential risk of early structural valve deterioration with the Abbott Trifecta valve and Trifecta valve with glide technology (Trifecta GT), the U.S. Food and Drug Administration says in a letter to health care professionals posted on its website.  

Evidence in the literature suggests a higher cumulative incidence of early structural valve deterioration (SVD) and a lower freedom from reintervention due to SVD with the Trifecta valves, compared with other commercially available bovine pericardial valves, the FDA says.

The Trifecta and Trifecta GT valves are heart valve replacement devices intended to treat diseased, damaged, or malfunctioning native or prosthetic aortic heart valves, the letter notes. The first-generation Trifecta valve was approved in 2011 but is no longer marketed in the United States. The Trifecta GT valve was approved in 2016.

Medical device reports (MDRs) received by the FDA describe early SVD with Trifecta valves, with a peak time to SVD of 3 to 4 years post-implant. “Reported outcomes include surgical valve explant/replacement, transcatheter valve-in-valve intervention, and in some cases death,” the FDA notes.

In a letter to customers, Abbott says a “complaint analysis has shown that most cases of early SVD which occur within 5 years post-implant are characterized as a non-calcific leaflet tear, while most cases of late SVD which occur beyond 5 years post-implant are characterized as a fibrous-calcific SVD.” 

The FDA recommends that health care providers take the following actions:

• Be aware of the potential risk of early SVD with Trifecta valves, and current patient management considerations, as communicated by Abbott.
• Discuss the risks and benefits of all available aortic valve treatment options with patients and caregivers as part of shared clinical decision-making prior to surgery.
• Read and carefully follow the Instructions for Use when implanting a Trifecta GT valve.
• Monitor patients who have undergone implantation with Trifecta valves for signs and symptoms of potential SVD.
• Instruct patients to seek medical attention with new onset of symptoms such as shortness of breath or fatigue.
• Ensure lifelong follow-up visits, conducted at least yearly, including transthoracic echocardiogram assessment of the valve beginning 1-year post-implant.

The FDA is working with Abbott to further evaluate the issue and develop additional patient management strategies, if needed. The FDA says it will continue to monitor the literature and reports of adverse events related to the issue.

Clinicians are encouraged to report any adverse events or quality problems with the Trifecta valves to their local Abbott representative or the customer service department at 1-800-544-1664.

Health care professionals can also report adverse reactions or quality problems they experience using these devices to the FDA’s MedWatch program.

A version of this article first appeared on Medscape.com.

WASHINGTON – For patients with diabetes, there are trade-offs for selecting a percutaneous intervention (PCI) over coronary artery bypass grafting (CABG) for left main artery disease when either can be considered, according to a hypothesis-generating pooled analysis.

The pooled data from four trials indicate that either method of revascularization is “reasonable,” but risk of myocardial infarction and revascularization is higher and risk of stroke is lower in patients with diabetes following PCI relative to CABG, Prakriti Gaba, MD, said in presenting the analysis at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

Ted Bosworth/MDedge News

Despite decades of advances in both PCI and CABG, the findings are remarkably similar to those of Emory Angioplasty Versus Surgery Trial (EAST), the first major study to compare PCI to CABG, which were published almost 30 years ago. In the new analysis, like in EAST, PCI and CABG were comparable for a primary composite endpoint overall, but patients with diabetes were the exception. In those, outcomes were modestly better after CABG, said Dr. Gaba, a cardiology fellow at Brigham and Women’s Hospital, Harvard Medical School, both in Boston.

“More and more I am hearing from practitioners that diabetes does not matter, but what I get from your data is that diabetes still matters,” said Spencer B. King, MD, a pioneer of PCI affiliated with Emory University, Atlanta.

Dr. King, the first author of the 1994 paper and a panelist in the late-breaking trial session where the new data were presented, pointed out that a relatively limited proportion of patients with diabetes are equally suitable for PCI and CABG because of other considerations. However, he said an updated look once again suggesting that PCI and CABG are not equivalent for left main lesions in patients with diabetes “is helpful to see.”
 

CABG traditionally preferred for left main revascularization

The issue was revisited because CABG has been preferred traditionally for left main disease, but there was increasing evidence that PCI is associated with similar survival, according to Dr. Gaba. These new data support that contention, even if it shows that outcomes are not the same in those with diabetes relative to those without.

In this pooled analysis, data were drawn from four trials. Each compared PCI with drug-eluting stents with CABG in patients that were considered suitable for either. From the four trials, the numbers in this analysis included 705 patients from SYNTAX, 600 patients from PRECOMBAT, 1,184 patients from NOBLE, and 1,905 patients from EXCEL.

The focus was on the 1,104 patients with diabetes relative to the 3,289 without. The primary endpoint was all-cause death at 5 years. The multiple secondary endpoints included cardiovascular (CV) death, MI, stroke, and revascularization.

Overall, the 5-year mortality, independent of revascularization procedure, was 14.8% for those with diabetes and 9.3% for those without (P < .001). For this endpoint, the rates were numerically lower but not statistically different for CABG whether patients had diabetes (14.1% vs. 15.3%) or no diabetes (8.9% vs. 9.7%).

However, the rate of spontaneous MI was twice as great with PCI than with CABG for those with diabetes (8.9% vs. 4.4%), which doubled the hazard ratio within significant confidence intervals (HR, 2.01; 95% CI, 1.21-3.35). The rates of revascularization were also about twice as great with PCI than with CABG (24.5% vs. 12.4%), again producing a twofold increase in risk (HR, 2.12; 95% CI, 1.56-2.87).

For stroke in patients with diabetes, there was no difference in events at 5 years for PCI relative to CABG (2.1% in both groups). However, in those without diabetes, a trend approaching significance favored CABG over PCI (1.2% vs. 2.1%; HR, 0.177; 95% CI, 0.99-1.77). This difference was concentrated in the first year, when stroke rates among those treated with CABG were more than double the rates among those treated with PCI. Over time, this difference dissipated so that the difference was reduced to a trend at the end of follow-up.
 

Data considered hypothesis generating

Although patients with diabetes were prespecified as a subgroup of interest in these studies, Dr. Gaba said that the data can only be considered hypothesis generating and pointed out several limitations, including the fact that these studies preceded some therapies, such as sodium-glucose cotransporter 2 inhibitors, that are known to affect CV outcomes.

However, Dr. King was not alone in suggesting that these data once again show that diabetes matters. Several panelists agreed, including the moderator of the session, Robert A Byrne, MBBcH, PhD, director of cardiology, Mater Private Hospital, Dublin.

“Of course, there has been a lot of discussion over the last 4 or 5 years about this issue since the long-term EXCEL data were presented,” Dr. Byrne said. He added that the team of investigators who put this together “have done a great service to the community” by providing a detailed combined analysis to explore the interaction between diabetes and outcomes relative to method of revascularization. Although PCI and CABG are not always equivalent choices for reasons other than diabetes, he echoed the sentiment that diabetes likely remains a variable to consider when considering revascularization of left main artery disease.

Dr. Gabi, Dr. Spencer, and Dr. Byrne report no potential conflicts of interest.

WASHINGTON – For patients with diabetes, there are trade-offs for selecting a percutaneous intervention (PCI) over coronary artery bypass grafting (CABG) for left main artery disease when either can be considered, according to a hypothesis-generating pooled analysis.

The pooled data from four trials indicate that either method of revascularization is “reasonable,” but risk of myocardial infarction and revascularization is higher and risk of stroke is lower in patients with diabetes following PCI relative to CABG, Prakriti Gaba, MD, said in presenting the analysis at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

Ted Bosworth/MDedge News

Despite decades of advances in both PCI and CABG, the findings are remarkably similar to those of Emory Angioplasty Versus Surgery Trial (EAST), the first major study to compare PCI to CABG, which were published almost 30 years ago. In the new analysis, like in EAST, PCI and CABG were comparable for a primary composite endpoint overall, but patients with diabetes were the exception. In those, outcomes were modestly better after CABG, said Dr. Gaba, a cardiology fellow at Brigham and Women’s Hospital, Harvard Medical School, both in Boston.

“More and more I am hearing from practitioners that diabetes does not matter, but what I get from your data is that diabetes still matters,” said Spencer B. King, MD, a pioneer of PCI affiliated with Emory University, Atlanta.

Dr. King, the first author of the 1994 paper and a panelist in the late-breaking trial session where the new data were presented, pointed out that a relatively limited proportion of patients with diabetes are equally suitable for PCI and CABG because of other considerations. However, he said an updated look once again suggesting that PCI and CABG are not equivalent for left main lesions in patients with diabetes “is helpful to see.”
 

CABG traditionally preferred for left main revascularization

The issue was revisited because CABG has been preferred traditionally for left main disease, but there was increasing evidence that PCI is associated with similar survival, according to Dr. Gaba. These new data support that contention, even if it shows that outcomes are not the same in those with diabetes relative to those without.

In this pooled analysis, data were drawn from four trials. Each compared PCI with drug-eluting stents with CABG in patients that were considered suitable for either. From the four trials, the numbers in this analysis included 705 patients from SYNTAX, 600 patients from PRECOMBAT, 1,184 patients from NOBLE, and 1,905 patients from EXCEL.

The focus was on the 1,104 patients with diabetes relative to the 3,289 without. The primary endpoint was all-cause death at 5 years. The multiple secondary endpoints included cardiovascular (CV) death, MI, stroke, and revascularization.

Overall, the 5-year mortality, independent of revascularization procedure, was 14.8% for those with diabetes and 9.3% for those without (P < .001). For this endpoint, the rates were numerically lower but not statistically different for CABG whether patients had diabetes (14.1% vs. 15.3%) or no diabetes (8.9% vs. 9.7%).

However, the rate of spontaneous MI was twice as great with PCI than with CABG for those with diabetes (8.9% vs. 4.4%), which doubled the hazard ratio within significant confidence intervals (HR, 2.01; 95% CI, 1.21-3.35). The rates of revascularization were also about twice as great with PCI than with CABG (24.5% vs. 12.4%), again producing a twofold increase in risk (HR, 2.12; 95% CI, 1.56-2.87).

For stroke in patients with diabetes, there was no difference in events at 5 years for PCI relative to CABG (2.1% in both groups). However, in those without diabetes, a trend approaching significance favored CABG over PCI (1.2% vs. 2.1%; HR, 0.177; 95% CI, 0.99-1.77). This difference was concentrated in the first year, when stroke rates among those treated with CABG were more than double the rates among those treated with PCI. Over time, this difference dissipated so that the difference was reduced to a trend at the end of follow-up.
 

Data considered hypothesis generating

Although patients with diabetes were prespecified as a subgroup of interest in these studies, Dr. Gaba said that the data can only be considered hypothesis generating and pointed out several limitations, including the fact that these studies preceded some therapies, such as sodium-glucose cotransporter 2 inhibitors, that are known to affect CV outcomes.

However, Dr. King was not alone in suggesting that these data once again show that diabetes matters. Several panelists agreed, including the moderator of the session, Robert A Byrne, MBBcH, PhD, director of cardiology, Mater Private Hospital, Dublin.

“Of course, there has been a lot of discussion over the last 4 or 5 years about this issue since the long-term EXCEL data were presented,” Dr. Byrne said. He added that the team of investigators who put this together “have done a great service to the community” by providing a detailed combined analysis to explore the interaction between diabetes and outcomes relative to method of revascularization. Although PCI and CABG are not always equivalent choices for reasons other than diabetes, he echoed the sentiment that diabetes likely remains a variable to consider when considering revascularization of left main artery disease.

Dr. Gabi, Dr. Spencer, and Dr. Byrne report no potential conflicts of interest.

WASHINGTON – For patients with diabetes, there are trade-offs for selecting a percutaneous intervention (PCI) over coronary artery bypass grafting (CABG) for left main artery disease when either can be considered, according to a hypothesis-generating pooled analysis.

The pooled data from four trials indicate that either method of revascularization is “reasonable,” but risk of myocardial infarction and revascularization is higher and risk of stroke is lower in patients with diabetes following PCI relative to CABG, Prakriti Gaba, MD, said in presenting the analysis at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

Ted Bosworth/MDedge News

Despite decades of advances in both PCI and CABG, the findings are remarkably similar to those of Emory Angioplasty Versus Surgery Trial (EAST), the first major study to compare PCI to CABG, which were published almost 30 years ago. In the new analysis, like in EAST, PCI and CABG were comparable for a primary composite endpoint overall, but patients with diabetes were the exception. In those, outcomes were modestly better after CABG, said Dr. Gaba, a cardiology fellow at Brigham and Women’s Hospital, Harvard Medical School, both in Boston.

“More and more I am hearing from practitioners that diabetes does not matter, but what I get from your data is that diabetes still matters,” said Spencer B. King, MD, a pioneer of PCI affiliated with Emory University, Atlanta.

Dr. King, the first author of the 1994 paper and a panelist in the late-breaking trial session where the new data were presented, pointed out that a relatively limited proportion of patients with diabetes are equally suitable for PCI and CABG because of other considerations. However, he said an updated look once again suggesting that PCI and CABG are not equivalent for left main lesions in patients with diabetes “is helpful to see.”
 

CABG traditionally preferred for left main revascularization

The issue was revisited because CABG has been preferred traditionally for left main disease, but there was increasing evidence that PCI is associated with similar survival, according to Dr. Gaba. These new data support that contention, even if it shows that outcomes are not the same in those with diabetes relative to those without.

In this pooled analysis, data were drawn from four trials. Each compared PCI with drug-eluting stents with CABG in patients that were considered suitable for either. From the four trials, the numbers in this analysis included 705 patients from SYNTAX, 600 patients from PRECOMBAT, 1,184 patients from NOBLE, and 1,905 patients from EXCEL.

The focus was on the 1,104 patients with diabetes relative to the 3,289 without. The primary endpoint was all-cause death at 5 years. The multiple secondary endpoints included cardiovascular (CV) death, MI, stroke, and revascularization.

Overall, the 5-year mortality, independent of revascularization procedure, was 14.8% for those with diabetes and 9.3% for those without (P < .001). For this endpoint, the rates were numerically lower but not statistically different for CABG whether patients had diabetes (14.1% vs. 15.3%) or no diabetes (8.9% vs. 9.7%).

However, the rate of spontaneous MI was twice as great with PCI than with CABG for those with diabetes (8.9% vs. 4.4%), which doubled the hazard ratio within significant confidence intervals (HR, 2.01; 95% CI, 1.21-3.35). The rates of revascularization were also about twice as great with PCI than with CABG (24.5% vs. 12.4%), again producing a twofold increase in risk (HR, 2.12; 95% CI, 1.56-2.87).

For stroke in patients with diabetes, there was no difference in events at 5 years for PCI relative to CABG (2.1% in both groups). However, in those without diabetes, a trend approaching significance favored CABG over PCI (1.2% vs. 2.1%; HR, 0.177; 95% CI, 0.99-1.77). This difference was concentrated in the first year, when stroke rates among those treated with CABG were more than double the rates among those treated with PCI. Over time, this difference dissipated so that the difference was reduced to a trend at the end of follow-up.
 

Data considered hypothesis generating

Although patients with diabetes were prespecified as a subgroup of interest in these studies, Dr. Gaba said that the data can only be considered hypothesis generating and pointed out several limitations, including the fact that these studies preceded some therapies, such as sodium-glucose cotransporter 2 inhibitors, that are known to affect CV outcomes.

However, Dr. King was not alone in suggesting that these data once again show that diabetes matters. Several panelists agreed, including the moderator of the session, Robert A Byrne, MBBcH, PhD, director of cardiology, Mater Private Hospital, Dublin.

“Of course, there has been a lot of discussion over the last 4 or 5 years about this issue since the long-term EXCEL data were presented,” Dr. Byrne said. He added that the team of investigators who put this together “have done a great service to the community” by providing a detailed combined analysis to explore the interaction between diabetes and outcomes relative to method of revascularization. Although PCI and CABG are not always equivalent choices for reasons other than diabetes, he echoed the sentiment that diabetes likely remains a variable to consider when considering revascularization of left main artery disease.

Dr. Gabi, Dr. Spencer, and Dr. Byrne report no potential conflicts of interest.

WASHINGTON – Late lumen loss (LLL) after percutaneous interventions (PCI) can be reduced significantly by a daily glass of beet juice, according to a phase 2 randomized trial.

The protection against LLL, attributed to the nitrate contained in beet juice, was accompanied by a trend for a reduced risk of major adverse cardiovascular events (MACE), according to Krishnaraj Rathod, MBBS, BMedSci, PhD, who presented results at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

The study grew out of relatively recent evidence that ingestion of nitrate-rich foods, such as beets, can trigger noncanonical pathways for nitric oxide generation, sometimes referred to as the nitrate-nitrite-nitric oxide sequence. Dr. Rathod cited experimental evidence associating this pathway with the traditional benefits of NO generation, such as anti-inflammatory and antithrombotic effects.

Ted Bosworth/MDedge News

In this study, 300 patients scheduled for PCI to treat stable angina were randomized to the experimental arm of nitrate-rich beetroot juice or the control arm of nitrate-depleted beetroot juice. Each had a 70-mL glass of juice once daily. Dr. Rathod, a senior interventional cardiology registrar, Barts Heart Centre, London, described this as the equivalent of about four beets.

The primary endpoint of the study was in-stent LLL assessed by quantitative coronary angiography (QCA) at 6 months.

MACE, defined as death, MI, need for revascularization, and in-stent thrombosis, was assessed at 3, 9, 12, and 24 months. In addition, markers of NO activation, platelet reactivity, and inflammation were monitored.

Lumen loss reduced less than 50%

On OCA, the median stent LLL at 6 months was 0.244 mm in the nitrate-depleted beet juice group and 0.117 mm (P = .0165) in the group that received natural beet juice. The mean segment LLL similarly favored the natural beet juice (0.269 vs. 0.050 mm; P = .0011).

The same effect was reflected in the measurement of mean change in minimum lumen diameter at 6 months. From baseline, this in-stent measure was reduced at 6 months by 0.244 mm in the control group, but by only 0.117 mm in the group receiving the dietary nitrate (P = .0154 for two-way analysis of variance).

Over 24 months of follow-up, there were 18 MACE events in the control arm versus 9 in the arm randomized to dietary nitrate (P = .0718). There were no in-stent thromboses observed in either group, but death (two vs. five), MI (one vs. six), and target-vessel revascularization (six vs. seven) were all numerically lower in the group receiving dietary nitrate.

“Once-a-day oral dietary nitrate for 6 months was well tolerated and safe,” Dr. Rathod reported at the meeting.

Asked specifically about the taste of the daily glass of beet juice, Dr. Rathod acknowledged that some patients were not enamored, but many had no objections or even liked the taste.

The patients were reasonably representative of a PCI population. The mean age in both groups was 61 years. There were no significant differences in body mass index (approximately 29 kg/m²) or proportion with diabetes (22%), hypertension, or hypercholesterolemia (about 70% in both groups) and other comorbidities.

More PCI was performed in the left anterior descending artery (36.7% vs. 44.0%) in the control group, while less PCI was performed in the right coronary (27.3% vs. 30.7%). Neither difference was significant. The vast majority (~90%) of patients received drug-eluting stents with a mean of 1.4 implanted. Procedural success was 100% in both groups.

Discharge medications, including antiplatelet and antithrombotic therapies, were similar in the two groups.

Results characterized as highly positive

Based on the 53% reduction in LLL at 6 months and the trend for a MACE reduction, Dr. Rathod concluded that the results were highly positive.

“These results suggest that dietary nitrate may have a therapeutic role in reducing restenosis following PCI for stable angina,” he said.

In the discussion, several panelists pointed out that nearly one-third of patients were not available for evaluation at 6 months (41 of 150 in the experimental group and 51 of 150 in the control group) with further attrition at 1 and 2 years of follow-up. Of these about half were lost to follow-up and the other half withdrew.

The lack of follow-up on such a high proportion of participants is one weakness of this study,” acknowledged Hector M. Garcia-Garcia, MD, PhD, a cardiovascular researcher at MedStar Washington Hospital Center. However, he remains enthusiastic about the premise.

“It was encouraging to see every signal moving in the right direction,” said Dr. Garcia, who consulted with Dr. Rathod’s group on the design of the study. He called these data “promising,” and said they provide support for larger trial for a treatment with potential benefits at low cost.

George Dangas, MD, PhD, professor of medicine at the Icahn School of Medicine at Mount Sinai, New York, was among panelists who seemed surprised by such positive findings from a simple but novel concept. However, he remains open to further evaluations.

“As with any surprising result, further confirmation in a large and multicenter trial should be anticipated,” he said in an interview. If, as this study suggests, dietary changes are capable of providing therapeutic NO at the vascular level, he suggested studies to demonstrate anti-inflammatory effects or other mechanistic benefits would be helpful.

“Other sources of oral nitrate would also be a worthwhile investigation,” he said.

Dr. Rathod reports no potential conflicts of interest. Dr. Garcia-Garcia reports ties to Abbott, Biotronik, Boston Scientific, CorFlow, Medtronic, Neovasc, Phillips, and Shockwave. Dr. Dangas reports financial relationships with Abbott Vascular, AstraZeneca, Boston Scientific, Daiichi-Sankyo, and Medtronic.

WASHINGTON – Late lumen loss (LLL) after percutaneous interventions (PCI) can be reduced significantly by a daily glass of beet juice, according to a phase 2 randomized trial.

The protection against LLL, attributed to the nitrate contained in beet juice, was accompanied by a trend for a reduced risk of major adverse cardiovascular events (MACE), according to Krishnaraj Rathod, MBBS, BMedSci, PhD, who presented results at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

The study grew out of relatively recent evidence that ingestion of nitrate-rich foods, such as beets, can trigger noncanonical pathways for nitric oxide generation, sometimes referred to as the nitrate-nitrite-nitric oxide sequence. Dr. Rathod cited experimental evidence associating this pathway with the traditional benefits of NO generation, such as anti-inflammatory and antithrombotic effects.

Ted Bosworth/MDedge News

In this study, 300 patients scheduled for PCI to treat stable angina were randomized to the experimental arm of nitrate-rich beetroot juice or the control arm of nitrate-depleted beetroot juice. Each had a 70-mL glass of juice once daily. Dr. Rathod, a senior interventional cardiology registrar, Barts Heart Centre, London, described this as the equivalent of about four beets.

The primary endpoint of the study was in-stent LLL assessed by quantitative coronary angiography (QCA) at 6 months.

MACE, defined as death, MI, need for revascularization, and in-stent thrombosis, was assessed at 3, 9, 12, and 24 months. In addition, markers of NO activation, platelet reactivity, and inflammation were monitored.

Lumen loss reduced less than 50%

On OCA, the median stent LLL at 6 months was 0.244 mm in the nitrate-depleted beet juice group and 0.117 mm (P = .0165) in the group that received natural beet juice. The mean segment LLL similarly favored the natural beet juice (0.269 vs. 0.050 mm; P = .0011).

The same effect was reflected in the measurement of mean change in minimum lumen diameter at 6 months. From baseline, this in-stent measure was reduced at 6 months by 0.244 mm in the control group, but by only 0.117 mm in the group receiving the dietary nitrate (P = .0154 for two-way analysis of variance).

Over 24 months of follow-up, there were 18 MACE events in the control arm versus 9 in the arm randomized to dietary nitrate (P = .0718). There were no in-stent thromboses observed in either group, but death (two vs. five), MI (one vs. six), and target-vessel revascularization (six vs. seven) were all numerically lower in the group receiving dietary nitrate.

“Once-a-day oral dietary nitrate for 6 months was well tolerated and safe,” Dr. Rathod reported at the meeting.

Asked specifically about the taste of the daily glass of beet juice, Dr. Rathod acknowledged that some patients were not enamored, but many had no objections or even liked the taste.

The patients were reasonably representative of a PCI population. The mean age in both groups was 61 years. There were no significant differences in body mass index (approximately 29 kg/m²) or proportion with diabetes (22%), hypertension, or hypercholesterolemia (about 70% in both groups) and other comorbidities.

More PCI was performed in the left anterior descending artery (36.7% vs. 44.0%) in the control group, while less PCI was performed in the right coronary (27.3% vs. 30.7%). Neither difference was significant. The vast majority (~90%) of patients received drug-eluting stents with a mean of 1.4 implanted. Procedural success was 100% in both groups.

Discharge medications, including antiplatelet and antithrombotic therapies, were similar in the two groups.

Results characterized as highly positive

Based on the 53% reduction in LLL at 6 months and the trend for a MACE reduction, Dr. Rathod concluded that the results were highly positive.

“These results suggest that dietary nitrate may have a therapeutic role in reducing restenosis following PCI for stable angina,” he said.

In the discussion, several panelists pointed out that nearly one-third of patients were not available for evaluation at 6 months (41 of 150 in the experimental group and 51 of 150 in the control group) with further attrition at 1 and 2 years of follow-up. Of these about half were lost to follow-up and the other half withdrew.

The lack of follow-up on such a high proportion of participants is one weakness of this study,” acknowledged Hector M. Garcia-Garcia, MD, PhD, a cardiovascular researcher at MedStar Washington Hospital Center. However, he remains enthusiastic about the premise.

“It was encouraging to see every signal moving in the right direction,” said Dr. Garcia, who consulted with Dr. Rathod’s group on the design of the study. He called these data “promising,” and said they provide support for larger trial for a treatment with potential benefits at low cost.

George Dangas, MD, PhD, professor of medicine at the Icahn School of Medicine at Mount Sinai, New York, was among panelists who seemed surprised by such positive findings from a simple but novel concept. However, he remains open to further evaluations.

“As with any surprising result, further confirmation in a large and multicenter trial should be anticipated,” he said in an interview. If, as this study suggests, dietary changes are capable of providing therapeutic NO at the vascular level, he suggested studies to demonstrate anti-inflammatory effects or other mechanistic benefits would be helpful.

“Other sources of oral nitrate would also be a worthwhile investigation,” he said.

Dr. Rathod reports no potential conflicts of interest. Dr. Garcia-Garcia reports ties to Abbott, Biotronik, Boston Scientific, CorFlow, Medtronic, Neovasc, Phillips, and Shockwave. Dr. Dangas reports financial relationships with Abbott Vascular, AstraZeneca, Boston Scientific, Daiichi-Sankyo, and Medtronic.

WASHINGTON – Late lumen loss (LLL) after percutaneous interventions (PCI) can be reduced significantly by a daily glass of beet juice, according to a phase 2 randomized trial.

The protection against LLL, attributed to the nitrate contained in beet juice, was accompanied by a trend for a reduced risk of major adverse cardiovascular events (MACE), according to Krishnaraj Rathod, MBBS, BMedSci, PhD, who presented results at the Cardiovascular Research Technologies conference, sponsored by MedStar Heart & Vascular Institute.

The study grew out of relatively recent evidence that ingestion of nitrate-rich foods, such as beets, can trigger noncanonical pathways for nitric oxide generation, sometimes referred to as the nitrate-nitrite-nitric oxide sequence. Dr. Rathod cited experimental evidence associating this pathway with the traditional benefits of NO generation, such as anti-inflammatory and antithrombotic effects.

Ted Bosworth/MDedge News

In this study, 300 patients scheduled for PCI to treat stable angina were randomized to the experimental arm of nitrate-rich beetroot juice or the control arm of nitrate-depleted beetroot juice. Each had a 70-mL glass of juice once daily. Dr. Rathod, a senior interventional cardiology registrar, Barts Heart Centre, London, described this as the equivalent of about four beets.

The primary endpoint of the study was in-stent LLL assessed by quantitative coronary angiography (QCA) at 6 months.

MACE, defined as death, MI, need for revascularization, and in-stent thrombosis, was assessed at 3, 9, 12, and 24 months. In addition, markers of NO activation, platelet reactivity, and inflammation were monitored.

Lumen loss reduced less than 50%

On OCA, the median stent LLL at 6 months was 0.244 mm in the nitrate-depleted beet juice group and 0.117 mm (P = .0165) in the group that received natural beet juice. The mean segment LLL similarly favored the natural beet juice (0.269 vs. 0.050 mm; P = .0011).

The same effect was reflected in the measurement of mean change in minimum lumen diameter at 6 months. From baseline, this in-stent measure was reduced at 6 months by 0.244 mm in the control group, but by only 0.117 mm in the group receiving the dietary nitrate (P = .0154 for two-way analysis of variance).

Over 24 months of follow-up, there were 18 MACE events in the control arm versus 9 in the arm randomized to dietary nitrate (P = .0718). There were no in-stent thromboses observed in either group, but death (two vs. five), MI (one vs. six), and target-vessel revascularization (six vs. seven) were all numerically lower in the group receiving dietary nitrate.

“Once-a-day oral dietary nitrate for 6 months was well tolerated and safe,” Dr. Rathod reported at the meeting.

Asked specifically about the taste of the daily glass of beet juice, Dr. Rathod acknowledged that some patients were not enamored, but many had no objections or even liked the taste.

The patients were reasonably representative of a PCI population. The mean age in both groups was 61 years. There were no significant differences in body mass index (approximately 29 kg/m²) or proportion with diabetes (22%), hypertension, or hypercholesterolemia (about 70% in both groups) and other comorbidities.

More PCI was performed in the left anterior descending artery (36.7% vs. 44.0%) in the control group, while less PCI was performed in the right coronary (27.3% vs. 30.7%). Neither difference was significant. The vast majority (~90%) of patients received drug-eluting stents with a mean of 1.4 implanted. Procedural success was 100% in both groups.

Discharge medications, including antiplatelet and antithrombotic therapies, were similar in the two groups.

Results characterized as highly positive

Based on the 53% reduction in LLL at 6 months and the trend for a MACE reduction, Dr. Rathod concluded that the results were highly positive.

“These results suggest that dietary nitrate may have a therapeutic role in reducing restenosis following PCI for stable angina,” he said.

In the discussion, several panelists pointed out that nearly one-third of patients were not available for evaluation at 6 months (41 of 150 in the experimental group and 51 of 150 in the control group) with further attrition at 1 and 2 years of follow-up. Of these about half were lost to follow-up and the other half withdrew.

The lack of follow-up on such a high proportion of participants is one weakness of this study,” acknowledged Hector M. Garcia-Garcia, MD, PhD, a cardiovascular researcher at MedStar Washington Hospital Center. However, he remains enthusiastic about the premise.

“It was encouraging to see every signal moving in the right direction,” said Dr. Garcia, who consulted with Dr. Rathod’s group on the design of the study. He called these data “promising,” and said they provide support for larger trial for a treatment with potential benefits at low cost.

George Dangas, MD, PhD, professor of medicine at the Icahn School of Medicine at Mount Sinai, New York, was among panelists who seemed surprised by such positive findings from a simple but novel concept. However, he remains open to further evaluations.

“As with any surprising result, further confirmation in a large and multicenter trial should be anticipated,” he said in an interview. If, as this study suggests, dietary changes are capable of providing therapeutic NO at the vascular level, he suggested studies to demonstrate anti-inflammatory effects or other mechanistic benefits would be helpful.

“Other sources of oral nitrate would also be a worthwhile investigation,” he said.

Dr. Rathod reports no potential conflicts of interest. Dr. Garcia-Garcia reports ties to Abbott, Biotronik, Boston Scientific, CorFlow, Medtronic, Neovasc, Phillips, and Shockwave. Dr. Dangas reports financial relationships with Abbott Vascular, AstraZeneca, Boston Scientific, Daiichi-Sankyo, and Medtronic.

The American College of Cardiology, the American Heart Association, and the Society for Cardiovascular Angiography and Interventions (SCAI) have jointly issued new guidance outlining competency-based advanced training requirements for interventional cardiology trainees.

It’s the first document of its kind to define the training requirements for the full breadth of interventional cardiology for adults, including coronary interventions, peripheral vascular interventions (PVIs), and structural heart interventions (SHIs), the organizations say.

enot-poloskun/Getty Images

Minimum of 250 procedures

To gain the necessary experience in interventional cardiology, cardiovascular fellows are advised to complete the following:

• A 3-year general cardiovascular disease fellowship (successful completion consists of Level I competency in all aspects of cardiovascular medicine and Level II competency in diagnostic cardiac catheterization to pursue interventional cardiology training);
• A 1-year accredited interventional cardiology fellowship, the focus of which is coronary intervention with the opportunity to gain procedural experience in various aspects of PVI or SHI (Level III competency);
• An option for additional post-fellowship training based on the trainee’s career goals.

The goal of Level III training is to provide the interventional cardiology trainees with a “well-rounded, competency-based education,” including didactic instruction, clinical experience in the diagnosis and care of patients, and hands-on procedural experience, the writing group says.

Competency requirements are defined using the Accreditation Council for Graduate Medical Education’s six “essential” competency domains: medical knowledge; patient care and procedural skills; practice-based learning and improvement; systems-based practice; interpersonal and communication skills; and professionalism.

To support attaining these competencies, the writing committee recommends a minimum of 250 interventional cardiology procedures. Of these, 200 should be coronary procedures, with the remaining 50 specialized in coronary, PVI, or SHI, which allows the fellows to customize training on the basis of their career goals.

Adjunctive procedures related to physiologic assessment and intracoronary imaging are also required (25 of each). “These minimum numbers are meant to provide trainees with exposure to a variety and spectrum of complexity of clinical case material and give supervising faculty sufficient opportunity to evaluate trainees’ competency,” the writing group says.

In addition to their procedural skills, evaluation of interventional cardiology trainee proficiency should include regular assessment of a trainee’s ability to clinically diagnose and manage patients across the broad spectrum of diseases.

Assessment of trainees should involve multiple components, including direct observation by instructors, case logs, chart reviews (including adherence to guideline recommendations, appropriate use criteria, and patient outcomes), simulation training, and assessment of leadership skills.

Trainees must also acquire experience working as part of a multidisciplinary team to provide a holistic approach to patient care. The document also highlights the importance of leadership skills, mentorship and lifelong learning beyond initial training.

The 2023 ACC/AHA/SCAI Advanced Training Statement on Interventional Cardiology (Coronary, Peripheral Vascular, and Structural Heart Interventions) was published online in the Journal of the American College of Cardiology.

The statement was developed in collaboration with and endorsed by the American Association for Thoracic Surgery, the American Society of Echocardiography, the Heart Failure Society of America, the Heart Rhythm Society, the Society of Cardiovascular Anesthesiologists, the Society of Cardiovascular Computed Tomography, the Society for Cardiovascular Magnetic Resonance, the Society of Thoracic Surgeons, and the Society for Vascular Medicine.

A version of this article first appeared on Medscape.com.

The American College of Cardiology, the American Heart Association, and the Society for Cardiovascular Angiography and Interventions (SCAI) have jointly issued new guidance outlining competency-based advanced training requirements for interventional cardiology trainees.

It’s the first document of its kind to define the training requirements for the full breadth of interventional cardiology for adults, including coronary interventions, peripheral vascular interventions (PVIs), and structural heart interventions (SHIs), the organizations say.

enot-poloskun/Getty Images

Minimum of 250 procedures

To gain the necessary experience in interventional cardiology, cardiovascular fellows are advised to complete the following:

• A 3-year general cardiovascular disease fellowship (successful completion consists of Level I competency in all aspects of cardiovascular medicine and Level II competency in diagnostic cardiac catheterization to pursue interventional cardiology training);
• A 1-year accredited interventional cardiology fellowship, the focus of which is coronary intervention with the opportunity to gain procedural experience in various aspects of PVI or SHI (Level III competency);
• An option for additional post-fellowship training based on the trainee’s career goals.

The goal of Level III training is to provide the interventional cardiology trainees with a “well-rounded, competency-based education,” including didactic instruction, clinical experience in the diagnosis and care of patients, and hands-on procedural experience, the writing group says.

Competency requirements are defined using the Accreditation Council for Graduate Medical Education’s six “essential” competency domains: medical knowledge; patient care and procedural skills; practice-based learning and improvement; systems-based practice; interpersonal and communication skills; and professionalism.

To support attaining these competencies, the writing committee recommends a minimum of 250 interventional cardiology procedures. Of these, 200 should be coronary procedures, with the remaining 50 specialized in coronary, PVI, or SHI, which allows the fellows to customize training on the basis of their career goals.

Adjunctive procedures related to physiologic assessment and intracoronary imaging are also required (25 of each). “These minimum numbers are meant to provide trainees with exposure to a variety and spectrum of complexity of clinical case material and give supervising faculty sufficient opportunity to evaluate trainees’ competency,” the writing group says.

In addition to their procedural skills, evaluation of interventional cardiology trainee proficiency should include regular assessment of a trainee’s ability to clinically diagnose and manage patients across the broad spectrum of diseases.

Assessment of trainees should involve multiple components, including direct observation by instructors, case logs, chart reviews (including adherence to guideline recommendations, appropriate use criteria, and patient outcomes), simulation training, and assessment of leadership skills.

Trainees must also acquire experience working as part of a multidisciplinary team to provide a holistic approach to patient care. The document also highlights the importance of leadership skills, mentorship and lifelong learning beyond initial training.

The 2023 ACC/AHA/SCAI Advanced Training Statement on Interventional Cardiology (Coronary, Peripheral Vascular, and Structural Heart Interventions) was published online in the Journal of the American College of Cardiology.

The statement was developed in collaboration with and endorsed by the American Association for Thoracic Surgery, the American Society of Echocardiography, the Heart Failure Society of America, the Heart Rhythm Society, the Society of Cardiovascular Anesthesiologists, the Society of Cardiovascular Computed Tomography, the Society for Cardiovascular Magnetic Resonance, the Society of Thoracic Surgeons, and the Society for Vascular Medicine.

A version of this article first appeared on Medscape.com.

The American College of Cardiology, the American Heart Association, and the Society for Cardiovascular Angiography and Interventions (SCAI) have jointly issued new guidance outlining competency-based advanced training requirements for interventional cardiology trainees.

It’s the first document of its kind to define the training requirements for the full breadth of interventional cardiology for adults, including coronary interventions, peripheral vascular interventions (PVIs), and structural heart interventions (SHIs), the organizations say.

enot-poloskun/Getty Images

Minimum of 250 procedures

To gain the necessary experience in interventional cardiology, cardiovascular fellows are advised to complete the following:

• A 3-year general cardiovascular disease fellowship (successful completion consists of Level I competency in all aspects of cardiovascular medicine and Level II competency in diagnostic cardiac catheterization to pursue interventional cardiology training);
• A 1-year accredited interventional cardiology fellowship, the focus of which is coronary intervention with the opportunity to gain procedural experience in various aspects of PVI or SHI (Level III competency);
• An option for additional post-fellowship training based on the trainee’s career goals.

The goal of Level III training is to provide the interventional cardiology trainees with a “well-rounded, competency-based education,” including didactic instruction, clinical experience in the diagnosis and care of patients, and hands-on procedural experience, the writing group says.

Competency requirements are defined using the Accreditation Council for Graduate Medical Education’s six “essential” competency domains: medical knowledge; patient care and procedural skills; practice-based learning and improvement; systems-based practice; interpersonal and communication skills; and professionalism.

To support attaining these competencies, the writing committee recommends a minimum of 250 interventional cardiology procedures. Of these, 200 should be coronary procedures, with the remaining 50 specialized in coronary, PVI, or SHI, which allows the fellows to customize training on the basis of their career goals.

Adjunctive procedures related to physiologic assessment and intracoronary imaging are also required (25 of each). “These minimum numbers are meant to provide trainees with exposure to a variety and spectrum of complexity of clinical case material and give supervising faculty sufficient opportunity to evaluate trainees’ competency,” the writing group says.

In addition to their procedural skills, evaluation of interventional cardiology trainee proficiency should include regular assessment of a trainee’s ability to clinically diagnose and manage patients across the broad spectrum of diseases.

Assessment of trainees should involve multiple components, including direct observation by instructors, case logs, chart reviews (including adherence to guideline recommendations, appropriate use criteria, and patient outcomes), simulation training, and assessment of leadership skills.

Trainees must also acquire experience working as part of a multidisciplinary team to provide a holistic approach to patient care. The document also highlights the importance of leadership skills, mentorship and lifelong learning beyond initial training.

The 2023 ACC/AHA/SCAI Advanced Training Statement on Interventional Cardiology (Coronary, Peripheral Vascular, and Structural Heart Interventions) was published online in the Journal of the American College of Cardiology.

The statement was developed in collaboration with and endorsed by the American Association for Thoracic Surgery, the American Society of Echocardiography, the Heart Failure Society of America, the Heart Rhythm Society, the Society of Cardiovascular Anesthesiologists, the Society of Cardiovascular Computed Tomography, the Society for Cardiovascular Magnetic Resonance, the Society of Thoracic Surgeons, and the Society for Vascular Medicine.

A version of this article first appeared on Medscape.com.

On June 14, 2017, just before noon, a doctor made an incision near a patient’s groin. Kari Kirk, a representative for the world’s largest medical device company, Medtronic, looked on and began texting her colleague a play-by-play.

“Fixing both legs from the ankles,” she wrote.

It was a fairly common procedure at the Robert J. Dole Veterans Affairs Medical Center in Wichita, Kansas, performed to treat blockages in the leg vessels.

Within reach were an array of Medtronic products: tubes with blades attached to shave hardened deposits off of artery walls; stents to widen blood vessels; balloons coated with therapeutic drugs.

Each time a doctor puts a foreign device in someone’s body, it carries a risk of complication, which can include clots or even require amputation. So medical experts, research and even Medtronic’s own device instructions urge doctors to use as few as are necessary.

But, as revealed in Kirk’s text messages, this doctor took an aggressive approach.

“Just used 12 [drug-coated balloons]!!” Kirk texted her colleague.

“Does that mean I owe u $$,” he responded.

“Thats what I’m thinking!!!” she said. “And now 14 balloons?!”

“but only one stent so far??”

“So far!”

As the texting continued, her colleague replied, “U are going to want to start going to the VA all the time.”

The messages, recently unsealed in an ongoing whistleblower lawsuit, give a window into the way money and medicine mingle in the booming business of peripheral artery disease, a condition that afflicts 6.5 million Americans over age 40 and is caused when fatty plaque builds up in arteries, blocking blood flow to the legs.

Representatives from companies are often present during vascular procedures to guide doctors on how to use their complex devices. This kind of access has the potential to influence treatment plans, as companies and their representatives profit when more of their product is used.

The suit, filed in 2017 by a sales representative for a competing medical device firm, alleges an illegal kickback scheme between Medtronic and hospital employees. According to the complaint and documents released in the suit, between 2011 and 2018, VA health care workers received steakhouse dinners, Apple electronics, and NASCAR tickets, and in turn, Medtronic secured a lucrative contract with the hospital. Meanwhile, the company’s representatives allegedly “groomed and trained” physicians at the facility, who then deployed the company’s devices even when it was not medically indicated.

Independently from the whistleblower suit, internal investigators at the Wichita facility have also examined the treatment patterns of its vascular patients in recent years and found numerous cases where medical devices were used excessively. While it’s not uncommon to deploy several devices, a medical expert on the investigation team found that the VA doctors sometimes used more than 15 at a time – one used 33 – deviating from the standard of care.

“It is unconscionable – there can be no valid medically acceptable basis to cram so many devices into a human being,” wrote attorneys representing the whistleblower in legal filings from January 2023. “This is not medical treatment. This is abuse.”

Dr. Kim Hodgson, former president of the Society for Vascular Surgery and an expert retained by the plaintiff, said the findings of the internal review of patient data raise “a high level of concern regarding necessity of treatment provided,” according to case documents.

Medtronic declined to respond to ProPublica’s questions, citing the ongoing litigation. “These allegations are false and Medtronic is defending against these claims in court,” said Boua Xiong, a spokesperson for the company. Medtronic representative Kirk declined to respond to ProPublica’s request for comment.

The hospital investigation found that amputations increased sixfold in the same time frame as the procedures in question, according to internal emails, but made no conclusion about whether those two things were connected. ProPublica reached out to the VA to ask whether any patients had been harmed.

The VA is “conducting an extensive review of patient care” at the Kansas hospital, “including the number of devices used on patients – to make sure that Veterans were not harmed by any procedures,” press secretary Terrence Hayes said in a statement. So far, the VA’s investigation has found no “quality of care issues,” he said, and the investigation will continue “until every Veteran’s case has been reviewed.” (Read the full statement here.) Neither the department nor the hospital has taken formal action against the medical providers, Hayes said.

The medical group that had a contract with the VA for vascular interventions, Wichita Radiological Group, did not respond to ProPublica’s requests for comment, nor did the doctors named in the suit: Dr. Shaun Gonda, Dr. Bret Winblad, and Dr. Kermit Rust. It is unclear from the case documents which doctors conducted which procedures. Eric Barth, an attorney for the medical group, denied the allegations in recent legal filings, calling the claims “baseless” and the lawsuit a “witch hunt.”

The lawsuit comes amid growing concern about one of these procedures – atherectomies – after researchers and doctors have uncovered patterns of excessive and inappropriate use. Recent research has found that this procedure, a common but costly treatment to shave or laser plaque from blood vessels, is not more effective than cheaper alternatives and may even be associated with a higher risk of complications including amputation. In recent years, several doctors and clinics have been investigated for allegedly taking advantage of Medicare’s reimbursement rates, and one study found that many doctors are resorting to atherectomies in the earliest stages of peripheral artery disease, against best practices that urge noninvasive treatment.

“Atherectomy is important in certain settings. But it’s being used in a way that is entirely inappropriate and it’s largely driven by the incentive structure,” said Dr. Caitlin Hicks, the lead author of the study and an associate professor of surgery at Johns Hopkins University School of Medicine.

Although different payment structures govern the care of veterans, the whistleblower lawsuit alleges that outside physicians, paid hourly by the Dole VA, were motivated to conduct longer and more complex procedures that would earn them higher payment.

Under different circumstances, the patient in the procedure room on that summer day could have been done after 2 hours.

But, 150 minutes in, those Medtronic representatives were still texting. At that point, more than 15 of their vascular devices had been used, including stents, balloons, and those for atherectomy.

“Long case!” Kirk’s colleague texted. “Is it looking ok??”

“It is,” she said. “Thought we were done a few times! Now he’s going back in to cut again!”

A little while later, she texted: “....17!”

He texted back [with laughing emoticons].

Hospital leaders had been scrutinizing the use of these procedures at the Dole VA for years.

In 2017, shortly after Rick Ament was hired to lead the facility, he noticed something was amiss. While the longtime hospital administrator was poring over the finances, he was alarmed to discover that the relatively small Dole VA had one of the most expensive cardiac programs in the country. As Ament dug deeper, he realized vascular interventions were the reason.

“It just did not make sense that the acuity level of our patients would generate such extreme cost variances from the norm,” he testified in December, in a deposition for the whistleblower case. “It was so significant, we needed to get to the bottom of it.”

Ament, a second generation Air Force veteran, quietly assembled a task force to investigate why the facility had purchased so many medical devices for these procedures. After they examined inventory records, calculating the total number of medical devices and the cost of devices per patient, they grew concerned.

“We were more expensive than, I believe it was, the top 10 hospitals in the VA combined,” he said. “My feeling was that we either had very, very bad providers or we had product walking out the door.”

Ament enlisted experts from other VA hospitals to help his team investigate, including an administrative officer who could understand finances and a respected interventional radiologist who could examine records. The task force gathered a list of patients from 2016 to 2018, according to internal emails, and analyzed their medical charts.

According to internal VA documents released through the whistleblower suit, the review found a number of clinical failings: Evidence-based medicine had not been followed in the majority of cases reviewed. Procedures were over-aggressive, treating lesions that should have been left alone. And there was a total disregard for established best practices for treating peripheral artery disease.

One of the experts on the investigative team explained to Ament that while it was not uncommon for doctors to use a couple of devices in one intervention, the total number of devices in many of the procedures at his facility went into the double digits, sometimes five times the expected amount.

In one encounter, a doctor deployed 33 devices in one procedure – 3 atherectomy devices, 9 stents, and 21 balloons.

This use of devices was exorbitant, Ament came to understand. “I want to say the term ‘egregious’ was used,” he testified. “It was kind of like validation, but I really wish I was wrong.”

“Did it make you concerned for patient care?” a lawyer asked during the deposition.

“It did,” Ament replied.

A member of his task force pulled data for veterans who had leg amputations due to vascular disease. Over 5 years, the number of veterans who had amputations increased, from about 6 in 2013 to 38 in 2018, according to internal emails released in the suit. The VA did not respond to ProPublica’s questions about the rise in amputations or whether it was due to complications from the procedures.

Even though Ament testified in December 2022 that he became aware of the excessive use of devices during his investigation that began about 5 years ago, neither he nor the VA have publicly acknowledged these findings outside of the lawsuit. It is unclear whether VA representatives informed the patients whose records were reviewed about their findings. ProPublica reached out to more than half a dozen veteran community groups in the Wichita area and none were aware of the investigation nor the allegations of overuse of vascular procedures at the facility.

The VA says that if its ongoing review finds instances of substandard care, it will reach out to affected patients and inform them about possible complications and benefits they may be entitled to. The press secretary said the review will take several months. Ament declined to respond to ProPublica’s questions, citing the ongoing case.

In 2018, Ament turned over his findings to the criminal division of the VA’s Office of Inspector General. He also shut down interventional radiology procedures at the facility’s catheter lab.

Federal agents separately opened an investigation into the same unit in the facility, looking into allegations of kickbacks.

More than 40 pages of expense reports from Medtronic, revealed in the whistleblower case, show sales representatives treating Dole health care workers to hundreds of meals over several years – lunches at Dempsey’s Biscuit Co.; business meals at the Scotch & Sirloin steakhouse; dinner at Chester’s Chophouse & Wine Bar, price per attendee: $122.39.

Federal agents obtained the receipts.

“Robert J. Dole VAMC employees may have received improper gratuities, in the forms of paid lunches, dinners, etc., from sales representatives from Medtronic,” Nathen Howard, a special agent in the VA OIG, wrote in an investigation memo from February 2019.

This kind of relationship could violate VA policy, which forbids federal employees from receiving any gifts, including meals, from people who do business or seek to do business with a federal institution. For health care workers, violating this policy could have serious implications for patients. Numerous studies have shown that even modest industry-sponsored gifts, including meals, may influence prescribing or treatment behavior of health care professionals.

The agents opened their investigation into kickbacks at the Wichita facility in response to the whistleblower lawsuit, which was filed by Thomas Schroeder in 2017. The VA OIG would not confirm or deny whether it was continuing to investigate kickbacks at the facility. The VA did not directly answer ProPublica’s questions about kickbacks at the Dole VA, but it said that every employee must complete an annual ethics training, which covers gift rules.

In recent years, Medtronic has settled a handful of other cases that have alleged kickbacks between company representatives and health care professionals.

In 2018, Medtronic’s subsidiary Covidien paid $13 million to settle claims with the U.S. Department of Justice that it paid kickbacks to health care institutions that used its mechanical blood clot devices. In 2019, the same subsidiary paid $17 million to resolve allegations that it provided in-kind marketing support to doctors using its vein products. And in 2020, Medtronic paid more than $8 million to settle claims that representatives had paid kickbacks to a neurosurgeon, including scores of lavish meals at a restaurant that the doctor owned, to induce him to purchase the company’s medication pumps.

Schroeder’s lawsuit is not the first time Medtronic’s vascular devices were named in an alleged kickback scheme. In early 2015, Medtronic acquired Covidien, and shortly after the merger, its subsidiary ev3 Inc. agreed to pay $1.25 million to resolve allegations that it had paid doctors who were “high volume users” of its atherectomy devices to act as evangelists for the company, and had provided physicians with company shares to participate in clinical trials for their tools.

The whistleblower in this earlier case, a former sales representative for the company, also alleged that the subsidiary was gaming Medicare’s payment system. Hospitals were often hesitant to conduct atherectomy procedures because of the low reimbursement rates. According to the suit, sales representatives encouraged doctors to admit patients for longer stays to reap greater reimbursements and make a profit, even though such stays were often not medically indicated.

“Medical device makers that try to boost their profits by causing patients to be admitted for unnecessary and expensive inpatient hospital stays will be held accountable,” special agent Thomas O’Donnell, from the Office of Inspector General at the U.S. Department of Health and Human Services, said in a press release for the settlement. “Both patients and taxpayers deserve to have medical decisions made based on what is medically appropriate.”

Medtronic spokesperson Xiong said that in each case, the company “cooperated fully with the DOJ to resolve its concerns and, where wrongdoing was found, took appropriate remedial action.”

Seton Hall Law School professor Jacob Elberg, a former assistant U.S. attorney for the District of New Jersey who led its health care and government fraud unit, is concerned by the frequency of such settlements in the last 2 decades. “There are, at this point, real questions as to whether the sanctions imposed by DOJ are sufficient to deter wrongdoing and to lead to meaningful change, especially within the medical device industry.”

Although the Department of Justice has declined to intervene in the lawsuit involving the Dole VA at this time, the case is ongoing and further depositions with Medtronic sales representatives and a former VA employee are scheduled for this month.

VA employees and doctors named in the suit declined to comment or did not respond to ProPublica’s questions about the alleged kickbacks and whether sales representatives may have influenced veterans’ treatment plans. In interviews with federal investigators, according to released transcripts, several of the employees who were questioned denied receiving frequent meals from sales representatives, contradicting Medtronic’s expense reports.

Their statements also stand in contrast to Medtronic representative Kari Kirk’s final text messages during that procedure in June 2017, which ultimately lasted more than 3 hours.

“Now u done??” her colleague asked.

“Just finished,” she texted. “Running to get them lunch!”

This story was originally published on ProPublica. ProPublica is a nonprofit newsroom that investigates abuses of power. Sign up to receive their biggest stories as soon as they’re published.

On June 14, 2017, just before noon, a doctor made an incision near a patient’s groin. Kari Kirk, a representative for the world’s largest medical device company, Medtronic, looked on and began texting her colleague a play-by-play.

“Fixing both legs from the ankles,” she wrote.

It was a fairly common procedure at the Robert J. Dole Veterans Affairs Medical Center in Wichita, Kansas, performed to treat blockages in the leg vessels.

Within reach were an array of Medtronic products: tubes with blades attached to shave hardened deposits off of artery walls; stents to widen blood vessels; balloons coated with therapeutic drugs.

Each time a doctor puts a foreign device in someone’s body, it carries a risk of complication, which can include clots or even require amputation. So medical experts, research and even Medtronic’s own device instructions urge doctors to use as few as are necessary.

But, as revealed in Kirk’s text messages, this doctor took an aggressive approach.

“Just used 12 [drug-coated balloons]!!” Kirk texted her colleague.

“Does that mean I owe u $$,” he responded.

“Thats what I’m thinking!!!” she said. “And now 14 balloons?!”

“but only one stent so far??”

“So far!”

As the texting continued, her colleague replied, “U are going to want to start going to the VA all the time.”

The messages, recently unsealed in an ongoing whistleblower lawsuit, give a window into the way money and medicine mingle in the booming business of peripheral artery disease, a condition that afflicts 6.5 million Americans over age 40 and is caused when fatty plaque builds up in arteries, blocking blood flow to the legs.

Representatives from companies are often present during vascular procedures to guide doctors on how to use their complex devices. This kind of access has the potential to influence treatment plans, as companies and their representatives profit when more of their product is used.

The suit, filed in 2017 by a sales representative for a competing medical device firm, alleges an illegal kickback scheme between Medtronic and hospital employees. According to the complaint and documents released in the suit, between 2011 and 2018, VA health care workers received steakhouse dinners, Apple electronics, and NASCAR tickets, and in turn, Medtronic secured a lucrative contract with the hospital. Meanwhile, the company’s representatives allegedly “groomed and trained” physicians at the facility, who then deployed the company’s devices even when it was not medically indicated.

Independently from the whistleblower suit, internal investigators at the Wichita facility have also examined the treatment patterns of its vascular patients in recent years and found numerous cases where medical devices were used excessively. While it’s not uncommon to deploy several devices, a medical expert on the investigation team found that the VA doctors sometimes used more than 15 at a time – one used 33 – deviating from the standard of care.

“It is unconscionable – there can be no valid medically acceptable basis to cram so many devices into a human being,” wrote attorneys representing the whistleblower in legal filings from January 2023. “This is not medical treatment. This is abuse.”

Dr. Kim Hodgson, former president of the Society for Vascular Surgery and an expert retained by the plaintiff, said the findings of the internal review of patient data raise “a high level of concern regarding necessity of treatment provided,” according to case documents.

Medtronic declined to respond to ProPublica’s questions, citing the ongoing litigation. “These allegations are false and Medtronic is defending against these claims in court,” said Boua Xiong, a spokesperson for the company. Medtronic representative Kirk declined to respond to ProPublica’s request for comment.

The hospital investigation found that amputations increased sixfold in the same time frame as the procedures in question, according to internal emails, but made no conclusion about whether those two things were connected. ProPublica reached out to the VA to ask whether any patients had been harmed.

The VA is “conducting an extensive review of patient care” at the Kansas hospital, “including the number of devices used on patients – to make sure that Veterans were not harmed by any procedures,” press secretary Terrence Hayes said in a statement. So far, the VA’s investigation has found no “quality of care issues,” he said, and the investigation will continue “until every Veteran’s case has been reviewed.” (Read the full statement here.) Neither the department nor the hospital has taken formal action against the medical providers, Hayes said.

The medical group that had a contract with the VA for vascular interventions, Wichita Radiological Group, did not respond to ProPublica’s requests for comment, nor did the doctors named in the suit: Dr. Shaun Gonda, Dr. Bret Winblad, and Dr. Kermit Rust. It is unclear from the case documents which doctors conducted which procedures. Eric Barth, an attorney for the medical group, denied the allegations in recent legal filings, calling the claims “baseless” and the lawsuit a “witch hunt.”

The lawsuit comes amid growing concern about one of these procedures – atherectomies – after researchers and doctors have uncovered patterns of excessive and inappropriate use. Recent research has found that this procedure, a common but costly treatment to shave or laser plaque from blood vessels, is not more effective than cheaper alternatives and may even be associated with a higher risk of complications including amputation. In recent years, several doctors and clinics have been investigated for allegedly taking advantage of Medicare’s reimbursement rates, and one study found that many doctors are resorting to atherectomies in the earliest stages of peripheral artery disease, against best practices that urge noninvasive treatment.

“Atherectomy is important in certain settings. But it’s being used in a way that is entirely inappropriate and it’s largely driven by the incentive structure,” said Dr. Caitlin Hicks, the lead author of the study and an associate professor of surgery at Johns Hopkins University School of Medicine.

Although different payment structures govern the care of veterans, the whistleblower lawsuit alleges that outside physicians, paid hourly by the Dole VA, were motivated to conduct longer and more complex procedures that would earn them higher payment.

Under different circumstances, the patient in the procedure room on that summer day could have been done after 2 hours.

But, 150 minutes in, those Medtronic representatives were still texting. At that point, more than 15 of their vascular devices had been used, including stents, balloons, and those for atherectomy.

“Long case!” Kirk’s colleague texted. “Is it looking ok??”

“It is,” she said. “Thought we were done a few times! Now he’s going back in to cut again!”

A little while later, she texted: “....17!”

He texted back [with laughing emoticons].

Hospital leaders had been scrutinizing the use of these procedures at the Dole VA for years.

In 2017, shortly after Rick Ament was hired to lead the facility, he noticed something was amiss. While the longtime hospital administrator was poring over the finances, he was alarmed to discover that the relatively small Dole VA had one of the most expensive cardiac programs in the country. As Ament dug deeper, he realized vascular interventions were the reason.

“It just did not make sense that the acuity level of our patients would generate such extreme cost variances from the norm,” he testified in December, in a deposition for the whistleblower case. “It was so significant, we needed to get to the bottom of it.”

Ament, a second generation Air Force veteran, quietly assembled a task force to investigate why the facility had purchased so many medical devices for these procedures. After they examined inventory records, calculating the total number of medical devices and the cost of devices per patient, they grew concerned.

“We were more expensive than, I believe it was, the top 10 hospitals in the VA combined,” he said. “My feeling was that we either had very, very bad providers or we had product walking out the door.”

Ament enlisted experts from other VA hospitals to help his team investigate, including an administrative officer who could understand finances and a respected interventional radiologist who could examine records. The task force gathered a list of patients from 2016 to 2018, according to internal emails, and analyzed their medical charts.

According to internal VA documents released through the whistleblower suit, the review found a number of clinical failings: Evidence-based medicine had not been followed in the majority of cases reviewed. Procedures were over-aggressive, treating lesions that should have been left alone. And there was a total disregard for established best practices for treating peripheral artery disease.

One of the experts on the investigative team explained to Ament that while it was not uncommon for doctors to use a couple of devices in one intervention, the total number of devices in many of the procedures at his facility went into the double digits, sometimes five times the expected amount.

In one encounter, a doctor deployed 33 devices in one procedure – 3 atherectomy devices, 9 stents, and 21 balloons.

This use of devices was exorbitant, Ament came to understand. “I want to say the term ‘egregious’ was used,” he testified. “It was kind of like validation, but I really wish I was wrong.”

“Did it make you concerned for patient care?” a lawyer asked during the deposition.

“It did,” Ament replied.

A member of his task force pulled data for veterans who had leg amputations due to vascular disease. Over 5 years, the number of veterans who had amputations increased, from about 6 in 2013 to 38 in 2018, according to internal emails released in the suit. The VA did not respond to ProPublica’s questions about the rise in amputations or whether it was due to complications from the procedures.

Even though Ament testified in December 2022 that he became aware of the excessive use of devices during his investigation that began about 5 years ago, neither he nor the VA have publicly acknowledged these findings outside of the lawsuit. It is unclear whether VA representatives informed the patients whose records were reviewed about their findings. ProPublica reached out to more than half a dozen veteran community groups in the Wichita area and none were aware of the investigation nor the allegations of overuse of vascular procedures at the facility.

The VA says that if its ongoing review finds instances of substandard care, it will reach out to affected patients and inform them about possible complications and benefits they may be entitled to. The press secretary said the review will take several months. Ament declined to respond to ProPublica’s questions, citing the ongoing case.

In 2018, Ament turned over his findings to the criminal division of the VA’s Office of Inspector General. He also shut down interventional radiology procedures at the facility’s catheter lab.

Federal agents separately opened an investigation into the same unit in the facility, looking into allegations of kickbacks.

More than 40 pages of expense reports from Medtronic, revealed in the whistleblower case, show sales representatives treating Dole health care workers to hundreds of meals over several years – lunches at Dempsey’s Biscuit Co.; business meals at the Scotch & Sirloin steakhouse; dinner at Chester’s Chophouse & Wine Bar, price per attendee: $122.39.

Federal agents obtained the receipts.

“Robert J. Dole VAMC employees may have received improper gratuities, in the forms of paid lunches, dinners, etc., from sales representatives from Medtronic,” Nathen Howard, a special agent in the VA OIG, wrote in an investigation memo from February 2019.

This kind of relationship could violate VA policy, which forbids federal employees from receiving any gifts, including meals, from people who do business or seek to do business with a federal institution. For health care workers, violating this policy could have serious implications for patients. Numerous studies have shown that even modest industry-sponsored gifts, including meals, may influence prescribing or treatment behavior of health care professionals.

The agents opened their investigation into kickbacks at the Wichita facility in response to the whistleblower lawsuit, which was filed by Thomas Schroeder in 2017. The VA OIG would not confirm or deny whether it was continuing to investigate kickbacks at the facility. The VA did not directly answer ProPublica’s questions about kickbacks at the Dole VA, but it said that every employee must complete an annual ethics training, which covers gift rules.

In recent years, Medtronic has settled a handful of other cases that have alleged kickbacks between company representatives and health care professionals.

In 2018, Medtronic’s subsidiary Covidien paid $13 million to settle claims with the U.S. Department of Justice that it paid kickbacks to health care institutions that used its mechanical blood clot devices. In 2019, the same subsidiary paid $17 million to resolve allegations that it provided in-kind marketing support to doctors using its vein products. And in 2020, Medtronic paid more than $8 million to settle claims that representatives had paid kickbacks to a neurosurgeon, including scores of lavish meals at a restaurant that the doctor owned, to induce him to purchase the company’s medication pumps.

Schroeder’s lawsuit is not the first time Medtronic’s vascular devices were named in an alleged kickback scheme. In early 2015, Medtronic acquired Covidien, and shortly after the merger, its subsidiary ev3 Inc. agreed to pay $1.25 million to resolve allegations that it had paid doctors who were “high volume users” of its atherectomy devices to act as evangelists for the company, and had provided physicians with company shares to participate in clinical trials for their tools.

The whistleblower in this earlier case, a former sales representative for the company, also alleged that the subsidiary was gaming Medicare’s payment system. Hospitals were often hesitant to conduct atherectomy procedures because of the low reimbursement rates. According to the suit, sales representatives encouraged doctors to admit patients for longer stays to reap greater reimbursements and make a profit, even though such stays were often not medically indicated.

“Medical device makers that try to boost their profits by causing patients to be admitted for unnecessary and expensive inpatient hospital stays will be held accountable,” special agent Thomas O’Donnell, from the Office of Inspector General at the U.S. Department of Health and Human Services, said in a press release for the settlement. “Both patients and taxpayers deserve to have medical decisions made based on what is medically appropriate.”

Medtronic spokesperson Xiong said that in each case, the company “cooperated fully with the DOJ to resolve its concerns and, where wrongdoing was found, took appropriate remedial action.”

Seton Hall Law School professor Jacob Elberg, a former assistant U.S. attorney for the District of New Jersey who led its health care and government fraud unit, is concerned by the frequency of such settlements in the last 2 decades. “There are, at this point, real questions as to whether the sanctions imposed by DOJ are sufficient to deter wrongdoing and to lead to meaningful change, especially within the medical device industry.”

Although the Department of Justice has declined to intervene in the lawsuit involving the Dole VA at this time, the case is ongoing and further depositions with Medtronic sales representatives and a former VA employee are scheduled for this month.

VA employees and doctors named in the suit declined to comment or did not respond to ProPublica’s questions about the alleged kickbacks and whether sales representatives may have influenced veterans’ treatment plans. In interviews with federal investigators, according to released transcripts, several of the employees who were questioned denied receiving frequent meals from sales representatives, contradicting Medtronic’s expense reports.

Their statements also stand in contrast to Medtronic representative Kari Kirk’s final text messages during that procedure in June 2017, which ultimately lasted more than 3 hours.

“Now u done??” her colleague asked.

“Just finished,” she texted. “Running to get them lunch!”

This story was originally published on ProPublica. ProPublica is a nonprofit newsroom that investigates abuses of power. Sign up to receive their biggest stories as soon as they’re published.

On June 14, 2017, just before noon, a doctor made an incision near a patient’s groin. Kari Kirk, a representative for the world’s largest medical device company, Medtronic, looked on and began texting her colleague a play-by-play.

“Fixing both legs from the ankles,” she wrote.

It was a fairly common procedure at the Robert J. Dole Veterans Affairs Medical Center in Wichita, Kansas, performed to treat blockages in the leg vessels.

Within reach were an array of Medtronic products: tubes with blades attached to shave hardened deposits off of artery walls; stents to widen blood vessels; balloons coated with therapeutic drugs.

Each time a doctor puts a foreign device in someone’s body, it carries a risk of complication, which can include clots or even require amputation. So medical experts, research and even Medtronic’s own device instructions urge doctors to use as few as are necessary.

But, as revealed in Kirk’s text messages, this doctor took an aggressive approach.

“Just used 12 [drug-coated balloons]!!” Kirk texted her colleague.

“Does that mean I owe u $$,” he responded.

“Thats what I’m thinking!!!” she said. “And now 14 balloons?!”

“but only one stent so far??”

“So far!”

As the texting continued, her colleague replied, “U are going to want to start going to the VA all the time.”

The messages, recently unsealed in an ongoing whistleblower lawsuit, give a window into the way money and medicine mingle in the booming business of peripheral artery disease, a condition that afflicts 6.5 million Americans over age 40 and is caused when fatty plaque builds up in arteries, blocking blood flow to the legs.

Representatives from companies are often present during vascular procedures to guide doctors on how to use their complex devices. This kind of access has the potential to influence treatment plans, as companies and their representatives profit when more of their product is used.

The suit, filed in 2017 by a sales representative for a competing medical device firm, alleges an illegal kickback scheme between Medtronic and hospital employees. According to the complaint and documents released in the suit, between 2011 and 2018, VA health care workers received steakhouse dinners, Apple electronics, and NASCAR tickets, and in turn, Medtronic secured a lucrative contract with the hospital. Meanwhile, the company’s representatives allegedly “groomed and trained” physicians at the facility, who then deployed the company’s devices even when it was not medically indicated.

Independently from the whistleblower suit, internal investigators at the Wichita facility have also examined the treatment patterns of its vascular patients in recent years and found numerous cases where medical devices were used excessively. While it’s not uncommon to deploy several devices, a medical expert on the investigation team found that the VA doctors sometimes used more than 15 at a time – one used 33 – deviating from the standard of care.

“It is unconscionable – there can be no valid medically acceptable basis to cram so many devices into a human being,” wrote attorneys representing the whistleblower in legal filings from January 2023. “This is not medical treatment. This is abuse.”

Dr. Kim Hodgson, former president of the Society for Vascular Surgery and an expert retained by the plaintiff, said the findings of the internal review of patient data raise “a high level of concern regarding necessity of treatment provided,” according to case documents.

Medtronic declined to respond to ProPublica’s questions, citing the ongoing litigation. “These allegations are false and Medtronic is defending against these claims in court,” said Boua Xiong, a spokesperson for the company. Medtronic representative Kirk declined to respond to ProPublica’s request for comment.

The hospital investigation found that amputations increased sixfold in the same time frame as the procedures in question, according to internal emails, but made no conclusion about whether those two things were connected. ProPublica reached out to the VA to ask whether any patients had been harmed.

The VA is “conducting an extensive review of patient care” at the Kansas hospital, “including the number of devices used on patients – to make sure that Veterans were not harmed by any procedures,” press secretary Terrence Hayes said in a statement. So far, the VA’s investigation has found no “quality of care issues,” he said, and the investigation will continue “until every Veteran’s case has been reviewed.” (Read the full statement here.) Neither the department nor the hospital has taken formal action against the medical providers, Hayes said.

The medical group that had a contract with the VA for vascular interventions, Wichita Radiological Group, did not respond to ProPublica’s requests for comment, nor did the doctors named in the suit: Dr. Shaun Gonda, Dr. Bret Winblad, and Dr. Kermit Rust. It is unclear from the case documents which doctors conducted which procedures. Eric Barth, an attorney for the medical group, denied the allegations in recent legal filings, calling the claims “baseless” and the lawsuit a “witch hunt.”

The lawsuit comes amid growing concern about one of these procedures – atherectomies – after researchers and doctors have uncovered patterns of excessive and inappropriate use. Recent research has found that this procedure, a common but costly treatment to shave or laser plaque from blood vessels, is not more effective than cheaper alternatives and may even be associated with a higher risk of complications including amputation. In recent years, several doctors and clinics have been investigated for allegedly taking advantage of Medicare’s reimbursement rates, and one study found that many doctors are resorting to atherectomies in the earliest stages of peripheral artery disease, against best practices that urge noninvasive treatment.

“Atherectomy is important in certain settings. But it’s being used in a way that is entirely inappropriate and it’s largely driven by the incentive structure,” said Dr. Caitlin Hicks, the lead author of the study and an associate professor of surgery at Johns Hopkins University School of Medicine.

Although different payment structures govern the care of veterans, the whistleblower lawsuit alleges that outside physicians, paid hourly by the Dole VA, were motivated to conduct longer and more complex procedures that would earn them higher payment.

Under different circumstances, the patient in the procedure room on that summer day could have been done after 2 hours.

But, 150 minutes in, those Medtronic representatives were still texting. At that point, more than 15 of their vascular devices had been used, including stents, balloons, and those for atherectomy.

“Long case!” Kirk’s colleague texted. “Is it looking ok??”

“It is,” she said. “Thought we were done a few times! Now he’s going back in to cut again!”

A little while later, she texted: “....17!”

He texted back [with laughing emoticons].

Hospital leaders had been scrutinizing the use of these procedures at the Dole VA for years.

In 2017, shortly after Rick Ament was hired to lead the facility, he noticed something was amiss. While the longtime hospital administrator was poring over the finances, he was alarmed to discover that the relatively small Dole VA had one of the most expensive cardiac programs in the country. As Ament dug deeper, he realized vascular interventions were the reason.

“It just did not make sense that the acuity level of our patients would generate such extreme cost variances from the norm,” he testified in December, in a deposition for the whistleblower case. “It was so significant, we needed to get to the bottom of it.”

Ament, a second generation Air Force veteran, quietly assembled a task force to investigate why the facility had purchased so many medical devices for these procedures. After they examined inventory records, calculating the total number of medical devices and the cost of devices per patient, they grew concerned.

“We were more expensive than, I believe it was, the top 10 hospitals in the VA combined,” he said. “My feeling was that we either had very, very bad providers or we had product walking out the door.”

Ament enlisted experts from other VA hospitals to help his team investigate, including an administrative officer who could understand finances and a respected interventional radiologist who could examine records. The task force gathered a list of patients from 2016 to 2018, according to internal emails, and analyzed their medical charts.

According to internal VA documents released through the whistleblower suit, the review found a number of clinical failings: Evidence-based medicine had not been followed in the majority of cases reviewed. Procedures were over-aggressive, treating lesions that should have been left alone. And there was a total disregard for established best practices for treating peripheral artery disease.

One of the experts on the investigative team explained to Ament that while it was not uncommon for doctors to use a couple of devices in one intervention, the total number of devices in many of the procedures at his facility went into the double digits, sometimes five times the expected amount.

In one encounter, a doctor deployed 33 devices in one procedure – 3 atherectomy devices, 9 stents, and 21 balloons.

This use of devices was exorbitant, Ament came to understand. “I want to say the term ‘egregious’ was used,” he testified. “It was kind of like validation, but I really wish I was wrong.”

“Did it make you concerned for patient care?” a lawyer asked during the deposition.

“It did,” Ament replied.

A member of his task force pulled data for veterans who had leg amputations due to vascular disease. Over 5 years, the number of veterans who had amputations increased, from about 6 in 2013 to 38 in 2018, according to internal emails released in the suit. The VA did not respond to ProPublica’s questions about the rise in amputations or whether it was due to complications from the procedures.

Even though Ament testified in December 2022 that he became aware of the excessive use of devices during his investigation that began about 5 years ago, neither he nor the VA have publicly acknowledged these findings outside of the lawsuit. It is unclear whether VA representatives informed the patients whose records were reviewed about their findings. ProPublica reached out to more than half a dozen veteran community groups in the Wichita area and none were aware of the investigation nor the allegations of overuse of vascular procedures at the facility.

The VA says that if its ongoing review finds instances of substandard care, it will reach out to affected patients and inform them about possible complications and benefits they may be entitled to. The press secretary said the review will take several months. Ament declined to respond to ProPublica’s questions, citing the ongoing case.

In 2018, Ament turned over his findings to the criminal division of the VA’s Office of Inspector General. He also shut down interventional radiology procedures at the facility’s catheter lab.

Federal agents separately opened an investigation into the same unit in the facility, looking into allegations of kickbacks.

More than 40 pages of expense reports from Medtronic, revealed in the whistleblower case, show sales representatives treating Dole health care workers to hundreds of meals over several years – lunches at Dempsey’s Biscuit Co.; business meals at the Scotch & Sirloin steakhouse; dinner at Chester’s Chophouse & Wine Bar, price per attendee: $122.39.

Federal agents obtained the receipts.

“Robert J. Dole VAMC employees may have received improper gratuities, in the forms of paid lunches, dinners, etc., from sales representatives from Medtronic,” Nathen Howard, a special agent in the VA OIG, wrote in an investigation memo from February 2019.

This kind of relationship could violate VA policy, which forbids federal employees from receiving any gifts, including meals, from people who do business or seek to do business with a federal institution. For health care workers, violating this policy could have serious implications for patients. Numerous studies have shown that even modest industry-sponsored gifts, including meals, may influence prescribing or treatment behavior of health care professionals.

The agents opened their investigation into kickbacks at the Wichita facility in response to the whistleblower lawsuit, which was filed by Thomas Schroeder in 2017. The VA OIG would not confirm or deny whether it was continuing to investigate kickbacks at the facility. The VA did not directly answer ProPublica’s questions about kickbacks at the Dole VA, but it said that every employee must complete an annual ethics training, which covers gift rules.

In recent years, Medtronic has settled a handful of other cases that have alleged kickbacks between company representatives and health care professionals.

In 2018, Medtronic’s subsidiary Covidien paid $13 million to settle claims with the U.S. Department of Justice that it paid kickbacks to health care institutions that used its mechanical blood clot devices. In 2019, the same subsidiary paid $17 million to resolve allegations that it provided in-kind marketing support to doctors using its vein products. And in 2020, Medtronic paid more than $8 million to settle claims that representatives had paid kickbacks to a neurosurgeon, including scores of lavish meals at a restaurant that the doctor owned, to induce him to purchase the company’s medication pumps.

Schroeder’s lawsuit is not the first time Medtronic’s vascular devices were named in an alleged kickback scheme. In early 2015, Medtronic acquired Covidien, and shortly after the merger, its subsidiary ev3 Inc. agreed to pay $1.25 million to resolve allegations that it had paid doctors who were “high volume users” of its atherectomy devices to act as evangelists for the company, and had provided physicians with company shares to participate in clinical trials for their tools.

The whistleblower in this earlier case, a former sales representative for the company, also alleged that the subsidiary was gaming Medicare’s payment system. Hospitals were often hesitant to conduct atherectomy procedures because of the low reimbursement rates. According to the suit, sales representatives encouraged doctors to admit patients for longer stays to reap greater reimbursements and make a profit, even though such stays were often not medically indicated.

“Medical device makers that try to boost their profits by causing patients to be admitted for unnecessary and expensive inpatient hospital stays will be held accountable,” special agent Thomas O’Donnell, from the Office of Inspector General at the U.S. Department of Health and Human Services, said in a press release for the settlement. “Both patients and taxpayers deserve to have medical decisions made based on what is medically appropriate.”

Medtronic spokesperson Xiong said that in each case, the company “cooperated fully with the DOJ to resolve its concerns and, where wrongdoing was found, took appropriate remedial action.”

Seton Hall Law School professor Jacob Elberg, a former assistant U.S. attorney for the District of New Jersey who led its health care and government fraud unit, is concerned by the frequency of such settlements in the last 2 decades. “There are, at this point, real questions as to whether the sanctions imposed by DOJ are sufficient to deter wrongdoing and to lead to meaningful change, especially within the medical device industry.”

Although the Department of Justice has declined to intervene in the lawsuit involving the Dole VA at this time, the case is ongoing and further depositions with Medtronic sales representatives and a former VA employee are scheduled for this month.

VA employees and doctors named in the suit declined to comment or did not respond to ProPublica’s questions about the alleged kickbacks and whether sales representatives may have influenced veterans’ treatment plans. In interviews with federal investigators, according to released transcripts, several of the employees who were questioned denied receiving frequent meals from sales representatives, contradicting Medtronic’s expense reports.

Their statements also stand in contrast to Medtronic representative Kari Kirk’s final text messages during that procedure in June 2017, which ultimately lasted more than 3 hours.

“Now u done??” her colleague asked.

“Just finished,” she texted. “Running to get them lunch!”

This story was originally published on ProPublica. ProPublica is a nonprofit newsroom that investigates abuses of power. Sign up to receive their biggest stories as soon as they’re published.

The Society for Cardiovascular Angiography and Interventions has issued an updated expert consensus statement to provide clearer guidance on what percutaneous coronary angioplasty cases can be done in outpatient settings such as ambulatory surgery centers (ASCs) and office-based laboratories and which are best left to more traditional settings, such as hospitals with full cardiac support.

PCI has evolved quickly since SCAI issued its last update almost 9 years ago. The updated statement, published online in the Journal of the Society for Cardiovascular Angiography and Interventions, notes that the proportion of same-day PCI discharges has increased from 4.5% in 2009 to 28.6% in 2017.

The statement also notes that the Medicare facility fee for outpatient PCI in an ASC is about 40% less than the hospital fee: $6,111 versus $10,258 for the facility fee for 2022. The Centers for Medicare & Medicaid Services in 2020 extended coverage for PCIs in ASCs.
 

Rationale for update

Writing group chair Cindy Grines, MD, explained the rationale for updating the statement now. “The 2014 SCAI statement was very conservative, recommending only the simplest of cases be done without surgical backup,” Dr. Grines, chief scientific officer at Northside Hospital Cardiovascular Institute in Atlanta, said in an interview.

The statement drew on 12 global studies from 2015 to 2022 that evaluated more than 8 million PCIs at facilities with and without surgery on site. Dr. Grines noted those studies reported complication rates as low as 0.1% in PCI procedures in centers without surgical backup.

She also noted that the writing committee also received input that “by restricting the use of certain devices such as atherectomy, some patients who needed it as a bailout could be harmed.”

Another factor in prompting the statement update, Dr. Grines said: “Many hospitals have consolidated into heath systems, and these systems consolidated bypass surgery into one center. Therefore, centers with high volume, experienced operators, and excellent outcomes were now left with no surgery on site. It didn’t make sense to withdraw complex PCI from these centers who haven’t sent a patient for emergency bypass in several years.”
 

Statement guidance

The centerpiece of the update is an algorithm that covers the range of settings for PCI, from having a surgeon on site to ACS or office-based lab.

For example, indications for on-site surgical capability are PCI of the last remaining patent vessel or retrograde approach to epicardial chronic total occlusion (CTO), and when the patient is a candidate for surgery.

Indications for PCI in a hospital without on-site surgery but with percutaneous ventricular assist device or extracorporeal membrane oxygenation, calcium modification devices and high PCI volume are patients with decreased left ventricular ejection fraction, unprotected left main artery, CTO, or degenerated vein grafts.

For patients at high risk for transfusion, acute kidney injury or vascular complications, or who have high baseline respiratory risk, a hospital without on-site surgery but with respiratory care, blood bank, and vascular surgery services is indicated.

And for patients with none of the aforementioned characteristics or risks, ASC, office-based lab, or any hospital facility is acceptable.

The statement also provides guidance for operator experience. Those with less than 3 years’ experience, considered to have limited exposure to atherectomy devices and limited ST-segmented elevation MI (STEMI)/shock experience, should avoid doing PCIs in an ASC and performing atherectomy cases on their own, and have a colleague review case selection and assist in higher-risk cases. Experienced (3-10 years’ experience) and very experienced (more than 10 years’) should be able to perform in any setting and be competent with, if not highly experienced with, atherectomy and STEMI/shock.

Dr. Grines acknowledged the writing group didn’t want to set a specific operator volume requirement. “However, we recognize that lifetime operator experience is particularly important in more complex cases such as CTO, atherectomy, bifurcation stenoses, etc.,” she said. “In addition, performing these cases at a larger institution that has other operators that may assist in the event of a complication is very important. Specifically, we did not believe that recent fellow graduates with less than 3 years in practice or low-volume operators should attempt higher-risk cases in a no-SOS [surgeon-on-site] setting or perform cases in ASC or office-based labs where no colleagues are there to assist in case of a complication.”

In an interview, Gregory J. Dehmer, MD, professor of medicine at Virginia Tech University, Roanoke, reprised the theme of his accompanying editorial. “Things are evolving again, as Bob Dylan would say, ‘The Times They Are A-Changin’, so it’s very timely that the society in collaboration with other professional societies updated what are guidelines and rules of road if you’re going to do PCI in ASCs or office based laboratories,” said Dr. Dehmer, who chaired the writing committees of the 2007 and 2014 SCAI expert statements on PCI.

Having this statement is important for centers that don’t have on-site surgical backup, he said. “You couldn’t sustain a PCI operation at a rural hospital on just acute MIs alone. The key thing is that all of this built upon numerous studies both in the U.S. and abroad that showed the safety of doing elective cases – not only STEMIs, but elective PCI – at facilities without on-site surgery.”

CMS pushed the envelope when it decided to reimburse PCIs done in ASCs, Dr. Dehmer said. “That was not based on a lot of data. It was kind of a leap of faith. It’s logical that this should work, but in order for it to work and be safe for pats you have to follow the rules. That’s where SCAI stepped in at this point and said this is a whole new environment and we need to set some ground rules for physicians of who and who should not be having these procures in an office-based lab or an ambulatory surgery center.”

Dr. Grines and Dr. Dehmer have no relevant disclosures.
 

The Society for Cardiovascular Angiography and Interventions has issued an updated expert consensus statement to provide clearer guidance on what percutaneous coronary angioplasty cases can be done in outpatient settings such as ambulatory surgery centers (ASCs) and office-based laboratories and which are best left to more traditional settings, such as hospitals with full cardiac support.

PCI has evolved quickly since SCAI issued its last update almost 9 years ago. The updated statement, published online in the Journal of the Society for Cardiovascular Angiography and Interventions, notes that the proportion of same-day PCI discharges has increased from 4.5% in 2009 to 28.6% in 2017.

The statement also notes that the Medicare facility fee for outpatient PCI in an ASC is about 40% less than the hospital fee: $6,111 versus $10,258 for the facility fee for 2022. The Centers for Medicare & Medicaid Services in 2020 extended coverage for PCIs in ASCs.
 

Rationale for update

Writing group chair Cindy Grines, MD, explained the rationale for updating the statement now. “The 2014 SCAI statement was very conservative, recommending only the simplest of cases be done without surgical backup,” Dr. Grines, chief scientific officer at Northside Hospital Cardiovascular Institute in Atlanta, said in an interview.

The statement drew on 12 global studies from 2015 to 2022 that evaluated more than 8 million PCIs at facilities with and without surgery on site. Dr. Grines noted those studies reported complication rates as low as 0.1% in PCI procedures in centers without surgical backup.

She also noted that the writing committee also received input that “by restricting the use of certain devices such as atherectomy, some patients who needed it as a bailout could be harmed.”

Another factor in prompting the statement update, Dr. Grines said: “Many hospitals have consolidated into heath systems, and these systems consolidated bypass surgery into one center. Therefore, centers with high volume, experienced operators, and excellent outcomes were now left with no surgery on site. It didn’t make sense to withdraw complex PCI from these centers who haven’t sent a patient for emergency bypass in several years.”
 

Statement guidance

The centerpiece of the update is an algorithm that covers the range of settings for PCI, from having a surgeon on site to ACS or office-based lab.

For example, indications for on-site surgical capability are PCI of the last remaining patent vessel or retrograde approach to epicardial chronic total occlusion (CTO), and when the patient is a candidate for surgery.

Indications for PCI in a hospital without on-site surgery but with percutaneous ventricular assist device or extracorporeal membrane oxygenation, calcium modification devices and high PCI volume are patients with decreased left ventricular ejection fraction, unprotected left main artery, CTO, or degenerated vein grafts.

For patients at high risk for transfusion, acute kidney injury or vascular complications, or who have high baseline respiratory risk, a hospital without on-site surgery but with respiratory care, blood bank, and vascular surgery services is indicated.

And for patients with none of the aforementioned characteristics or risks, ASC, office-based lab, or any hospital facility is acceptable.

The statement also provides guidance for operator experience. Those with less than 3 years’ experience, considered to have limited exposure to atherectomy devices and limited ST-segmented elevation MI (STEMI)/shock experience, should avoid doing PCIs in an ASC and performing atherectomy cases on their own, and have a colleague review case selection and assist in higher-risk cases. Experienced (3-10 years’ experience) and very experienced (more than 10 years’) should be able to perform in any setting and be competent with, if not highly experienced with, atherectomy and STEMI/shock.

Dr. Grines acknowledged the writing group didn’t want to set a specific operator volume requirement. “However, we recognize that lifetime operator experience is particularly important in more complex cases such as CTO, atherectomy, bifurcation stenoses, etc.,” she said. “In addition, performing these cases at a larger institution that has other operators that may assist in the event of a complication is very important. Specifically, we did not believe that recent fellow graduates with less than 3 years in practice or low-volume operators should attempt higher-risk cases in a no-SOS [surgeon-on-site] setting or perform cases in ASC or office-based labs where no colleagues are there to assist in case of a complication.”

In an interview, Gregory J. Dehmer, MD, professor of medicine at Virginia Tech University, Roanoke, reprised the theme of his accompanying editorial. “Things are evolving again, as Bob Dylan would say, ‘The Times They Are A-Changin’, so it’s very timely that the society in collaboration with other professional societies updated what are guidelines and rules of road if you’re going to do PCI in ASCs or office based laboratories,” said Dr. Dehmer, who chaired the writing committees of the 2007 and 2014 SCAI expert statements on PCI.

Having this statement is important for centers that don’t have on-site surgical backup, he said. “You couldn’t sustain a PCI operation at a rural hospital on just acute MIs alone. The key thing is that all of this built upon numerous studies both in the U.S. and abroad that showed the safety of doing elective cases – not only STEMIs, but elective PCI – at facilities without on-site surgery.”

CMS pushed the envelope when it decided to reimburse PCIs done in ASCs, Dr. Dehmer said. “That was not based on a lot of data. It was kind of a leap of faith. It’s logical that this should work, but in order for it to work and be safe for pats you have to follow the rules. That’s where SCAI stepped in at this point and said this is a whole new environment and we need to set some ground rules for physicians of who and who should not be having these procures in an office-based lab or an ambulatory surgery center.”

Dr. Grines and Dr. Dehmer have no relevant disclosures.
 

The Society for Cardiovascular Angiography and Interventions has issued an updated expert consensus statement to provide clearer guidance on what percutaneous coronary angioplasty cases can be done in outpatient settings such as ambulatory surgery centers (ASCs) and office-based laboratories and which are best left to more traditional settings, such as hospitals with full cardiac support.

PCI has evolved quickly since SCAI issued its last update almost 9 years ago. The updated statement, published online in the Journal of the Society for Cardiovascular Angiography and Interventions, notes that the proportion of same-day PCI discharges has increased from 4.5% in 2009 to 28.6% in 2017.

The statement also notes that the Medicare facility fee for outpatient PCI in an ASC is about 40% less than the hospital fee: $6,111 versus $10,258 for the facility fee for 2022. The Centers for Medicare & Medicaid Services in 2020 extended coverage for PCIs in ASCs.
 

Rationale for update

Writing group chair Cindy Grines, MD, explained the rationale for updating the statement now. “The 2014 SCAI statement was very conservative, recommending only the simplest of cases be done without surgical backup,” Dr. Grines, chief scientific officer at Northside Hospital Cardiovascular Institute in Atlanta, said in an interview.

The statement drew on 12 global studies from 2015 to 2022 that evaluated more than 8 million PCIs at facilities with and without surgery on site. Dr. Grines noted those studies reported complication rates as low as 0.1% in PCI procedures in centers without surgical backup.

She also noted that the writing committee also received input that “by restricting the use of certain devices such as atherectomy, some patients who needed it as a bailout could be harmed.”

Another factor in prompting the statement update, Dr. Grines said: “Many hospitals have consolidated into heath systems, and these systems consolidated bypass surgery into one center. Therefore, centers with high volume, experienced operators, and excellent outcomes were now left with no surgery on site. It didn’t make sense to withdraw complex PCI from these centers who haven’t sent a patient for emergency bypass in several years.”
 

Statement guidance

The centerpiece of the update is an algorithm that covers the range of settings for PCI, from having a surgeon on site to ACS or office-based lab.

For example, indications for on-site surgical capability are PCI of the last remaining patent vessel or retrograde approach to epicardial chronic total occlusion (CTO), and when the patient is a candidate for surgery.

Indications for PCI in a hospital without on-site surgery but with percutaneous ventricular assist device or extracorporeal membrane oxygenation, calcium modification devices and high PCI volume are patients with decreased left ventricular ejection fraction, unprotected left main artery, CTO, or degenerated vein grafts.

For patients at high risk for transfusion, acute kidney injury or vascular complications, or who have high baseline respiratory risk, a hospital without on-site surgery but with respiratory care, blood bank, and vascular surgery services is indicated.

And for patients with none of the aforementioned characteristics or risks, ASC, office-based lab, or any hospital facility is acceptable.

The statement also provides guidance for operator experience. Those with less than 3 years’ experience, considered to have limited exposure to atherectomy devices and limited ST-segmented elevation MI (STEMI)/shock experience, should avoid doing PCIs in an ASC and performing atherectomy cases on their own, and have a colleague review case selection and assist in higher-risk cases. Experienced (3-10 years’ experience) and very experienced (more than 10 years’) should be able to perform in any setting and be competent with, if not highly experienced with, atherectomy and STEMI/shock.

Dr. Grines acknowledged the writing group didn’t want to set a specific operator volume requirement. “However, we recognize that lifetime operator experience is particularly important in more complex cases such as CTO, atherectomy, bifurcation stenoses, etc.,” she said. “In addition, performing these cases at a larger institution that has other operators that may assist in the event of a complication is very important. Specifically, we did not believe that recent fellow graduates with less than 3 years in practice or low-volume operators should attempt higher-risk cases in a no-SOS [surgeon-on-site] setting or perform cases in ASC or office-based labs where no colleagues are there to assist in case of a complication.”

In an interview, Gregory J. Dehmer, MD, professor of medicine at Virginia Tech University, Roanoke, reprised the theme of his accompanying editorial. “Things are evolving again, as Bob Dylan would say, ‘The Times They Are A-Changin’, so it’s very timely that the society in collaboration with other professional societies updated what are guidelines and rules of road if you’re going to do PCI in ASCs or office based laboratories,” said Dr. Dehmer, who chaired the writing committees of the 2007 and 2014 SCAI expert statements on PCI.

Having this statement is important for centers that don’t have on-site surgical backup, he said. “You couldn’t sustain a PCI operation at a rural hospital on just acute MIs alone. The key thing is that all of this built upon numerous studies both in the U.S. and abroad that showed the safety of doing elective cases – not only STEMIs, but elective PCI – at facilities without on-site surgery.”

CMS pushed the envelope when it decided to reimburse PCIs done in ASCs, Dr. Dehmer said. “That was not based on a lot of data. It was kind of a leap of faith. It’s logical that this should work, but in order for it to work and be safe for pats you have to follow the rules. That’s where SCAI stepped in at this point and said this is a whole new environment and we need to set some ground rules for physicians of who and who should not be having these procures in an office-based lab or an ambulatory surgery center.”

Dr. Grines and Dr. Dehmer have no relevant disclosures.
 

The overall case volume for surgical mitral valve (MV) repair of degenerative mitral regurgitation (DMR) hasn’t changed much nearly a decade into the age of transcatheter edge-to-edge repair (TEER). But, over the same period, there’s been a shift in the surgical–MV repair case mix at centers that have offered both the surgical option and TEER, a new study suggests.

Once TEER was introduced, those centers over time used the operative approach less in higher– and intermediate–surgical risk patients and more often in those deemed low risk for surgery. And that trend – at centers offering both approaches – paralleled improved risk-adjusted surgical repair short-term complications and 30-day and 5-year mortality.

The findings come from an analysis based on Society of Thoracic Surgeons and Medicare claims data collected from 2011 through 2018 at surgical–MV repair centers that also offered TEER for DMR after its 2013 approval. The transcatheter procedure, until only recently the exclusive domain of Abbott’s MitraClip in various incarnations, is officially indicated for patients judged too high risk for surgical MV repair.

A shift in surgical MV repair to predominantly lower-risk patients would be expected to improve outcomes. But the improvements seen in the current study seem to have a more complex explanation, Sreekanth Vemulapalli, MD, told this news organization.

The data seem to show TEER indication creep from higher-risk cases, for which there is clinical trial support, to intermediate-risk patients, that lack such evidence in favor of TEER. That seemed to push surgical repair toward even lower-risk cases. “I think that’s exactly right,” said Dr. Vemulapalli, Duke Clinical Research Institute, Durham, N.C.

Still, he observed, the analysis was adjusted for surgical risk, and “Even after that adjustment, it looked like surgical outcomes were getting better after the availability of transcatheter mitral repair techniques.”

That observation may be explained by an increasingly sharp, “more careful” process for selecting patients for surgical repair vs. TEER, said Dr. Vemulapalli, who is senior author of the study published in the Journal of the American College of Cardiology. Angela M. Lowenstern, MD, Vanderbilt University, Nashville, and Andrew M. Vekstein, MD, Duke Clinical Research Institute, were the lead authors.

Indeed, the report states, the analysis supports the view that “a systematic evaluation by a heart team able to direct patients towards either surgical or transcatheter approaches enhances both short-term and long-term surgical outcomes.”

“In a world where both surgical and transcatheter techniques are going to be available,” Dr. Vemulapalli said, “patient selection becomes very, very important.”

An accompanying editorial acknowledges the heart-team approach’s potential for improving the selection of patients for surgery and perhaps therefore outcomes. But it also cites issues with that interpretation of the data.

For example, the heart-team approach is not used in consistent ways across the United States. And “although the heart team is recommended in multiple guidelines for valvular heart therapies, there is little evidence for its efficacy, specifically regarding improving clinical outcomes,” write Matthew W. Sherwood, MD, MHS, and Wayne B. Batchelor, MD, MHS, Inova Heart and Vascular Institute, Falls Church, Va.

The editorialists highlight the study’s “significant downtrend in both high-risk and intermediate-risk surgical cases, with a concomitant increase in low-risk cases,” after introduction of TEER. That shift in case mix, they write, “would seem to be a more likely explanation for the modest improvement in outcomes for surgical MV repair.”

Also, importantly, the analysis didn’t include data on TEER procedures, only indirect evidence for TEER’s effect on surgical MV repair, the editorialists observe, and study authors acknowledge.

Still, the analysis looked at nearly 14,000 patients at 278 U.S. sites with surgical MV repair that launched TEER programs during the study period. They accounted for 6,806 surgical cases before and 7,153 surgical cases after the advent of TEER.

Their median annualized institutional surgical MV repair volume was 32 before and 29 after TEER availability (P = .06).

The risk-adjusted odds ratio for 30-day mortality after vs. before TEER became an option was 0.73 (95% confidence interval, 0.54-0.99). The corresponding hazard ratio for mortality at 5 years was 0.75 (95% CI, 0.66-0.86).

Other risk-adjusted surgical outcomes improved once TEER became available, including MV adverse outcomes (OR, 0.71; 95% CI, 0.58-0.86; P < .001), operative mortality (OR, 0.73; 95% CI, 0.54-0.99; P = .041), and major morbidity (OR, 0.85; 95% CI, 0.73-0.98; P = .026)

Despite the data’s suggestion of TEER indication creep from solely high–surgical risk patients to those at intermediate risk, Dr. Vemulapalli said, “I don’t think that people should be doing transcatheter mitral repair in intermediate- or low-risk patients as a general rule.” Although, he added, “there will always be certain exceptions, depending on the patient’s specific situation.”

Dr. Vemulapalli pointed to several ongoing trials comparing TEER vs. surgical MR repair in patients with DMR at intermediate surgical risk, including REPAIR MR and PRIMARY.

The study was supported by the National Institutes of Health and Abbott. Dr. Vemulapalli discloses receiving grants or contracts from the American College of Cardiology, the Society of Thoracic Surgeons, Cytokinetics, Abbott Vascular, the National Institutes of Health, and Boston Scientific; and consulting or serving on an advisory board for Janssen, the American College of Physicians, HeartFlow, and Edwards LifeSciences. Dr. Sherwood discloses receiving honoraria or consulting fees from Medtronic and Boston Scientific. Dr. Batchelor discloses receiving consulting fees from Medtronic, Boston Scientific, Edwards Lifesciences, and Abbott.

A version of this article first appeared on Medscape.com.

The overall case volume for surgical mitral valve (MV) repair of degenerative mitral regurgitation (DMR) hasn’t changed much nearly a decade into the age of transcatheter edge-to-edge repair (TEER). But, over the same period, there’s been a shift in the surgical–MV repair case mix at centers that have offered both the surgical option and TEER, a new study suggests.

Once TEER was introduced, those centers over time used the operative approach less in higher– and intermediate–surgical risk patients and more often in those deemed low risk for surgery. And that trend – at centers offering both approaches – paralleled improved risk-adjusted surgical repair short-term complications and 30-day and 5-year mortality.

The findings come from an analysis based on Society of Thoracic Surgeons and Medicare claims data collected from 2011 through 2018 at surgical–MV repair centers that also offered TEER for DMR after its 2013 approval. The transcatheter procedure, until only recently the exclusive domain of Abbott’s MitraClip in various incarnations, is officially indicated for patients judged too high risk for surgical MV repair.

A shift in surgical MV repair to predominantly lower-risk patients would be expected to improve outcomes. But the improvements seen in the current study seem to have a more complex explanation, Sreekanth Vemulapalli, MD, told this news organization.

The data seem to show TEER indication creep from higher-risk cases, for which there is clinical trial support, to intermediate-risk patients, that lack such evidence in favor of TEER. That seemed to push surgical repair toward even lower-risk cases. “I think that’s exactly right,” said Dr. Vemulapalli, Duke Clinical Research Institute, Durham, N.C.

Still, he observed, the analysis was adjusted for surgical risk, and “Even after that adjustment, it looked like surgical outcomes were getting better after the availability of transcatheter mitral repair techniques.”

That observation may be explained by an increasingly sharp, “more careful” process for selecting patients for surgical repair vs. TEER, said Dr. Vemulapalli, who is senior author of the study published in the Journal of the American College of Cardiology. Angela M. Lowenstern, MD, Vanderbilt University, Nashville, and Andrew M. Vekstein, MD, Duke Clinical Research Institute, were the lead authors.

Indeed, the report states, the analysis supports the view that “a systematic evaluation by a heart team able to direct patients towards either surgical or transcatheter approaches enhances both short-term and long-term surgical outcomes.”

“In a world where both surgical and transcatheter techniques are going to be available,” Dr. Vemulapalli said, “patient selection becomes very, very important.”

An accompanying editorial acknowledges the heart-team approach’s potential for improving the selection of patients for surgery and perhaps therefore outcomes. But it also cites issues with that interpretation of the data.

For example, the heart-team approach is not used in consistent ways across the United States. And “although the heart team is recommended in multiple guidelines for valvular heart therapies, there is little evidence for its efficacy, specifically regarding improving clinical outcomes,” write Matthew W. Sherwood, MD, MHS, and Wayne B. Batchelor, MD, MHS, Inova Heart and Vascular Institute, Falls Church, Va.

The editorialists highlight the study’s “significant downtrend in both high-risk and intermediate-risk surgical cases, with a concomitant increase in low-risk cases,” after introduction of TEER. That shift in case mix, they write, “would seem to be a more likely explanation for the modest improvement in outcomes for surgical MV repair.”

Also, importantly, the analysis didn’t include data on TEER procedures, only indirect evidence for TEER’s effect on surgical MV repair, the editorialists observe, and study authors acknowledge.

Still, the analysis looked at nearly 14,000 patients at 278 U.S. sites with surgical MV repair that launched TEER programs during the study period. They accounted for 6,806 surgical cases before and 7,153 surgical cases after the advent of TEER.

Their median annualized institutional surgical MV repair volume was 32 before and 29 after TEER availability (P = .06).

The risk-adjusted odds ratio for 30-day mortality after vs. before TEER became an option was 0.73 (95% confidence interval, 0.54-0.99). The corresponding hazard ratio for mortality at 5 years was 0.75 (95% CI, 0.66-0.86).

Other risk-adjusted surgical outcomes improved once TEER became available, including MV adverse outcomes (OR, 0.71; 95% CI, 0.58-0.86; P < .001), operative mortality (OR, 0.73; 95% CI, 0.54-0.99; P = .041), and major morbidity (OR, 0.85; 95% CI, 0.73-0.98; P = .026)

Despite the data’s suggestion of TEER indication creep from solely high–surgical risk patients to those at intermediate risk, Dr. Vemulapalli said, “I don’t think that people should be doing transcatheter mitral repair in intermediate- or low-risk patients as a general rule.” Although, he added, “there will always be certain exceptions, depending on the patient’s specific situation.”

Dr. Vemulapalli pointed to several ongoing trials comparing TEER vs. surgical MR repair in patients with DMR at intermediate surgical risk, including REPAIR MR and PRIMARY.

The study was supported by the National Institutes of Health and Abbott. Dr. Vemulapalli discloses receiving grants or contracts from the American College of Cardiology, the Society of Thoracic Surgeons, Cytokinetics, Abbott Vascular, the National Institutes of Health, and Boston Scientific; and consulting or serving on an advisory board for Janssen, the American College of Physicians, HeartFlow, and Edwards LifeSciences. Dr. Sherwood discloses receiving honoraria or consulting fees from Medtronic and Boston Scientific. Dr. Batchelor discloses receiving consulting fees from Medtronic, Boston Scientific, Edwards Lifesciences, and Abbott.

A version of this article first appeared on Medscape.com.

The overall case volume for surgical mitral valve (MV) repair of degenerative mitral regurgitation (DMR) hasn’t changed much nearly a decade into the age of transcatheter edge-to-edge repair (TEER). But, over the same period, there’s been a shift in the surgical–MV repair case mix at centers that have offered both the surgical option and TEER, a new study suggests.

Once TEER was introduced, those centers over time used the operative approach less in higher– and intermediate–surgical risk patients and more often in those deemed low risk for surgery. And that trend – at centers offering both approaches – paralleled improved risk-adjusted surgical repair short-term complications and 30-day and 5-year mortality.

The findings come from an analysis based on Society of Thoracic Surgeons and Medicare claims data collected from 2011 through 2018 at surgical–MV repair centers that also offered TEER for DMR after its 2013 approval. The transcatheter procedure, until only recently the exclusive domain of Abbott’s MitraClip in various incarnations, is officially indicated for patients judged too high risk for surgical MV repair.

A shift in surgical MV repair to predominantly lower-risk patients would be expected to improve outcomes. But the improvements seen in the current study seem to have a more complex explanation, Sreekanth Vemulapalli, MD, told this news organization.

The data seem to show TEER indication creep from higher-risk cases, for which there is clinical trial support, to intermediate-risk patients, that lack such evidence in favor of TEER. That seemed to push surgical repair toward even lower-risk cases. “I think that’s exactly right,” said Dr. Vemulapalli, Duke Clinical Research Institute, Durham, N.C.

Still, he observed, the analysis was adjusted for surgical risk, and “Even after that adjustment, it looked like surgical outcomes were getting better after the availability of transcatheter mitral repair techniques.”

That observation may be explained by an increasingly sharp, “more careful” process for selecting patients for surgical repair vs. TEER, said Dr. Vemulapalli, who is senior author of the study published in the Journal of the American College of Cardiology. Angela M. Lowenstern, MD, Vanderbilt University, Nashville, and Andrew M. Vekstein, MD, Duke Clinical Research Institute, were the lead authors.

Indeed, the report states, the analysis supports the view that “a systematic evaluation by a heart team able to direct patients towards either surgical or transcatheter approaches enhances both short-term and long-term surgical outcomes.”

“In a world where both surgical and transcatheter techniques are going to be available,” Dr. Vemulapalli said, “patient selection becomes very, very important.”

An accompanying editorial acknowledges the heart-team approach’s potential for improving the selection of patients for surgery and perhaps therefore outcomes. But it also cites issues with that interpretation of the data.

For example, the heart-team approach is not used in consistent ways across the United States. And “although the heart team is recommended in multiple guidelines for valvular heart therapies, there is little evidence for its efficacy, specifically regarding improving clinical outcomes,” write Matthew W. Sherwood, MD, MHS, and Wayne B. Batchelor, MD, MHS, Inova Heart and Vascular Institute, Falls Church, Va.

The editorialists highlight the study’s “significant downtrend in both high-risk and intermediate-risk surgical cases, with a concomitant increase in low-risk cases,” after introduction of TEER. That shift in case mix, they write, “would seem to be a more likely explanation for the modest improvement in outcomes for surgical MV repair.”

Also, importantly, the analysis didn’t include data on TEER procedures, only indirect evidence for TEER’s effect on surgical MV repair, the editorialists observe, and study authors acknowledge.

Still, the analysis looked at nearly 14,000 patients at 278 U.S. sites with surgical MV repair that launched TEER programs during the study period. They accounted for 6,806 surgical cases before and 7,153 surgical cases after the advent of TEER.

Their median annualized institutional surgical MV repair volume was 32 before and 29 after TEER availability (P = .06).

The risk-adjusted odds ratio for 30-day mortality after vs. before TEER became an option was 0.73 (95% confidence interval, 0.54-0.99). The corresponding hazard ratio for mortality at 5 years was 0.75 (95% CI, 0.66-0.86).

Other risk-adjusted surgical outcomes improved once TEER became available, including MV adverse outcomes (OR, 0.71; 95% CI, 0.58-0.86; P < .001), operative mortality (OR, 0.73; 95% CI, 0.54-0.99; P = .041), and major morbidity (OR, 0.85; 95% CI, 0.73-0.98; P = .026)

Despite the data’s suggestion of TEER indication creep from solely high–surgical risk patients to those at intermediate risk, Dr. Vemulapalli said, “I don’t think that people should be doing transcatheter mitral repair in intermediate- or low-risk patients as a general rule.” Although, he added, “there will always be certain exceptions, depending on the patient’s specific situation.”

Dr. Vemulapalli pointed to several ongoing trials comparing TEER vs. surgical MR repair in patients with DMR at intermediate surgical risk, including REPAIR MR and PRIMARY.

The study was supported by the National Institutes of Health and Abbott. Dr. Vemulapalli discloses receiving grants or contracts from the American College of Cardiology, the Society of Thoracic Surgeons, Cytokinetics, Abbott Vascular, the National Institutes of Health, and Boston Scientific; and consulting or serving on an advisory board for Janssen, the American College of Physicians, HeartFlow, and Edwards LifeSciences. Dr. Sherwood discloses receiving honoraria or consulting fees from Medtronic and Boston Scientific. Dr. Batchelor discloses receiving consulting fees from Medtronic, Boston Scientific, Edwards Lifesciences, and Abbott.

A version of this article first appeared on Medscape.com.

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

A version of this article first appeared on WebMD.com.

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

A version of this article first appeared on WebMD.com.

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

A version of this article first appeared on WebMD.com.

Functions like sensing and pacing in implantable cardioverter defibrillators (ICDs) tend to resist interference from the energy fields generated by MRI, as long as device programming is properly adjusted before the scan.

That applies even to patients with older “legacy” devices implanted before the 2015 advent of MRI-conditional ICDs despite, in practice, prevalent but misguided resistance to obtaining MRI scans in such cases.

Less is known whether such non–MRI-conditional devices, once exposed to MRI, will then reliably deliver antiarrhythmic shocks or antitachycardia pacing (ATP) when needed.

A new cohort study has tried to fill in some of that knowledge gap. It showed no evidence of an excess risk for death or ICD failure to deliver therapy within about 2 years of clinically indicated MRI scans in 629 patients with non–MRI-conditional devices.

The findings, published online in the Annals of Internal Medicine, come with caveats. For example, they’re based on the experience of one, albeit major, center and on MRIs that were for varied indications using 1.5-tesla equipment only.

Despite such safety evidence for appropriately adjusted non–MRI-conditional ICDs, many patients with the devices don›t receive clinically indicated MRI scans due to “perceived risk” that the ICDs won’t then reliably deliver appropriate therapy, observe the authors, led by Joshua Ra, MD, University of California, San Francisco.

Any such risks are “largely theoretical,” but may still explain “why some institutions are shying away from offering MRI exams” to patients with non–MRI-conditional ICDs, Dr. Ra told this news organization.

Many such hospitals refer such patients to more experienced centers, creating “significant logistical barriers in terms of patient access to these MRIs,” he said. “That seems to still be prevalent, unfortunately.”

The current findings “provide another layer of reassurance” that MRI scans in patients with non–MRI-conditional ICDs don’t impair a device’s ability to deliver shocks or ATP, Dr. Ra said.

The cohort consisted of 629 patients with non–MRI-conditional ICDs who underwent 813 clinically indicated MRI exams from 2003 to early 2015 at Johns Hopkins University, Baltimore.

Scans performed within 4 weeks of device implantation were excluded because, the report notes, that’s when spontaneous lead dislodgements or changes to device parameters are most likely to occur. Also excluded were patients with permanent epicardial leads, abandoned leads, or subcutaneous ICD lead systems, the report states.

Still, Dr. Ra said, the cohort is fairly representative of “the modern patient population” of non–MRI-conditional ICD recipients.

A total of 4,177 arrhythmia episodes were documented during a median 2.2 years between scans and last device interrogation prior to pulse-generator change-out or lead exchange.

Of note, Dr. Ra observed, the arrhythmias were confirmed in only 85% of the cohort. Most of the remainder were referral patients who were lost to follow-up whose devices were unavailable for interrogation.

Device therapy terminated “nearly all” documented spontaneous arrhythmias in that 85% of patients, the report states. They included 757 episodes of ventricular tachycardia (VT) or ventricular fibrillation (VF), including 130 that were shocked and the remainder that were managed with ATP. There were also 105 supraventricular tachycardias, all successfully terminated with shocks.

There were no cases of VT or VF detection delay from undersensing or instances of syncope because of “abnormalities” in device detection of arrhythmias, the report states.

Of the 210 known deaths, which occurred a median 1.7 years after the scan, about half were noncardiac and more than a third were cardiac but nonarrhythmic.

Ten patients died from arrhythmia-related cardiac causes, representing 5% of deaths; but 7% of deaths were of undetermined cause.

“No direct relationship of deaths attributable to prior MRI exposure was found or reported,” the report states.

The researchers informally compared outcomes between older and more recently implanted non–MRI-conditional ICDs, the latter presumably with more modern design features. Their data, based on device interrogations, Dr. Ra said, “seem to suggest there were no differences.”

The study was supported by Johns Hopkins University and the National Institutes of Health. Author disclosures are available at apconline.org.

A version of this article first appeared on Medscape.com.

Functions like sensing and pacing in implantable cardioverter defibrillators (ICDs) tend to resist interference from the energy fields generated by MRI, as long as device programming is properly adjusted before the scan.

That applies even to patients with older “legacy” devices implanted before the 2015 advent of MRI-conditional ICDs despite, in practice, prevalent but misguided resistance to obtaining MRI scans in such cases.

Less is known whether such non–MRI-conditional devices, once exposed to MRI, will then reliably deliver antiarrhythmic shocks or antitachycardia pacing (ATP) when needed.

A new cohort study has tried to fill in some of that knowledge gap. It showed no evidence of an excess risk for death or ICD failure to deliver therapy within about 2 years of clinically indicated MRI scans in 629 patients with non–MRI-conditional devices.

The findings, published online in the Annals of Internal Medicine, come with caveats. For example, they’re based on the experience of one, albeit major, center and on MRIs that were for varied indications using 1.5-tesla equipment only.

Despite such safety evidence for appropriately adjusted non–MRI-conditional ICDs, many patients with the devices don›t receive clinically indicated MRI scans due to “perceived risk” that the ICDs won’t then reliably deliver appropriate therapy, observe the authors, led by Joshua Ra, MD, University of California, San Francisco.

Any such risks are “largely theoretical,” but may still explain “why some institutions are shying away from offering MRI exams” to patients with non–MRI-conditional ICDs, Dr. Ra told this news organization.

Many such hospitals refer such patients to more experienced centers, creating “significant logistical barriers in terms of patient access to these MRIs,” he said. “That seems to still be prevalent, unfortunately.”

The current findings “provide another layer of reassurance” that MRI scans in patients with non–MRI-conditional ICDs don’t impair a device’s ability to deliver shocks or ATP, Dr. Ra said.

The cohort consisted of 629 patients with non–MRI-conditional ICDs who underwent 813 clinically indicated MRI exams from 2003 to early 2015 at Johns Hopkins University, Baltimore.

Scans performed within 4 weeks of device implantation were excluded because, the report notes, that’s when spontaneous lead dislodgements or changes to device parameters are most likely to occur. Also excluded were patients with permanent epicardial leads, abandoned leads, or subcutaneous ICD lead systems, the report states.

Still, Dr. Ra said, the cohort is fairly representative of “the modern patient population” of non–MRI-conditional ICD recipients.

A total of 4,177 arrhythmia episodes were documented during a median 2.2 years between scans and last device interrogation prior to pulse-generator change-out or lead exchange.

Of note, Dr. Ra observed, the arrhythmias were confirmed in only 85% of the cohort. Most of the remainder were referral patients who were lost to follow-up whose devices were unavailable for interrogation.

Device therapy terminated “nearly all” documented spontaneous arrhythmias in that 85% of patients, the report states. They included 757 episodes of ventricular tachycardia (VT) or ventricular fibrillation (VF), including 130 that were shocked and the remainder that were managed with ATP. There were also 105 supraventricular tachycardias, all successfully terminated with shocks.

There were no cases of VT or VF detection delay from undersensing or instances of syncope because of “abnormalities” in device detection of arrhythmias, the report states.

Of the 210 known deaths, which occurred a median 1.7 years after the scan, about half were noncardiac and more than a third were cardiac but nonarrhythmic.

Ten patients died from arrhythmia-related cardiac causes, representing 5% of deaths; but 7% of deaths were of undetermined cause.

“No direct relationship of deaths attributable to prior MRI exposure was found or reported,” the report states.

The researchers informally compared outcomes between older and more recently implanted non–MRI-conditional ICDs, the latter presumably with more modern design features. Their data, based on device interrogations, Dr. Ra said, “seem to suggest there were no differences.”

The study was supported by Johns Hopkins University and the National Institutes of Health. Author disclosures are available at apconline.org.

A version of this article first appeared on Medscape.com.

Functions like sensing and pacing in implantable cardioverter defibrillators (ICDs) tend to resist interference from the energy fields generated by MRI, as long as device programming is properly adjusted before the scan.

That applies even to patients with older “legacy” devices implanted before the 2015 advent of MRI-conditional ICDs despite, in practice, prevalent but misguided resistance to obtaining MRI scans in such cases.

Less is known whether such non–MRI-conditional devices, once exposed to MRI, will then reliably deliver antiarrhythmic shocks or antitachycardia pacing (ATP) when needed.

A new cohort study has tried to fill in some of that knowledge gap. It showed no evidence of an excess risk for death or ICD failure to deliver therapy within about 2 years of clinically indicated MRI scans in 629 patients with non–MRI-conditional devices.

The findings, published online in the Annals of Internal Medicine, come with caveats. For example, they’re based on the experience of one, albeit major, center and on MRIs that were for varied indications using 1.5-tesla equipment only.

Despite such safety evidence for appropriately adjusted non–MRI-conditional ICDs, many patients with the devices don›t receive clinically indicated MRI scans due to “perceived risk” that the ICDs won’t then reliably deliver appropriate therapy, observe the authors, led by Joshua Ra, MD, University of California, San Francisco.

Any such risks are “largely theoretical,” but may still explain “why some institutions are shying away from offering MRI exams” to patients with non–MRI-conditional ICDs, Dr. Ra told this news organization.

Many such hospitals refer such patients to more experienced centers, creating “significant logistical barriers in terms of patient access to these MRIs,” he said. “That seems to still be prevalent, unfortunately.”

The current findings “provide another layer of reassurance” that MRI scans in patients with non–MRI-conditional ICDs don’t impair a device’s ability to deliver shocks or ATP, Dr. Ra said.

The cohort consisted of 629 patients with non–MRI-conditional ICDs who underwent 813 clinically indicated MRI exams from 2003 to early 2015 at Johns Hopkins University, Baltimore.

Scans performed within 4 weeks of device implantation were excluded because, the report notes, that’s when spontaneous lead dislodgements or changes to device parameters are most likely to occur. Also excluded were patients with permanent epicardial leads, abandoned leads, or subcutaneous ICD lead systems, the report states.

Still, Dr. Ra said, the cohort is fairly representative of “the modern patient population” of non–MRI-conditional ICD recipients.

A total of 4,177 arrhythmia episodes were documented during a median 2.2 years between scans and last device interrogation prior to pulse-generator change-out or lead exchange.

Of note, Dr. Ra observed, the arrhythmias were confirmed in only 85% of the cohort. Most of the remainder were referral patients who were lost to follow-up whose devices were unavailable for interrogation.

Device therapy terminated “nearly all” documented spontaneous arrhythmias in that 85% of patients, the report states. They included 757 episodes of ventricular tachycardia (VT) or ventricular fibrillation (VF), including 130 that were shocked and the remainder that were managed with ATP. There were also 105 supraventricular tachycardias, all successfully terminated with shocks.

There were no cases of VT or VF detection delay from undersensing or instances of syncope because of “abnormalities” in device detection of arrhythmias, the report states.

Of the 210 known deaths, which occurred a median 1.7 years after the scan, about half were noncardiac and more than a third were cardiac but nonarrhythmic.

Ten patients died from arrhythmia-related cardiac causes, representing 5% of deaths; but 7% of deaths were of undetermined cause.

“No direct relationship of deaths attributable to prior MRI exposure was found or reported,” the report states.

The researchers informally compared outcomes between older and more recently implanted non–MRI-conditional ICDs, the latter presumably with more modern design features. Their data, based on device interrogations, Dr. Ra said, “seem to suggest there were no differences.”

The study was supported by Johns Hopkins University and the National Institutes of Health. Author disclosures are available at apconline.org.

A version of this article first appeared on Medscape.com.

Cardiovascular-related deaths increased dramatically in 2020, marking the largest single-year increase since 2015 and surpassing the previous record from 2003, according to the American Heart Association’s 2023 Statistical Update.

During the first year of the COVID-19 pandemic, the largest increases in cardiovascular disease (CVD) deaths were seen among Asian, Black, and Hispanic people.

“We thought we had been improving as a country with respect to CVD deaths over the past few decades,” Connie Tsao, MD, chair of the AHA Statistical Update writing committee, told this news organization.

Since 2020, however, those trends have changed. Dr. Tsao, a staff cardiologist at Beth Israel Deaconess Medical Center and assistant professor of medicine at Harvard Medical School, both in Boston, noted the firsthand experience that many clinicians had in seeing the shift.

“We observed this sharp rise in age-adjusted CVD deaths, which corresponds to the COVID-19 pandemic,” she said. “Those of us health care providers knew from the overfull hospitals and ICUs that clearly COVID took a toll, particularly in those with cardiovascular risk factors.”

The AHA Statistical Update was published online in the journal Circulation.
 

Data on deaths

Each year, the American Heart Association and National Institutes of Health report the latest statistics related to heart disease, stroke, and cardiovascular risk factors. The 2023 update includes additional information about pandemic-related data.

Overall, the number of people who died from cardiovascular disease increased during the first year of the pandemic, rising from 876,613 in 2019 to 928,741 in 2020. This topped the previous high of 910,000 in 2003.

In addition, the age-adjusted mortality rate increased for the first time in several years, Dr. Tsao said, by a “fairly substantial” 4.6%. The age-adjusted mortality rate incorporates the variability in the aging population from year to year, accounting for higher death rates among older people.

“Even though our total number of deaths has been slowly increasing over the past decade, we have seen a decline each year in our age-adjusted rates – until 2020,” she said. “I think that is very indicative of what has been going on within our country – and the world – in light of people of all ages being impacted by the COVID-19 pandemic, especially before vaccines were available to slow the spread.”

The largest increases in CVD-related deaths occurred among Asian, Black, and Hispanic people, who were most heavily affected during the first year of the pandemic.

“People from communities of color were among those most highly impacted, especially early on, often due to a disproportionate burden of cardiovascular risk factors, such as hypertension and obesity,” Michelle Albert, MD, MPH, president of AHA and a professor of medicine at the University of California, San Francisco, said in a statement.

Dr. Albert, who is also the director of UCSF’s Center for the Study of Adversity and Cardiovascular Disease, does research on health equity and noted the disparities seen in the 2020 numbers. “Additionally, there are socioeconomic considerations, as well as the ongoing impact of structural racism on multiple factors, including limiting the ability to access quality health care,” she said.
 

Additional considerations

In a special commentary, the Statistical Update writing committee pointed to the need to track data for other underrepresented communities, including LGBTQ people and those living in rural or urban areas. The authors outlined several ways to better understand the effects of identity and social determinants of health, as well as strategies to reduce cardiovascular-related disparities.

“This year’s writing group made a concerted effort to gather information on specific social factors related to health risk and outcomes, including sexual orientation, gender identity, urbanization, and socioeconomic position,” Dr. Tsao said. “However, the data are lacking because these communities are grossly underrepresented in clinical and epidemiological research.”

For the next several years, the AHA Statistical Update will likely include more insights about the effects of the COVID-19 pandemic, as well as ongoing disparities.

“For sure, we will be continuing to see the effects of the pandemic for years to come,” Dr. Tsao said. “Recognition of the disparities in outcomes among vulnerable groups should be a call to action among health care providers and researchers, administration, and policy leaders to investigate the reasons and make changes to reverse these trends.”

The statistical update was prepared by a volunteer writing group on behalf of the American Heart Association Council on Epidemiology and Prevention Statistics Committee and Stroke Statistics Subcommittee.

A version of this article first appeared on Medscape.com.

Cardiovascular-related deaths increased dramatically in 2020, marking the largest single-year increase since 2015 and surpassing the previous record from 2003, according to the American Heart Association’s 2023 Statistical Update.

During the first year of the COVID-19 pandemic, the largest increases in cardiovascular disease (CVD) deaths were seen among Asian, Black, and Hispanic people.

“We thought we had been improving as a country with respect to CVD deaths over the past few decades,” Connie Tsao, MD, chair of the AHA Statistical Update writing committee, told this news organization.

Since 2020, however, those trends have changed. Dr. Tsao, a staff cardiologist at Beth Israel Deaconess Medical Center and assistant professor of medicine at Harvard Medical School, both in Boston, noted the firsthand experience that many clinicians had in seeing the shift.

“We observed this sharp rise in age-adjusted CVD deaths, which corresponds to the COVID-19 pandemic,” she said. “Those of us health care providers knew from the overfull hospitals and ICUs that clearly COVID took a toll, particularly in those with cardiovascular risk factors.”

The AHA Statistical Update was published online in the journal Circulation.
 

Data on deaths

Each year, the American Heart Association and National Institutes of Health report the latest statistics related to heart disease, stroke, and cardiovascular risk factors. The 2023 update includes additional information about pandemic-related data.

Overall, the number of people who died from cardiovascular disease increased during the first year of the pandemic, rising from 876,613 in 2019 to 928,741 in 2020. This topped the previous high of 910,000 in 2003.

In addition, the age-adjusted mortality rate increased for the first time in several years, Dr. Tsao said, by a “fairly substantial” 4.6%. The age-adjusted mortality rate incorporates the variability in the aging population from year to year, accounting for higher death rates among older people.

“Even though our total number of deaths has been slowly increasing over the past decade, we have seen a decline each year in our age-adjusted rates – until 2020,” she said. “I think that is very indicative of what has been going on within our country – and the world – in light of people of all ages being impacted by the COVID-19 pandemic, especially before vaccines were available to slow the spread.”

The largest increases in CVD-related deaths occurred among Asian, Black, and Hispanic people, who were most heavily affected during the first year of the pandemic.

“People from communities of color were among those most highly impacted, especially early on, often due to a disproportionate burden of cardiovascular risk factors, such as hypertension and obesity,” Michelle Albert, MD, MPH, president of AHA and a professor of medicine at the University of California, San Francisco, said in a statement.

Dr. Albert, who is also the director of UCSF’s Center for the Study of Adversity and Cardiovascular Disease, does research on health equity and noted the disparities seen in the 2020 numbers. “Additionally, there are socioeconomic considerations, as well as the ongoing impact of structural racism on multiple factors, including limiting the ability to access quality health care,” she said.
 

Additional considerations

In a special commentary, the Statistical Update writing committee pointed to the need to track data for other underrepresented communities, including LGBTQ people and those living in rural or urban areas. The authors outlined several ways to better understand the effects of identity and social determinants of health, as well as strategies to reduce cardiovascular-related disparities.

“This year’s writing group made a concerted effort to gather information on specific social factors related to health risk and outcomes, including sexual orientation, gender identity, urbanization, and socioeconomic position,” Dr. Tsao said. “However, the data are lacking because these communities are grossly underrepresented in clinical and epidemiological research.”

For the next several years, the AHA Statistical Update will likely include more insights about the effects of the COVID-19 pandemic, as well as ongoing disparities.

“For sure, we will be continuing to see the effects of the pandemic for years to come,” Dr. Tsao said. “Recognition of the disparities in outcomes among vulnerable groups should be a call to action among health care providers and researchers, administration, and policy leaders to investigate the reasons and make changes to reverse these trends.”

The statistical update was prepared by a volunteer writing group on behalf of the American Heart Association Council on Epidemiology and Prevention Statistics Committee and Stroke Statistics Subcommittee.

A version of this article first appeared on Medscape.com.

Cardiovascular-related deaths increased dramatically in 2020, marking the largest single-year increase since 2015 and surpassing the previous record from 2003, according to the American Heart Association’s 2023 Statistical Update.

During the first year of the COVID-19 pandemic, the largest increases in cardiovascular disease (CVD) deaths were seen among Asian, Black, and Hispanic people.

“We thought we had been improving as a country with respect to CVD deaths over the past few decades,” Connie Tsao, MD, chair of the AHA Statistical Update writing committee, told this news organization.

Since 2020, however, those trends have changed. Dr. Tsao, a staff cardiologist at Beth Israel Deaconess Medical Center and assistant professor of medicine at Harvard Medical School, both in Boston, noted the firsthand experience that many clinicians had in seeing the shift.

“We observed this sharp rise in age-adjusted CVD deaths, which corresponds to the COVID-19 pandemic,” she said. “Those of us health care providers knew from the overfull hospitals and ICUs that clearly COVID took a toll, particularly in those with cardiovascular risk factors.”

The AHA Statistical Update was published online in the journal Circulation.
 

Data on deaths

Each year, the American Heart Association and National Institutes of Health report the latest statistics related to heart disease, stroke, and cardiovascular risk factors. The 2023 update includes additional information about pandemic-related data.

Overall, the number of people who died from cardiovascular disease increased during the first year of the pandemic, rising from 876,613 in 2019 to 928,741 in 2020. This topped the previous high of 910,000 in 2003.

In addition, the age-adjusted mortality rate increased for the first time in several years, Dr. Tsao said, by a “fairly substantial” 4.6%. The age-adjusted mortality rate incorporates the variability in the aging population from year to year, accounting for higher death rates among older people.

“Even though our total number of deaths has been slowly increasing over the past decade, we have seen a decline each year in our age-adjusted rates – until 2020,” she said. “I think that is very indicative of what has been going on within our country – and the world – in light of people of all ages being impacted by the COVID-19 pandemic, especially before vaccines were available to slow the spread.”

The largest increases in CVD-related deaths occurred among Asian, Black, and Hispanic people, who were most heavily affected during the first year of the pandemic.

“People from communities of color were among those most highly impacted, especially early on, often due to a disproportionate burden of cardiovascular risk factors, such as hypertension and obesity,” Michelle Albert, MD, MPH, president of AHA and a professor of medicine at the University of California, San Francisco, said in a statement.

Dr. Albert, who is also the director of UCSF’s Center for the Study of Adversity and Cardiovascular Disease, does research on health equity and noted the disparities seen in the 2020 numbers. “Additionally, there are socioeconomic considerations, as well as the ongoing impact of structural racism on multiple factors, including limiting the ability to access quality health care,” she said.
 

Additional considerations

In a special commentary, the Statistical Update writing committee pointed to the need to track data for other underrepresented communities, including LGBTQ people and those living in rural or urban areas. The authors outlined several ways to better understand the effects of identity and social determinants of health, as well as strategies to reduce cardiovascular-related disparities.

“This year’s writing group made a concerted effort to gather information on specific social factors related to health risk and outcomes, including sexual orientation, gender identity, urbanization, and socioeconomic position,” Dr. Tsao said. “However, the data are lacking because these communities are grossly underrepresented in clinical and epidemiological research.”

For the next several years, the AHA Statistical Update will likely include more insights about the effects of the COVID-19 pandemic, as well as ongoing disparities.

“For sure, we will be continuing to see the effects of the pandemic for years to come,” Dr. Tsao said. “Recognition of the disparities in outcomes among vulnerable groups should be a call to action among health care providers and researchers, administration, and policy leaders to investigate the reasons and make changes to reverse these trends.”

The statistical update was prepared by a volunteer writing group on behalf of the American Heart Association Council on Epidemiology and Prevention Statistics Committee and Stroke Statistics Subcommittee.

A version of this article first appeared on Medscape.com.