User login
Outcomes/costs similar for minimally invasive vs. sternotomy-based mitral surgery
NEW YORK – Minimally invasive mitral valve surgery provides outcomes that match those of conventional sternotomy without increasing use of resources, and lower costs after surgery offset potentially higher operation costs, according to a single-center, propensity-matched analysis of almost 500 patients presented at the meeting sponsored by the American Association for Thoracic Surgery.
“Minimally invasive mitral surgery has excellent outcomes with fewer transfusions and less time ventilated in this representative cohort,” said Robert Hawkins, MD, of the University of Virginia, Charlottesville, in reporting the results.
“While operative times were longer, surgical costs remained statistically similar, and minimally invasive mitral surgery was associated with similar total costs in more complex mitral cases.”
Minimally invasive surgery often is criticized as a more expensive approach with little benefit, prompting the idea for this analysis, said coauthor Gorav Ailawadi, MD, also of the University of Virginia. The analysis involved records of 479 patients in the institutional Society of Thoracic Surgery database who had a primary mitral valve operation at the University of Virginia from January 2012 to June 2016. The researchers extracted propensity-matched cohorts of 93 each who had conventional and minimally invasive mitral operations. The cost analysis involved pairing the procedures with institutional financial records.
Dr. Hawkins said this study included higher risk patients to attempt to overcome shortcomings of previously published reports that skewed toward lower-risk, highly selective mitral repairs for degenerative mitral disease. “They’re not really representative of the current state of minimally invasive mitral valve surgery as it currently stands in the higher risk patient population,” he said of previous studies.
Major outcomes were similar in both groups. “The mitral valve repair rate was about 81% for both groups, and the tricuspid valve repair rate was 8.8%,” Dr. Hawkins said. “About 35% had atrial fibrillation surgery, including both ablation and left atrial appendage ligation.”
Dr. Hawkins characterized outcomes in both surgical groups as “excellent,” and added, “The operative mortality rate was 1.3% and the major morbidity rate was 11% and not different between groups.”
Some key operative characteristics differed between the two groups. “As expected the cross clamp times and bypass times for the minimally invasive approaches were longer,” Dr. Hawkins said. Also, those who had minimally invasive mitral surgery had a “dramatic decrease” in transfusion rates.
With regard to resource utilization, minimally invasive surgery had longer operative times – an average of 291 minutes vs. 222 minutes (P less than .0001) – but similar or improved use of postoperative resources. “We see that the minimally invasive approach leads to decreased treatment and ancillary costs without a statistically significant difference in surgical costs despite the longer operative times,” Dr. Hawkins said.
However, he noted the high variability of total hospital costs in higher-risk populations complicate any head-to-head comparisons of resource utilization between the conventional and minimally invasive approaches, so the researchers attempted to drill down to identify predictors of resource use. Using a regression model, they found that minimally invasive approach may actually save money, although this finding was not statistically significant (–$1,524; P = 0.83).
“We see that the major drivers of costs are complications,” Dr. Hawkins said. “Morbidity and mortality led to a $54,000 cost increase, and the addition of tricuspid repair also led to about $60,000 higher costs, which is more likely related to higher risk and thus complications. The costs of higher-acuity cases are driven by the complications and not the approach.”
Dr. Hawkins reported no financial relationships. Dr. Ailawadi disclosed consulting agreements with Edwards Lifesciences, Abbott, Medtronic, and AtriCure.
NEW YORK – Minimally invasive mitral valve surgery provides outcomes that match those of conventional sternotomy without increasing use of resources, and lower costs after surgery offset potentially higher operation costs, according to a single-center, propensity-matched analysis of almost 500 patients presented at the meeting sponsored by the American Association for Thoracic Surgery.
“Minimally invasive mitral surgery has excellent outcomes with fewer transfusions and less time ventilated in this representative cohort,” said Robert Hawkins, MD, of the University of Virginia, Charlottesville, in reporting the results.
“While operative times were longer, surgical costs remained statistically similar, and minimally invasive mitral surgery was associated with similar total costs in more complex mitral cases.”
Minimally invasive surgery often is criticized as a more expensive approach with little benefit, prompting the idea for this analysis, said coauthor Gorav Ailawadi, MD, also of the University of Virginia. The analysis involved records of 479 patients in the institutional Society of Thoracic Surgery database who had a primary mitral valve operation at the University of Virginia from January 2012 to June 2016. The researchers extracted propensity-matched cohorts of 93 each who had conventional and minimally invasive mitral operations. The cost analysis involved pairing the procedures with institutional financial records.
Dr. Hawkins said this study included higher risk patients to attempt to overcome shortcomings of previously published reports that skewed toward lower-risk, highly selective mitral repairs for degenerative mitral disease. “They’re not really representative of the current state of minimally invasive mitral valve surgery as it currently stands in the higher risk patient population,” he said of previous studies.
Major outcomes were similar in both groups. “The mitral valve repair rate was about 81% for both groups, and the tricuspid valve repair rate was 8.8%,” Dr. Hawkins said. “About 35% had atrial fibrillation surgery, including both ablation and left atrial appendage ligation.”
Dr. Hawkins characterized outcomes in both surgical groups as “excellent,” and added, “The operative mortality rate was 1.3% and the major morbidity rate was 11% and not different between groups.”
Some key operative characteristics differed between the two groups. “As expected the cross clamp times and bypass times for the minimally invasive approaches were longer,” Dr. Hawkins said. Also, those who had minimally invasive mitral surgery had a “dramatic decrease” in transfusion rates.
With regard to resource utilization, minimally invasive surgery had longer operative times – an average of 291 minutes vs. 222 minutes (P less than .0001) – but similar or improved use of postoperative resources. “We see that the minimally invasive approach leads to decreased treatment and ancillary costs without a statistically significant difference in surgical costs despite the longer operative times,” Dr. Hawkins said.
However, he noted the high variability of total hospital costs in higher-risk populations complicate any head-to-head comparisons of resource utilization between the conventional and minimally invasive approaches, so the researchers attempted to drill down to identify predictors of resource use. Using a regression model, they found that minimally invasive approach may actually save money, although this finding was not statistically significant (–$1,524; P = 0.83).
“We see that the major drivers of costs are complications,” Dr. Hawkins said. “Morbidity and mortality led to a $54,000 cost increase, and the addition of tricuspid repair also led to about $60,000 higher costs, which is more likely related to higher risk and thus complications. The costs of higher-acuity cases are driven by the complications and not the approach.”
Dr. Hawkins reported no financial relationships. Dr. Ailawadi disclosed consulting agreements with Edwards Lifesciences, Abbott, Medtronic, and AtriCure.
NEW YORK – Minimally invasive mitral valve surgery provides outcomes that match those of conventional sternotomy without increasing use of resources, and lower costs after surgery offset potentially higher operation costs, according to a single-center, propensity-matched analysis of almost 500 patients presented at the meeting sponsored by the American Association for Thoracic Surgery.
“Minimally invasive mitral surgery has excellent outcomes with fewer transfusions and less time ventilated in this representative cohort,” said Robert Hawkins, MD, of the University of Virginia, Charlottesville, in reporting the results.
“While operative times were longer, surgical costs remained statistically similar, and minimally invasive mitral surgery was associated with similar total costs in more complex mitral cases.”
Minimally invasive surgery often is criticized as a more expensive approach with little benefit, prompting the idea for this analysis, said coauthor Gorav Ailawadi, MD, also of the University of Virginia. The analysis involved records of 479 patients in the institutional Society of Thoracic Surgery database who had a primary mitral valve operation at the University of Virginia from January 2012 to June 2016. The researchers extracted propensity-matched cohorts of 93 each who had conventional and minimally invasive mitral operations. The cost analysis involved pairing the procedures with institutional financial records.
Dr. Hawkins said this study included higher risk patients to attempt to overcome shortcomings of previously published reports that skewed toward lower-risk, highly selective mitral repairs for degenerative mitral disease. “They’re not really representative of the current state of minimally invasive mitral valve surgery as it currently stands in the higher risk patient population,” he said of previous studies.
Major outcomes were similar in both groups. “The mitral valve repair rate was about 81% for both groups, and the tricuspid valve repair rate was 8.8%,” Dr. Hawkins said. “About 35% had atrial fibrillation surgery, including both ablation and left atrial appendage ligation.”
Dr. Hawkins characterized outcomes in both surgical groups as “excellent,” and added, “The operative mortality rate was 1.3% and the major morbidity rate was 11% and not different between groups.”
Some key operative characteristics differed between the two groups. “As expected the cross clamp times and bypass times for the minimally invasive approaches were longer,” Dr. Hawkins said. Also, those who had minimally invasive mitral surgery had a “dramatic decrease” in transfusion rates.
With regard to resource utilization, minimally invasive surgery had longer operative times – an average of 291 minutes vs. 222 minutes (P less than .0001) – but similar or improved use of postoperative resources. “We see that the minimally invasive approach leads to decreased treatment and ancillary costs without a statistically significant difference in surgical costs despite the longer operative times,” Dr. Hawkins said.
However, he noted the high variability of total hospital costs in higher-risk populations complicate any head-to-head comparisons of resource utilization between the conventional and minimally invasive approaches, so the researchers attempted to drill down to identify predictors of resource use. Using a regression model, they found that minimally invasive approach may actually save money, although this finding was not statistically significant (–$1,524; P = 0.83).
“We see that the major drivers of costs are complications,” Dr. Hawkins said. “Morbidity and mortality led to a $54,000 cost increase, and the addition of tricuspid repair also led to about $60,000 higher costs, which is more likely related to higher risk and thus complications. The costs of higher-acuity cases are driven by the complications and not the approach.”
Dr. Hawkins reported no financial relationships. Dr. Ailawadi disclosed consulting agreements with Edwards Lifesciences, Abbott, Medtronic, and AtriCure.
AT THE 2017 MITRAL VALVE CONCLAVE
Key clinical point: Outcomes and costs of minimally invasive mitral surgery are similar to that of conventional sternotomy for mitral valve surgery.
Major finding: Mortality rates of 1.3% and major morbidity rates of 11% were similar in both groups.
Data source: Propensity-matched analysis of 479 patients who had a primary mitral valve operation from January 2010 to June 2016 at the University of Virginia.
Disclosures: Dr. Hawkins reported no financial disclosures. Coauthor Dr. Gorav Ailawadi disclosed consulting agreements with Edwards Lifesciences, Abbott, Medtronic, and AtriCure.
Concomitant MIMV-TVS no worse than MIMV alone
NEW YORK – Concurrent mitral-tricuspid valve surgery has similar outcomes to isolated minimally invasive mitral valve surgery, according to results of a 12-year review reported at the 2017 Mitral Valve Conclave, sponsored by the American Association for Thoracic Surgery.
Indications for minimally invasive tricuspid valve surgery done at the same time of mitral valve surgery have not been well established, in part because the outcomes of such combined procedures have been underreported.
“Despite longer operative times, minimally invasive tricuspid valve surgery (TVS) performed concomitantly with mitral valve surgery has similar outcomes when compared to isolated mitral valve surgery,” said Arman Kilic, MD, of the University of Pennsylvania, Philadelphia. The single-center study he reported on reviewed 1,158 patients who had minimally invasive mitral valve (MIMV) surgery from 2002 to 2014, including 148 who had concomitant MIMV and tricuspid valve surgery (TVS). All operations involved port access minithoracotomy. Propensity-matched analysis involved 119 in each the isolated MIMV surgery group and the MIMV-TVS group.
Dr. Kilic noted that patients who had concomitant TVS were typically higher risk at baseline. “The concomitant group was older, had a higher percentage of female patients, and higher rates of chronic lung disease and cerebrovascular disease as well,” Dr. Kilic said. In comparing the isolated MIMV surgery and MIMV-TVS groups in the unmatched analysis, 9% vs. 14% had chronic lung disease (P = .05), 12% vs. 16% had coronary artery disease (P = .15), 7% vs. 12% had cerebrovascular disease (P = .04), and 93% vs. 90% had elective surgery (P = .18). The majority of tricuspid repairs were for severe tricuspid regurgitation (TR) or moderate TR with a dilated annulus of 40 mm or greater.
The operative characteristics differed significantly between the two groups. “As one might expect, the cardiopulmonary bypass time and aortic occlusion times were longer in the concomitant group; and balloon aortic occlusion was used in more than 70% in each cohort,” Dr. Kilic said. Those differences were similar in the propensity-matched cohort: bypass times were 147.5 minutes for isolated MIMV surgery and 174.6 minutes for MIMV-TVS (P less than .001); and aortic occlusion time 104.8 vs. 128 minutes (P less than .001), respectively.
Operative mortality was 3% for isolated MIMV surgery and 4% for concurrent MIMV-TVS (P = .73), but the isolated MIMV surgery group required fewer permanent pacemakers, 1% vs. 6% (P = .03).
“Aside from permanent pacemaker implantation, the rates of every other complication were similar, including stoke, limb ischemia, atrial fibrillation, gastrointestinal complications, respiratory complications, blood product transfusions as well as discharge to home rates,” Dr. Kilic said. Median hospital length of stays were also similar: 7 days for isolated MIMV surgery vs. 8 days for MIMV-TVS (P = .13).
One limitation of the study Dr. Kilic pointed out was that the decision to perform concomitant MIMV-TVS was surgeon dependent.
Dr. Kilic reported having no financial disclosures.
NEW YORK – Concurrent mitral-tricuspid valve surgery has similar outcomes to isolated minimally invasive mitral valve surgery, according to results of a 12-year review reported at the 2017 Mitral Valve Conclave, sponsored by the American Association for Thoracic Surgery.
Indications for minimally invasive tricuspid valve surgery done at the same time of mitral valve surgery have not been well established, in part because the outcomes of such combined procedures have been underreported.
“Despite longer operative times, minimally invasive tricuspid valve surgery (TVS) performed concomitantly with mitral valve surgery has similar outcomes when compared to isolated mitral valve surgery,” said Arman Kilic, MD, of the University of Pennsylvania, Philadelphia. The single-center study he reported on reviewed 1,158 patients who had minimally invasive mitral valve (MIMV) surgery from 2002 to 2014, including 148 who had concomitant MIMV and tricuspid valve surgery (TVS). All operations involved port access minithoracotomy. Propensity-matched analysis involved 119 in each the isolated MIMV surgery group and the MIMV-TVS group.
Dr. Kilic noted that patients who had concomitant TVS were typically higher risk at baseline. “The concomitant group was older, had a higher percentage of female patients, and higher rates of chronic lung disease and cerebrovascular disease as well,” Dr. Kilic said. In comparing the isolated MIMV surgery and MIMV-TVS groups in the unmatched analysis, 9% vs. 14% had chronic lung disease (P = .05), 12% vs. 16% had coronary artery disease (P = .15), 7% vs. 12% had cerebrovascular disease (P = .04), and 93% vs. 90% had elective surgery (P = .18). The majority of tricuspid repairs were for severe tricuspid regurgitation (TR) or moderate TR with a dilated annulus of 40 mm or greater.
The operative characteristics differed significantly between the two groups. “As one might expect, the cardiopulmonary bypass time and aortic occlusion times were longer in the concomitant group; and balloon aortic occlusion was used in more than 70% in each cohort,” Dr. Kilic said. Those differences were similar in the propensity-matched cohort: bypass times were 147.5 minutes for isolated MIMV surgery and 174.6 minutes for MIMV-TVS (P less than .001); and aortic occlusion time 104.8 vs. 128 minutes (P less than .001), respectively.
Operative mortality was 3% for isolated MIMV surgery and 4% for concurrent MIMV-TVS (P = .73), but the isolated MIMV surgery group required fewer permanent pacemakers, 1% vs. 6% (P = .03).
“Aside from permanent pacemaker implantation, the rates of every other complication were similar, including stoke, limb ischemia, atrial fibrillation, gastrointestinal complications, respiratory complications, blood product transfusions as well as discharge to home rates,” Dr. Kilic said. Median hospital length of stays were also similar: 7 days for isolated MIMV surgery vs. 8 days for MIMV-TVS (P = .13).
One limitation of the study Dr. Kilic pointed out was that the decision to perform concomitant MIMV-TVS was surgeon dependent.
Dr. Kilic reported having no financial disclosures.
NEW YORK – Concurrent mitral-tricuspid valve surgery has similar outcomes to isolated minimally invasive mitral valve surgery, according to results of a 12-year review reported at the 2017 Mitral Valve Conclave, sponsored by the American Association for Thoracic Surgery.
Indications for minimally invasive tricuspid valve surgery done at the same time of mitral valve surgery have not been well established, in part because the outcomes of such combined procedures have been underreported.
“Despite longer operative times, minimally invasive tricuspid valve surgery (TVS) performed concomitantly with mitral valve surgery has similar outcomes when compared to isolated mitral valve surgery,” said Arman Kilic, MD, of the University of Pennsylvania, Philadelphia. The single-center study he reported on reviewed 1,158 patients who had minimally invasive mitral valve (MIMV) surgery from 2002 to 2014, including 148 who had concomitant MIMV and tricuspid valve surgery (TVS). All operations involved port access minithoracotomy. Propensity-matched analysis involved 119 in each the isolated MIMV surgery group and the MIMV-TVS group.
Dr. Kilic noted that patients who had concomitant TVS were typically higher risk at baseline. “The concomitant group was older, had a higher percentage of female patients, and higher rates of chronic lung disease and cerebrovascular disease as well,” Dr. Kilic said. In comparing the isolated MIMV surgery and MIMV-TVS groups in the unmatched analysis, 9% vs. 14% had chronic lung disease (P = .05), 12% vs. 16% had coronary artery disease (P = .15), 7% vs. 12% had cerebrovascular disease (P = .04), and 93% vs. 90% had elective surgery (P = .18). The majority of tricuspid repairs were for severe tricuspid regurgitation (TR) or moderate TR with a dilated annulus of 40 mm or greater.
The operative characteristics differed significantly between the two groups. “As one might expect, the cardiopulmonary bypass time and aortic occlusion times were longer in the concomitant group; and balloon aortic occlusion was used in more than 70% in each cohort,” Dr. Kilic said. Those differences were similar in the propensity-matched cohort: bypass times were 147.5 minutes for isolated MIMV surgery and 174.6 minutes for MIMV-TVS (P less than .001); and aortic occlusion time 104.8 vs. 128 minutes (P less than .001), respectively.
Operative mortality was 3% for isolated MIMV surgery and 4% for concurrent MIMV-TVS (P = .73), but the isolated MIMV surgery group required fewer permanent pacemakers, 1% vs. 6% (P = .03).
“Aside from permanent pacemaker implantation, the rates of every other complication were similar, including stoke, limb ischemia, atrial fibrillation, gastrointestinal complications, respiratory complications, blood product transfusions as well as discharge to home rates,” Dr. Kilic said. Median hospital length of stays were also similar: 7 days for isolated MIMV surgery vs. 8 days for MIMV-TVS (P = .13).
One limitation of the study Dr. Kilic pointed out was that the decision to perform concomitant MIMV-TVS was surgeon dependent.
Dr. Kilic reported having no financial disclosures.
AT THE 2017 MITRAL VALVE CONCLAVE
Key clinical point: Outcomes of isolated minimally invasive mitral valve surgery (MIMV) and MIMV with concomitant tricuspid valve surgery (TVS) are similar.
Major finding: Operative mortality was 3% for isolated MIMV and 4% for concurrent MIMV-TVS.
Data source: Single-center review of 1,158 patients who underwent either isolated MIMV or MIMV-TVS from 2002 to 2014, including a propensity-matched cohort.
Disclosures: Dr. Kilic reported having no financial disclosures.
MV disease in children requires modified strategies
NEW YORK – Repairing mitral valves in pediatric patients must overcome two issues: the wide variability in their anatomy and their growth. Using strategies and techniques common in adult mitral surgery can accomplish good mitral valve function in children, but some techniques in children differ, like using combined resorbable material with autologous tissue or transferring native chords instead of placing artificial chords to a malfunctioning leaflet.
Pedro del Nido, MD, of Boston Children’s Hospital, said the spectrum of mitral valve pathology in children goes from congenital mitral stenosis with a thick annulus with leaflet immobility to leaflet hypermobility that involves anterior leaflet prolapse and can involve a cleft that causes regurgitation. Dr. del Nido explained his surgical approaches for mitral valve disease in children at the 2017 Mitral Conclave, sponsored by the American Association of Thoracic Surgery.
“You have to consider mitral valve disease in kids from the top to the bottom,” Dr. del Nido said. “So think about it from the annulus where there’s a supra-annular ring of tissue that’s restricting the mobility of the leaflets, as well as clefts and holes. The more common pathology that we see with stenosis is subvalvar pathology – fusion of the leaflets, fusion of the leaflet tips of the papillaries to absence of chords.”
Accessing the mitral valve in children requires a different approach than in adults, Dr. del Nido said. “Going through the left atrium is generally difficult, so we often enter through a trans-septal incision,” he said. “The main reason for that is because the tricuspid valve is often associated with the mitral valve problem and this gives us the most direct exposure.”
Once the surgeon gains exposure, the surgical analysis for a diseased adult or child valve is almost identical, with the exception that adult disease is acquired whereas childhood disease tends to be congenital, Dr. del Nido said. “In the congenital patient, we often find fibroelastic tissue that the child is born with,” he said. “We see this in neonates and young infants. It thickens over time; it doesn’t often calcify, but it does often restrict the leaflets and it tends to fuse the chords, so in essence you have direct attachments of the leaflets to the papillaries.”
He explained that this pathology requires an approach similar to that for rheumatic mitral disease in adults. “Start splitting the commissures and start resecting the tissue off the chords creating fenestrations in order to improve the inflow.” Dr. del Nido added, “If you don’t do this, the child will always have a gradient, and if you think about an adult having problems and symptoms with a gradient, think about a 10-year-old running around trying to do athletics; it’s impossible.”
Dysfunctional chords also require a somewhat different approach in children than they require in adults. “We find elongation of the chords and the anterior support structure is abnormal; the secondary chords are totally intact,” Dr. del Nido said. When confronting a torn-edge chord, resection is often an option in adults, but is uncommon in children. “We don’t usually have very much leaflet tissue,” he said. Artificial chords do not accommodate growth.
“We tend to use native tissue,” said Dr. del Nido. “You can transfer the strut chord; you can transfer the secondary chord in order to achieve support for the edge of that prolapsed leaflet.”
Leaflet problems are probably the biggest single source of recurrence in children, Dr. del Nido said. A cleft on the anterior leaflet can be particularly vexing. For example, cleft edges attached to the septum can prevent the valve leaflet from coaptation with the posterior leaflet. “If you don’t recognize that on 3-D echocardiography, you’re going to have a problem; that leaflet will never create the coaptation surface that you want,” he said.
The solution may lie underneath the leaflet. Said Dr. del Nido, “We tend to want to close a cleft, and, yes, that will get you relief of regurgitation in the central portion, but if you end up with immobility of that leaflet, then look underneath. Most often there are very abnormal attachments to the edges of that cleft to the septum. You have to get rid of that; if you don’t resect all that, you’ll never have a leaflet that truly floats up to coapt against the posterior leaflet.”
Annular dilation in children can also challenge a cardiothoracic surgeon’s skill.
In rare cases, a suture commissuroplasty may correct the problem. Sometimes Dr. del Nido will use the DeVega suture annuloplasty – “even though it is very much user dependent; it’s very easy in pediatrics to create stenosis with the DeVega.” As an alternative, synthetic ring annuloplasties can confine valve growth and are rarely used.
Dr. del Nido’s preference is to use a hybrid approach of tissue and resorbable material. “The advantage of the resorbable material is that it will go away, but that’s also the problem with the resorbable material,” he said. “Once it does go away, there’s nothing there to support the annulus, so a combination of tissue and resorbable suture is probably the best answer.”
In posterior leaflet deficiency, a patch of pericardium posteriorly can augment the dysfunctional leaflet. You can also use pericardium as an annuloplasty ring. “You can use it circumferentially,” Dr. del Nido said. “It’s a soft ring; you can certainly use this material which is autologous; it does provide strength to the fibrous annulus; it does support that valve; and you do see growth.” He added that bovine pericardium is not ideal for this use.
Dr. del Nido reported no relevant financial relationships.
NEW YORK – Repairing mitral valves in pediatric patients must overcome two issues: the wide variability in their anatomy and their growth. Using strategies and techniques common in adult mitral surgery can accomplish good mitral valve function in children, but some techniques in children differ, like using combined resorbable material with autologous tissue or transferring native chords instead of placing artificial chords to a malfunctioning leaflet.
Pedro del Nido, MD, of Boston Children’s Hospital, said the spectrum of mitral valve pathology in children goes from congenital mitral stenosis with a thick annulus with leaflet immobility to leaflet hypermobility that involves anterior leaflet prolapse and can involve a cleft that causes regurgitation. Dr. del Nido explained his surgical approaches for mitral valve disease in children at the 2017 Mitral Conclave, sponsored by the American Association of Thoracic Surgery.
“You have to consider mitral valve disease in kids from the top to the bottom,” Dr. del Nido said. “So think about it from the annulus where there’s a supra-annular ring of tissue that’s restricting the mobility of the leaflets, as well as clefts and holes. The more common pathology that we see with stenosis is subvalvar pathology – fusion of the leaflets, fusion of the leaflet tips of the papillaries to absence of chords.”
Accessing the mitral valve in children requires a different approach than in adults, Dr. del Nido said. “Going through the left atrium is generally difficult, so we often enter through a trans-septal incision,” he said. “The main reason for that is because the tricuspid valve is often associated with the mitral valve problem and this gives us the most direct exposure.”
Once the surgeon gains exposure, the surgical analysis for a diseased adult or child valve is almost identical, with the exception that adult disease is acquired whereas childhood disease tends to be congenital, Dr. del Nido said. “In the congenital patient, we often find fibroelastic tissue that the child is born with,” he said. “We see this in neonates and young infants. It thickens over time; it doesn’t often calcify, but it does often restrict the leaflets and it tends to fuse the chords, so in essence you have direct attachments of the leaflets to the papillaries.”
He explained that this pathology requires an approach similar to that for rheumatic mitral disease in adults. “Start splitting the commissures and start resecting the tissue off the chords creating fenestrations in order to improve the inflow.” Dr. del Nido added, “If you don’t do this, the child will always have a gradient, and if you think about an adult having problems and symptoms with a gradient, think about a 10-year-old running around trying to do athletics; it’s impossible.”
Dysfunctional chords also require a somewhat different approach in children than they require in adults. “We find elongation of the chords and the anterior support structure is abnormal; the secondary chords are totally intact,” Dr. del Nido said. When confronting a torn-edge chord, resection is often an option in adults, but is uncommon in children. “We don’t usually have very much leaflet tissue,” he said. Artificial chords do not accommodate growth.
“We tend to use native tissue,” said Dr. del Nido. “You can transfer the strut chord; you can transfer the secondary chord in order to achieve support for the edge of that prolapsed leaflet.”
Leaflet problems are probably the biggest single source of recurrence in children, Dr. del Nido said. A cleft on the anterior leaflet can be particularly vexing. For example, cleft edges attached to the septum can prevent the valve leaflet from coaptation with the posterior leaflet. “If you don’t recognize that on 3-D echocardiography, you’re going to have a problem; that leaflet will never create the coaptation surface that you want,” he said.
The solution may lie underneath the leaflet. Said Dr. del Nido, “We tend to want to close a cleft, and, yes, that will get you relief of regurgitation in the central portion, but if you end up with immobility of that leaflet, then look underneath. Most often there are very abnormal attachments to the edges of that cleft to the septum. You have to get rid of that; if you don’t resect all that, you’ll never have a leaflet that truly floats up to coapt against the posterior leaflet.”
Annular dilation in children can also challenge a cardiothoracic surgeon’s skill.
In rare cases, a suture commissuroplasty may correct the problem. Sometimes Dr. del Nido will use the DeVega suture annuloplasty – “even though it is very much user dependent; it’s very easy in pediatrics to create stenosis with the DeVega.” As an alternative, synthetic ring annuloplasties can confine valve growth and are rarely used.
Dr. del Nido’s preference is to use a hybrid approach of tissue and resorbable material. “The advantage of the resorbable material is that it will go away, but that’s also the problem with the resorbable material,” he said. “Once it does go away, there’s nothing there to support the annulus, so a combination of tissue and resorbable suture is probably the best answer.”
In posterior leaflet deficiency, a patch of pericardium posteriorly can augment the dysfunctional leaflet. You can also use pericardium as an annuloplasty ring. “You can use it circumferentially,” Dr. del Nido said. “It’s a soft ring; you can certainly use this material which is autologous; it does provide strength to the fibrous annulus; it does support that valve; and you do see growth.” He added that bovine pericardium is not ideal for this use.
Dr. del Nido reported no relevant financial relationships.
NEW YORK – Repairing mitral valves in pediatric patients must overcome two issues: the wide variability in their anatomy and their growth. Using strategies and techniques common in adult mitral surgery can accomplish good mitral valve function in children, but some techniques in children differ, like using combined resorbable material with autologous tissue or transferring native chords instead of placing artificial chords to a malfunctioning leaflet.
Pedro del Nido, MD, of Boston Children’s Hospital, said the spectrum of mitral valve pathology in children goes from congenital mitral stenosis with a thick annulus with leaflet immobility to leaflet hypermobility that involves anterior leaflet prolapse and can involve a cleft that causes regurgitation. Dr. del Nido explained his surgical approaches for mitral valve disease in children at the 2017 Mitral Conclave, sponsored by the American Association of Thoracic Surgery.
“You have to consider mitral valve disease in kids from the top to the bottom,” Dr. del Nido said. “So think about it from the annulus where there’s a supra-annular ring of tissue that’s restricting the mobility of the leaflets, as well as clefts and holes. The more common pathology that we see with stenosis is subvalvar pathology – fusion of the leaflets, fusion of the leaflet tips of the papillaries to absence of chords.”
Accessing the mitral valve in children requires a different approach than in adults, Dr. del Nido said. “Going through the left atrium is generally difficult, so we often enter through a trans-septal incision,” he said. “The main reason for that is because the tricuspid valve is often associated with the mitral valve problem and this gives us the most direct exposure.”
Once the surgeon gains exposure, the surgical analysis for a diseased adult or child valve is almost identical, with the exception that adult disease is acquired whereas childhood disease tends to be congenital, Dr. del Nido said. “In the congenital patient, we often find fibroelastic tissue that the child is born with,” he said. “We see this in neonates and young infants. It thickens over time; it doesn’t often calcify, but it does often restrict the leaflets and it tends to fuse the chords, so in essence you have direct attachments of the leaflets to the papillaries.”
He explained that this pathology requires an approach similar to that for rheumatic mitral disease in adults. “Start splitting the commissures and start resecting the tissue off the chords creating fenestrations in order to improve the inflow.” Dr. del Nido added, “If you don’t do this, the child will always have a gradient, and if you think about an adult having problems and symptoms with a gradient, think about a 10-year-old running around trying to do athletics; it’s impossible.”
Dysfunctional chords also require a somewhat different approach in children than they require in adults. “We find elongation of the chords and the anterior support structure is abnormal; the secondary chords are totally intact,” Dr. del Nido said. When confronting a torn-edge chord, resection is often an option in adults, but is uncommon in children. “We don’t usually have very much leaflet tissue,” he said. Artificial chords do not accommodate growth.
“We tend to use native tissue,” said Dr. del Nido. “You can transfer the strut chord; you can transfer the secondary chord in order to achieve support for the edge of that prolapsed leaflet.”
Leaflet problems are probably the biggest single source of recurrence in children, Dr. del Nido said. A cleft on the anterior leaflet can be particularly vexing. For example, cleft edges attached to the septum can prevent the valve leaflet from coaptation with the posterior leaflet. “If you don’t recognize that on 3-D echocardiography, you’re going to have a problem; that leaflet will never create the coaptation surface that you want,” he said.
The solution may lie underneath the leaflet. Said Dr. del Nido, “We tend to want to close a cleft, and, yes, that will get you relief of regurgitation in the central portion, but if you end up with immobility of that leaflet, then look underneath. Most often there are very abnormal attachments to the edges of that cleft to the septum. You have to get rid of that; if you don’t resect all that, you’ll never have a leaflet that truly floats up to coapt against the posterior leaflet.”
Annular dilation in children can also challenge a cardiothoracic surgeon’s skill.
In rare cases, a suture commissuroplasty may correct the problem. Sometimes Dr. del Nido will use the DeVega suture annuloplasty – “even though it is very much user dependent; it’s very easy in pediatrics to create stenosis with the DeVega.” As an alternative, synthetic ring annuloplasties can confine valve growth and are rarely used.
Dr. del Nido’s preference is to use a hybrid approach of tissue and resorbable material. “The advantage of the resorbable material is that it will go away, but that’s also the problem with the resorbable material,” he said. “Once it does go away, there’s nothing there to support the annulus, so a combination of tissue and resorbable suture is probably the best answer.”
In posterior leaflet deficiency, a patch of pericardium posteriorly can augment the dysfunctional leaflet. You can also use pericardium as an annuloplasty ring. “You can use it circumferentially,” Dr. del Nido said. “It’s a soft ring; you can certainly use this material which is autologous; it does provide strength to the fibrous annulus; it does support that valve; and you do see growth.” He added that bovine pericardium is not ideal for this use.
Dr. del Nido reported no relevant financial relationships.
AT THE 2017 MITRAL VALVE CONCLAVE
Key clinical point: Operating on mitral valves in pediatric patients must overcome the wide variability in anatomy among young patients and accommodate growth.
Major finding: Strategies that involve a combination of resorbable material with autologous tissue can accomplish repair in most of these patients.
Data source: Review based on Dr. del Nido’s experience.
Disclosures: Dr. del Nido reported having no relevant financial disclosures.
Points/Counterpoint: Should surgeons operate on functional tricuspid regurgitation?
Yes, functional TR is worth repairing (David H. Adams, MD)
Functional tricuspid regurgitation is a common finding in patients undergoing degenerative mitral valve repair. Severe tricuspid regurgitation is unusual, and clearly there is little debate on the merits of concomitant tricuspid repair for these patients. Moderate tricuspid regurgitation is identified preoperatively in around 15% of patients undergoing degenerative mitral repair (J Thorac Cardiovasc Surg. 2011;142:608-13), and concomitant tricuspid repair in these patients is certainly supported by both the American and European guidelines (J Am Coll Cardiol. 2017. doi: 10.1016/j.jacc.2017.03.011; Eur Heart J. 2012;33:2451-96).
What experience and evidence has led us to a more aggressive approach? One of the most important influences on our early adoption of tricuspid repair at the time of mitral surgery was linked to observations that tricuspid regurgitation (TR) sometimes progressed after isolated mitral valve repair (MVR), with some patients developing moderate or worse insufficiency. Certainly, the impact of significant tricuspid regurgitation on the quality and length of patients’ lives and the challenges of reoperation for isolated tricuspid regurgitation are well known to all surgeons.
However, the first objective data supporting a more aggressive approach to abnormal tricuspid valve function was provided by Gilles Dreyfus, MD, and his team at Harefield Hospital in London, who reported significantly better symptomatic and echocardiographic outcomes after concomitant tricuspid repair for tricuspid annular dilatation (irrespective of the degree of tricuspid regurgitation), compared with patients who did not undergo tricuspid repair (Ann Thorac Surg. 1990;49:706-11).
Consequently, the importance of treating significant annular dilatation, even without significant tricuspid regurgitation, is supported by the guidelines. Our own experience with an aggressive approach to functional tricuspid regurgitation (FTR) at the time of mitral surgery put an exclamation point on this (J Am Coll Cardiol. 2015;65:1931-8). We found that concomitant tricuspid repair in patients who were worse off before surgery with more TR and higher rates of atrial fibrillation and right-sided dysfunction, actually did better during 5 years of follow-up than the isolated mitral repair patients who started with completely normal tricuspid valve anatomy and ventricular function.
Benign neglect is always an option (J Thorac Cardiovasc Surg. 2017;154:125-6), but we agree with Roberto Dion, MD – despite our friends’ opinions in Toronto and Rochester – we would much prefer to have minimal TR and a normal sized tricuspid valve after MVR. Ask yourself: would you rather have no TR and a normal sized tricuspid valve after you undergo a mitral operation, or a very dilated annulus and perhaps moderate FTR? I am pretty sure I know the answer, but if you are not sure, read our paper.
Dr. Adams is cardiac surgeon-in-chief, Mount Sinai Health System, and Marie-Josée and Henry R. Kravis Professor and Chairman, department of cardiovascular surgery, Icahn School of Medicine at Mount Sinai and The Mount Sinai Hospital, and president-elect of the American Association for Thoracic Surgery. He disclosed he is the national co-principal investigator for the Medtronic NeoChord trial, and receives royalties from Medtronic and Edwards Lifesciences. The Icahn School of Medicine at Mount Sinai receives royalty payments from Edwards Lifesciences and Medtronic for intellectual property related to Dr. Adams’ involvement in the development of 2 mitral valve repair rings and 1 tricuspid valve repair ring.
No, a patient with FTR does not necessarily need repair (Tirone David, MD)
In our clinic, a patient who undergoes MVR and has FTR generally goes home without an annuloplasty. We now have 12 years or more of follow-up in these patients, and they do not develop TR if their MVR is competent. We have reported that preoperative TR in patients who had MVR is associated with mitral valve disease and often improves after the operation (J Thorac Cardiovasc Surg. 2017;154:110-22). New postoperative TR is uncommon.
Ninety percent of my mitral valve repair patients today have no symptoms. Of those patients, a small proportion have moderate TR.
Predicting severe FTR is difficult in these patients. For reasons that we don’t know, when you perform mitral valve repair in a patient with ejection fraction less than 40%, ultimately the tricuspid valve begins to leak 10 or 15 years later. Longstanding atrial fibrillation also causes TR. The data published to date on tricuspid annuloplasty show that at 10 years, 30% had recurrent TR regardless of whether or not they’ve had mitral valve repair (Circulation. 2006;114(suppl);I577-81).
Dr. David is a professor of surgery at Toronto General Hospital. He reported no financial relationships.
Yes, but repair of FTR requires caution (Gilles Dreyfus, MD)
The controversy surrounding the legitimacy of concomitant tricuspid annuloplasty for functional TR during MVR begs for a clinical trial, but before we can conduct a clinical trial, we must define the primary and secondary endpoints. We’ve seen recent prospective, randomized trials that have reported faulty conclusions because the primary endpoints were wrong.
We need a strong debate to agree on those endpoints. Mortality as an endpoint will probably take a very long time to arrive at.
We’re mixing up many different factors. We’re mixing up TR grading, and we know that grading is unreliable. We have all seen patients with full-fledged TR, and after we put them on Lasix (furosemide, Sanofi), 3 days later they have mild TR. So the same patient with no treatment becomes let’s say a “Dreyfus indication,” and then suddenly in 3 days the patient doesn’t need surgery. At any further stage of his life this patient can experience severe TR again; tricuspid annuloplasty will prevent that from happening.
It is a big mistake to rely only on grading to determine the need for surgery to treat FTR. We are superimposing the assessment of the right ventricle (RV) to the left one, but that is mixing apples and pears. The left ventricle (LV) is working against resistances and its volume does not change; the RV supplies only the pulmonary system and is volume-dependent. You can double the size of the RV without changing its function whatsoever, and that’s when TR may appear if all the features are present: annular dilatation and RV dilatation. Any changes in preload such as severe renal failure, as well as any changes in afterload such as moderate LV impairment or mild/moderate MR after MVR, may modify RV size and TR grading.
Moderate TR according to the common definition does not exist. If you look at the reports in echocardiography and if you ask any cardiologist, everything between no TR and severe TR is considered moderate. We have proposed a new staging system for evaluating FTR that uses three factors: TR severity; annular dilatation; and extent of tethering, or mode of leaflet coaptation (J Am Coll Cardiol. 2015;65:2331-6).
Dr. Dreyfus is director of the medical and surgical team at the Cardiothoracic Centre of Monaco in Monte Carlo and professor of cardiothoracic surgery at Paris V University and the Imperial College of London. He disclosed receiving speaker fees from Edwards Lifesciences, LivaNova, and Medtronic.
No, few FTR patients at risk after MVR (Hartzell Schaff, MD)
Echocardiography can provide a great deal of information about when concomitant repair for TR is indicated during MVR. We’ve found that if the patient has no right-sided signs, has normal right atrial pressure, and has mild or mild/moderate TR at the time of repair to the journey mitral valve, the chance of him returning for a tricuspid valve procedure is near zero.
A few patients do return after MVR. They develop atrial fibrillation and may need a pacemaker, but we see very few patients return for tricuspid surgery.
There is a hierarchy of valves: the tricuspid valve; the pulmonary; the aortic valve; and the mitral valve. You can do without the pulmonary valve and live. In fact you can do without a tricuspid valve and live; there was a surgeon that used to do tricuspid valvectomies for endocarditis. You don’t live well; you’ll eventually have to have the tricuspid valve replaced. But you cannot live without a mitral valve and you cannot live without an aortic valve.
It’s fair to say we cannot demonstrate any benefit of correcting functional mitral regurgitation. Why would we think there’s a benefit of correcting FTR? We can say we’re going to look at grade of TR down the road, or we could look at some other endpoint, but think about it this way: If we cannot prove that correcting functional mitral regurgitation is helpful, why is correcting FTR going to help?
Dr. Schaff is a cardiothoracic surgeon at Mayo Clinic Foundation, Rochester, Minn. He reported no financial relationships.
Yes, functional TR is worth repairing (David H. Adams, MD)
Functional tricuspid regurgitation is a common finding in patients undergoing degenerative mitral valve repair. Severe tricuspid regurgitation is unusual, and clearly there is little debate on the merits of concomitant tricuspid repair for these patients. Moderate tricuspid regurgitation is identified preoperatively in around 15% of patients undergoing degenerative mitral repair (J Thorac Cardiovasc Surg. 2011;142:608-13), and concomitant tricuspid repair in these patients is certainly supported by both the American and European guidelines (J Am Coll Cardiol. 2017. doi: 10.1016/j.jacc.2017.03.011; Eur Heart J. 2012;33:2451-96).
What experience and evidence has led us to a more aggressive approach? One of the most important influences on our early adoption of tricuspid repair at the time of mitral surgery was linked to observations that tricuspid regurgitation (TR) sometimes progressed after isolated mitral valve repair (MVR), with some patients developing moderate or worse insufficiency. Certainly, the impact of significant tricuspid regurgitation on the quality and length of patients’ lives and the challenges of reoperation for isolated tricuspid regurgitation are well known to all surgeons.
However, the first objective data supporting a more aggressive approach to abnormal tricuspid valve function was provided by Gilles Dreyfus, MD, and his team at Harefield Hospital in London, who reported significantly better symptomatic and echocardiographic outcomes after concomitant tricuspid repair for tricuspid annular dilatation (irrespective of the degree of tricuspid regurgitation), compared with patients who did not undergo tricuspid repair (Ann Thorac Surg. 1990;49:706-11).
Consequently, the importance of treating significant annular dilatation, even without significant tricuspid regurgitation, is supported by the guidelines. Our own experience with an aggressive approach to functional tricuspid regurgitation (FTR) at the time of mitral surgery put an exclamation point on this (J Am Coll Cardiol. 2015;65:1931-8). We found that concomitant tricuspid repair in patients who were worse off before surgery with more TR and higher rates of atrial fibrillation and right-sided dysfunction, actually did better during 5 years of follow-up than the isolated mitral repair patients who started with completely normal tricuspid valve anatomy and ventricular function.
Benign neglect is always an option (J Thorac Cardiovasc Surg. 2017;154:125-6), but we agree with Roberto Dion, MD – despite our friends’ opinions in Toronto and Rochester – we would much prefer to have minimal TR and a normal sized tricuspid valve after MVR. Ask yourself: would you rather have no TR and a normal sized tricuspid valve after you undergo a mitral operation, or a very dilated annulus and perhaps moderate FTR? I am pretty sure I know the answer, but if you are not sure, read our paper.
Dr. Adams is cardiac surgeon-in-chief, Mount Sinai Health System, and Marie-Josée and Henry R. Kravis Professor and Chairman, department of cardiovascular surgery, Icahn School of Medicine at Mount Sinai and The Mount Sinai Hospital, and president-elect of the American Association for Thoracic Surgery. He disclosed he is the national co-principal investigator for the Medtronic NeoChord trial, and receives royalties from Medtronic and Edwards Lifesciences. The Icahn School of Medicine at Mount Sinai receives royalty payments from Edwards Lifesciences and Medtronic for intellectual property related to Dr. Adams’ involvement in the development of 2 mitral valve repair rings and 1 tricuspid valve repair ring.
No, a patient with FTR does not necessarily need repair (Tirone David, MD)
In our clinic, a patient who undergoes MVR and has FTR generally goes home without an annuloplasty. We now have 12 years or more of follow-up in these patients, and they do not develop TR if their MVR is competent. We have reported that preoperative TR in patients who had MVR is associated with mitral valve disease and often improves after the operation (J Thorac Cardiovasc Surg. 2017;154:110-22). New postoperative TR is uncommon.
Ninety percent of my mitral valve repair patients today have no symptoms. Of those patients, a small proportion have moderate TR.
Predicting severe FTR is difficult in these patients. For reasons that we don’t know, when you perform mitral valve repair in a patient with ejection fraction less than 40%, ultimately the tricuspid valve begins to leak 10 or 15 years later. Longstanding atrial fibrillation also causes TR. The data published to date on tricuspid annuloplasty show that at 10 years, 30% had recurrent TR regardless of whether or not they’ve had mitral valve repair (Circulation. 2006;114(suppl);I577-81).
Dr. David is a professor of surgery at Toronto General Hospital. He reported no financial relationships.
Yes, but repair of FTR requires caution (Gilles Dreyfus, MD)
The controversy surrounding the legitimacy of concomitant tricuspid annuloplasty for functional TR during MVR begs for a clinical trial, but before we can conduct a clinical trial, we must define the primary and secondary endpoints. We’ve seen recent prospective, randomized trials that have reported faulty conclusions because the primary endpoints were wrong.
We need a strong debate to agree on those endpoints. Mortality as an endpoint will probably take a very long time to arrive at.
We’re mixing up many different factors. We’re mixing up TR grading, and we know that grading is unreliable. We have all seen patients with full-fledged TR, and after we put them on Lasix (furosemide, Sanofi), 3 days later they have mild TR. So the same patient with no treatment becomes let’s say a “Dreyfus indication,” and then suddenly in 3 days the patient doesn’t need surgery. At any further stage of his life this patient can experience severe TR again; tricuspid annuloplasty will prevent that from happening.
It is a big mistake to rely only on grading to determine the need for surgery to treat FTR. We are superimposing the assessment of the right ventricle (RV) to the left one, but that is mixing apples and pears. The left ventricle (LV) is working against resistances and its volume does not change; the RV supplies only the pulmonary system and is volume-dependent. You can double the size of the RV without changing its function whatsoever, and that’s when TR may appear if all the features are present: annular dilatation and RV dilatation. Any changes in preload such as severe renal failure, as well as any changes in afterload such as moderate LV impairment or mild/moderate MR after MVR, may modify RV size and TR grading.
Moderate TR according to the common definition does not exist. If you look at the reports in echocardiography and if you ask any cardiologist, everything between no TR and severe TR is considered moderate. We have proposed a new staging system for evaluating FTR that uses three factors: TR severity; annular dilatation; and extent of tethering, or mode of leaflet coaptation (J Am Coll Cardiol. 2015;65:2331-6).
Dr. Dreyfus is director of the medical and surgical team at the Cardiothoracic Centre of Monaco in Monte Carlo and professor of cardiothoracic surgery at Paris V University and the Imperial College of London. He disclosed receiving speaker fees from Edwards Lifesciences, LivaNova, and Medtronic.
No, few FTR patients at risk after MVR (Hartzell Schaff, MD)
Echocardiography can provide a great deal of information about when concomitant repair for TR is indicated during MVR. We’ve found that if the patient has no right-sided signs, has normal right atrial pressure, and has mild or mild/moderate TR at the time of repair to the journey mitral valve, the chance of him returning for a tricuspid valve procedure is near zero.
A few patients do return after MVR. They develop atrial fibrillation and may need a pacemaker, but we see very few patients return for tricuspid surgery.
There is a hierarchy of valves: the tricuspid valve; the pulmonary; the aortic valve; and the mitral valve. You can do without the pulmonary valve and live. In fact you can do without a tricuspid valve and live; there was a surgeon that used to do tricuspid valvectomies for endocarditis. You don’t live well; you’ll eventually have to have the tricuspid valve replaced. But you cannot live without a mitral valve and you cannot live without an aortic valve.
It’s fair to say we cannot demonstrate any benefit of correcting functional mitral regurgitation. Why would we think there’s a benefit of correcting FTR? We can say we’re going to look at grade of TR down the road, or we could look at some other endpoint, but think about it this way: If we cannot prove that correcting functional mitral regurgitation is helpful, why is correcting FTR going to help?
Dr. Schaff is a cardiothoracic surgeon at Mayo Clinic Foundation, Rochester, Minn. He reported no financial relationships.
Yes, functional TR is worth repairing (David H. Adams, MD)
Functional tricuspid regurgitation is a common finding in patients undergoing degenerative mitral valve repair. Severe tricuspid regurgitation is unusual, and clearly there is little debate on the merits of concomitant tricuspid repair for these patients. Moderate tricuspid regurgitation is identified preoperatively in around 15% of patients undergoing degenerative mitral repair (J Thorac Cardiovasc Surg. 2011;142:608-13), and concomitant tricuspid repair in these patients is certainly supported by both the American and European guidelines (J Am Coll Cardiol. 2017. doi: 10.1016/j.jacc.2017.03.011; Eur Heart J. 2012;33:2451-96).
What experience and evidence has led us to a more aggressive approach? One of the most important influences on our early adoption of tricuspid repair at the time of mitral surgery was linked to observations that tricuspid regurgitation (TR) sometimes progressed after isolated mitral valve repair (MVR), with some patients developing moderate or worse insufficiency. Certainly, the impact of significant tricuspid regurgitation on the quality and length of patients’ lives and the challenges of reoperation for isolated tricuspid regurgitation are well known to all surgeons.
However, the first objective data supporting a more aggressive approach to abnormal tricuspid valve function was provided by Gilles Dreyfus, MD, and his team at Harefield Hospital in London, who reported significantly better symptomatic and echocardiographic outcomes after concomitant tricuspid repair for tricuspid annular dilatation (irrespective of the degree of tricuspid regurgitation), compared with patients who did not undergo tricuspid repair (Ann Thorac Surg. 1990;49:706-11).
Consequently, the importance of treating significant annular dilatation, even without significant tricuspid regurgitation, is supported by the guidelines. Our own experience with an aggressive approach to functional tricuspid regurgitation (FTR) at the time of mitral surgery put an exclamation point on this (J Am Coll Cardiol. 2015;65:1931-8). We found that concomitant tricuspid repair in patients who were worse off before surgery with more TR and higher rates of atrial fibrillation and right-sided dysfunction, actually did better during 5 years of follow-up than the isolated mitral repair patients who started with completely normal tricuspid valve anatomy and ventricular function.
Benign neglect is always an option (J Thorac Cardiovasc Surg. 2017;154:125-6), but we agree with Roberto Dion, MD – despite our friends’ opinions in Toronto and Rochester – we would much prefer to have minimal TR and a normal sized tricuspid valve after MVR. Ask yourself: would you rather have no TR and a normal sized tricuspid valve after you undergo a mitral operation, or a very dilated annulus and perhaps moderate FTR? I am pretty sure I know the answer, but if you are not sure, read our paper.
Dr. Adams is cardiac surgeon-in-chief, Mount Sinai Health System, and Marie-Josée and Henry R. Kravis Professor and Chairman, department of cardiovascular surgery, Icahn School of Medicine at Mount Sinai and The Mount Sinai Hospital, and president-elect of the American Association for Thoracic Surgery. He disclosed he is the national co-principal investigator for the Medtronic NeoChord trial, and receives royalties from Medtronic and Edwards Lifesciences. The Icahn School of Medicine at Mount Sinai receives royalty payments from Edwards Lifesciences and Medtronic for intellectual property related to Dr. Adams’ involvement in the development of 2 mitral valve repair rings and 1 tricuspid valve repair ring.
No, a patient with FTR does not necessarily need repair (Tirone David, MD)
In our clinic, a patient who undergoes MVR and has FTR generally goes home without an annuloplasty. We now have 12 years or more of follow-up in these patients, and they do not develop TR if their MVR is competent. We have reported that preoperative TR in patients who had MVR is associated with mitral valve disease and often improves after the operation (J Thorac Cardiovasc Surg. 2017;154:110-22). New postoperative TR is uncommon.
Ninety percent of my mitral valve repair patients today have no symptoms. Of those patients, a small proportion have moderate TR.
Predicting severe FTR is difficult in these patients. For reasons that we don’t know, when you perform mitral valve repair in a patient with ejection fraction less than 40%, ultimately the tricuspid valve begins to leak 10 or 15 years later. Longstanding atrial fibrillation also causes TR. The data published to date on tricuspid annuloplasty show that at 10 years, 30% had recurrent TR regardless of whether or not they’ve had mitral valve repair (Circulation. 2006;114(suppl);I577-81).
Dr. David is a professor of surgery at Toronto General Hospital. He reported no financial relationships.
Yes, but repair of FTR requires caution (Gilles Dreyfus, MD)
The controversy surrounding the legitimacy of concomitant tricuspid annuloplasty for functional TR during MVR begs for a clinical trial, but before we can conduct a clinical trial, we must define the primary and secondary endpoints. We’ve seen recent prospective, randomized trials that have reported faulty conclusions because the primary endpoints were wrong.
We need a strong debate to agree on those endpoints. Mortality as an endpoint will probably take a very long time to arrive at.
We’re mixing up many different factors. We’re mixing up TR grading, and we know that grading is unreliable. We have all seen patients with full-fledged TR, and after we put them on Lasix (furosemide, Sanofi), 3 days later they have mild TR. So the same patient with no treatment becomes let’s say a “Dreyfus indication,” and then suddenly in 3 days the patient doesn’t need surgery. At any further stage of his life this patient can experience severe TR again; tricuspid annuloplasty will prevent that from happening.
It is a big mistake to rely only on grading to determine the need for surgery to treat FTR. We are superimposing the assessment of the right ventricle (RV) to the left one, but that is mixing apples and pears. The left ventricle (LV) is working against resistances and its volume does not change; the RV supplies only the pulmonary system and is volume-dependent. You can double the size of the RV without changing its function whatsoever, and that’s when TR may appear if all the features are present: annular dilatation and RV dilatation. Any changes in preload such as severe renal failure, as well as any changes in afterload such as moderate LV impairment or mild/moderate MR after MVR, may modify RV size and TR grading.
Moderate TR according to the common definition does not exist. If you look at the reports in echocardiography and if you ask any cardiologist, everything between no TR and severe TR is considered moderate. We have proposed a new staging system for evaluating FTR that uses three factors: TR severity; annular dilatation; and extent of tethering, or mode of leaflet coaptation (J Am Coll Cardiol. 2015;65:2331-6).
Dr. Dreyfus is director of the medical and surgical team at the Cardiothoracic Centre of Monaco in Monte Carlo and professor of cardiothoracic surgery at Paris V University and the Imperial College of London. He disclosed receiving speaker fees from Edwards Lifesciences, LivaNova, and Medtronic.
No, few FTR patients at risk after MVR (Hartzell Schaff, MD)
Echocardiography can provide a great deal of information about when concomitant repair for TR is indicated during MVR. We’ve found that if the patient has no right-sided signs, has normal right atrial pressure, and has mild or mild/moderate TR at the time of repair to the journey mitral valve, the chance of him returning for a tricuspid valve procedure is near zero.
A few patients do return after MVR. They develop atrial fibrillation and may need a pacemaker, but we see very few patients return for tricuspid surgery.
There is a hierarchy of valves: the tricuspid valve; the pulmonary; the aortic valve; and the mitral valve. You can do without the pulmonary valve and live. In fact you can do without a tricuspid valve and live; there was a surgeon that used to do tricuspid valvectomies for endocarditis. You don’t live well; you’ll eventually have to have the tricuspid valve replaced. But you cannot live without a mitral valve and you cannot live without an aortic valve.
It’s fair to say we cannot demonstrate any benefit of correcting functional mitral regurgitation. Why would we think there’s a benefit of correcting FTR? We can say we’re going to look at grade of TR down the road, or we could look at some other endpoint, but think about it this way: If we cannot prove that correcting functional mitral regurgitation is helpful, why is correcting FTR going to help?
Dr. Schaff is a cardiothoracic surgeon at Mayo Clinic Foundation, Rochester, Minn. He reported no financial relationships.
AT THE AATS MITRAL CONCLAVE 2017
Age, anticoagulation prime issues in choice of mechanical valves
NEW YORK – While bioprosthetic valves have become the predominant choice for cardiothoracic surgeons performing heart valve replacement, situations exist in which a mechanical valve may be a better choice. Young and middle-aged adults are the ideal candidates for mechanical valves, but achieving long-term success with mechanical valves also depends on a patient’s circumstances, according to an expert panel at the American Association for Thoracic Surgery Mitral Conclave 2017 here.
“I think we should put in more mechanical valves,” said panel chair Thoralf M. Sundt III, MD, of Massachusetts General Hospital, Boston and former AATS president. “I think mechanical valves have gotten a bad rap. If patients have a supportive, stable social structure and they can manage their anticoagulation, I don’t think there’s anything wrong with a mechanical valve. I think the pendulum has swung too far.”
Socioeconomic factors can play a role too, Dr. Sundt said. “It depends a lot on what the risk and practicality of a reoperation are like,” he said. “There are environments where a reoperation just isn’t an economic possibility. If you’re in a country where a family has to sell the farm in order to get the first operation, there’s not going to be a second operation.”
Anelechi C. Anyanwu, MD, of Mount Sinai Health System, New York, acknowledged another patient factor that would enter his calculus for recommending a mechanical mitral valve. “We would consider a mechanical valve in the patient who is compliant [and] well informed and understands well the requirements and implications of long-term anticoagulation,” he said. In another scenario – “the patient who’s had multiple reoperations – we may consider a mechanical valve.” Particularly, the patient who has had a reoperation for a bioprosthetic valve resulting from early degeneration will merit consideration of a mechanical prosthesis, Dr. Anyanwu said.
Michael A. Borger, MD, of Columbia University Medical Center, New York, agreed that the younger patient who has had a series of operations is a good candidate for a mechanical mitral valve. “In addition, the mechanical valve does have some hemodynamic advantages over bioprosthetic valves,” Dr. Borger said. “If a surgeon implants a 25-mm tissue valve with a plan for the patient to undergo a series of valve-in-valve operations in the future, mitral stenosis will definitely become a factor at some point.”
Small children are another population in which mechanical valves may be considered, but the long-term success rate has been discouraging, said Rudiger Lange, MD, of the German Heart Center, Munich.
Pedro J. del Nido, MD, a pediatric cardiac surgeon at Children’s Hospital, Boston, expanded on that point. “We very, very rarely use mechanical valves in young patients,” Dr. del Nido said. “In very young patients, the reoperation rates for mechanical or biological valves are not much different. We still have to reoperate on both sets of patients. But, the reoperation itself for a mechanical valve is more difficult, and there is the need for full anticoagulation.”
Instead, Dr. del Nido has used the bovine Melody valve (Medtronic) in the mitral position for these patients because it accommodates some growth. Typically, the only time Dr. del Nido considers a mechanical valve in these young patients is for an aortic valve replacement.
Another younger patient that may be a good candidate for a mechanical valve is the 25-year-old male with rheumatic mitral stenosis. “I would err on the side of the mechanical valve in this patient if I were to make a choice, but I would present the patient with informed data on the outcomes of both mechanical valve and bioprosthesis,” according to Dr. Anyanwu
However, Dr. Lange would still opt for a biological valve in that 25-year-old. “The patient’s preference is important,” he said. “I would rather put in a biological valve in this patient – maybe put two more transcatheter valves transeptally in the future and do one reoperation.”
For even younger patients, Dr. del Nido bases his valve choice on their activity level. “I have a lot of young teenagers, and my decision is entirely based on what their background is like – what their regular life is like,” he said. “If they have a support structure than can help them manage anticoagulation, absolutely the mechanical valve is probably the best thing.”
However, there are exceptions because the couching of the device can change over time. “Eventually that 12-year-old [or] that 15-year-old is going to decide he can still snowboard or ride a motorcycle, and that’s when he’s going to get into trouble,” Dr. del Nido said. “If a reoperation is not problematic, I would still say it’s a tossup between the mechanical and biological valve. I would still offer the possibility of a bioprosthesis knowing that they’ll be back in 6, 8, or 10 years.”
Bleeding risk is another factor that can influence valve choice, as mechanical valve recipients must stay on anticoagulation. “The bleeding complication rates are very low when patients are younger, in their 40s or 50s, but the bleeding rates increase exponentially with warfarin for patients in their 80s and 90s,” Dr. Borger said. “The older you are, the more difficult it is to manage anticoagulation. In addition, the ability to stop anticoagulants because of bleeding is different for the two types of prostheses. If a patient develops bleeding during anticoagulation for leaflet immobility after a tissue valve-in-valve procedure, the physician can simply stop the warfarin. But, if you have a mechanical mitral valve in place that’s not an option.”
That’s not necessarily a bad problem to have, Dr. Sundt said, quoting Steven Bolling, MD, of the University of Michigan. “If you’re 25 and you’ve had your valve replaced and you’re worried about bleeding at the age of 80, I call that a success.”
Dr. Borger disclosed he is a speaker for and consultant to Edwards Lifesciences, Medtronic, and CryoLife; a speaker for St. Jude; and a recipient of research support from NeoChord. Dr. Lange disclosed he is a consultant and speaker for Medtronic, St. Jude/Abbott, LivaNova and NeoChord and cofounder of HighLife. Dr. Anyanwu, Dr. del Nido, and Dr. Sundt reported no relevant financial relationships.
NEW YORK – While bioprosthetic valves have become the predominant choice for cardiothoracic surgeons performing heart valve replacement, situations exist in which a mechanical valve may be a better choice. Young and middle-aged adults are the ideal candidates for mechanical valves, but achieving long-term success with mechanical valves also depends on a patient’s circumstances, according to an expert panel at the American Association for Thoracic Surgery Mitral Conclave 2017 here.
“I think we should put in more mechanical valves,” said panel chair Thoralf M. Sundt III, MD, of Massachusetts General Hospital, Boston and former AATS president. “I think mechanical valves have gotten a bad rap. If patients have a supportive, stable social structure and they can manage their anticoagulation, I don’t think there’s anything wrong with a mechanical valve. I think the pendulum has swung too far.”
Socioeconomic factors can play a role too, Dr. Sundt said. “It depends a lot on what the risk and practicality of a reoperation are like,” he said. “There are environments where a reoperation just isn’t an economic possibility. If you’re in a country where a family has to sell the farm in order to get the first operation, there’s not going to be a second operation.”
Anelechi C. Anyanwu, MD, of Mount Sinai Health System, New York, acknowledged another patient factor that would enter his calculus for recommending a mechanical mitral valve. “We would consider a mechanical valve in the patient who is compliant [and] well informed and understands well the requirements and implications of long-term anticoagulation,” he said. In another scenario – “the patient who’s had multiple reoperations – we may consider a mechanical valve.” Particularly, the patient who has had a reoperation for a bioprosthetic valve resulting from early degeneration will merit consideration of a mechanical prosthesis, Dr. Anyanwu said.
Michael A. Borger, MD, of Columbia University Medical Center, New York, agreed that the younger patient who has had a series of operations is a good candidate for a mechanical mitral valve. “In addition, the mechanical valve does have some hemodynamic advantages over bioprosthetic valves,” Dr. Borger said. “If a surgeon implants a 25-mm tissue valve with a plan for the patient to undergo a series of valve-in-valve operations in the future, mitral stenosis will definitely become a factor at some point.”
Small children are another population in which mechanical valves may be considered, but the long-term success rate has been discouraging, said Rudiger Lange, MD, of the German Heart Center, Munich.
Pedro J. del Nido, MD, a pediatric cardiac surgeon at Children’s Hospital, Boston, expanded on that point. “We very, very rarely use mechanical valves in young patients,” Dr. del Nido said. “In very young patients, the reoperation rates for mechanical or biological valves are not much different. We still have to reoperate on both sets of patients. But, the reoperation itself for a mechanical valve is more difficult, and there is the need for full anticoagulation.”
Instead, Dr. del Nido has used the bovine Melody valve (Medtronic) in the mitral position for these patients because it accommodates some growth. Typically, the only time Dr. del Nido considers a mechanical valve in these young patients is for an aortic valve replacement.
Another younger patient that may be a good candidate for a mechanical valve is the 25-year-old male with rheumatic mitral stenosis. “I would err on the side of the mechanical valve in this patient if I were to make a choice, but I would present the patient with informed data on the outcomes of both mechanical valve and bioprosthesis,” according to Dr. Anyanwu
However, Dr. Lange would still opt for a biological valve in that 25-year-old. “The patient’s preference is important,” he said. “I would rather put in a biological valve in this patient – maybe put two more transcatheter valves transeptally in the future and do one reoperation.”
For even younger patients, Dr. del Nido bases his valve choice on their activity level. “I have a lot of young teenagers, and my decision is entirely based on what their background is like – what their regular life is like,” he said. “If they have a support structure than can help them manage anticoagulation, absolutely the mechanical valve is probably the best thing.”
However, there are exceptions because the couching of the device can change over time. “Eventually that 12-year-old [or] that 15-year-old is going to decide he can still snowboard or ride a motorcycle, and that’s when he’s going to get into trouble,” Dr. del Nido said. “If a reoperation is not problematic, I would still say it’s a tossup between the mechanical and biological valve. I would still offer the possibility of a bioprosthesis knowing that they’ll be back in 6, 8, or 10 years.”
Bleeding risk is another factor that can influence valve choice, as mechanical valve recipients must stay on anticoagulation. “The bleeding complication rates are very low when patients are younger, in their 40s or 50s, but the bleeding rates increase exponentially with warfarin for patients in their 80s and 90s,” Dr. Borger said. “The older you are, the more difficult it is to manage anticoagulation. In addition, the ability to stop anticoagulants because of bleeding is different for the two types of prostheses. If a patient develops bleeding during anticoagulation for leaflet immobility after a tissue valve-in-valve procedure, the physician can simply stop the warfarin. But, if you have a mechanical mitral valve in place that’s not an option.”
That’s not necessarily a bad problem to have, Dr. Sundt said, quoting Steven Bolling, MD, of the University of Michigan. “If you’re 25 and you’ve had your valve replaced and you’re worried about bleeding at the age of 80, I call that a success.”
Dr. Borger disclosed he is a speaker for and consultant to Edwards Lifesciences, Medtronic, and CryoLife; a speaker for St. Jude; and a recipient of research support from NeoChord. Dr. Lange disclosed he is a consultant and speaker for Medtronic, St. Jude/Abbott, LivaNova and NeoChord and cofounder of HighLife. Dr. Anyanwu, Dr. del Nido, and Dr. Sundt reported no relevant financial relationships.
NEW YORK – While bioprosthetic valves have become the predominant choice for cardiothoracic surgeons performing heart valve replacement, situations exist in which a mechanical valve may be a better choice. Young and middle-aged adults are the ideal candidates for mechanical valves, but achieving long-term success with mechanical valves also depends on a patient’s circumstances, according to an expert panel at the American Association for Thoracic Surgery Mitral Conclave 2017 here.
“I think we should put in more mechanical valves,” said panel chair Thoralf M. Sundt III, MD, of Massachusetts General Hospital, Boston and former AATS president. “I think mechanical valves have gotten a bad rap. If patients have a supportive, stable social structure and they can manage their anticoagulation, I don’t think there’s anything wrong with a mechanical valve. I think the pendulum has swung too far.”
Socioeconomic factors can play a role too, Dr. Sundt said. “It depends a lot on what the risk and practicality of a reoperation are like,” he said. “There are environments where a reoperation just isn’t an economic possibility. If you’re in a country where a family has to sell the farm in order to get the first operation, there’s not going to be a second operation.”
Anelechi C. Anyanwu, MD, of Mount Sinai Health System, New York, acknowledged another patient factor that would enter his calculus for recommending a mechanical mitral valve. “We would consider a mechanical valve in the patient who is compliant [and] well informed and understands well the requirements and implications of long-term anticoagulation,” he said. In another scenario – “the patient who’s had multiple reoperations – we may consider a mechanical valve.” Particularly, the patient who has had a reoperation for a bioprosthetic valve resulting from early degeneration will merit consideration of a mechanical prosthesis, Dr. Anyanwu said.
Michael A. Borger, MD, of Columbia University Medical Center, New York, agreed that the younger patient who has had a series of operations is a good candidate for a mechanical mitral valve. “In addition, the mechanical valve does have some hemodynamic advantages over bioprosthetic valves,” Dr. Borger said. “If a surgeon implants a 25-mm tissue valve with a plan for the patient to undergo a series of valve-in-valve operations in the future, mitral stenosis will definitely become a factor at some point.”
Small children are another population in which mechanical valves may be considered, but the long-term success rate has been discouraging, said Rudiger Lange, MD, of the German Heart Center, Munich.
Pedro J. del Nido, MD, a pediatric cardiac surgeon at Children’s Hospital, Boston, expanded on that point. “We very, very rarely use mechanical valves in young patients,” Dr. del Nido said. “In very young patients, the reoperation rates for mechanical or biological valves are not much different. We still have to reoperate on both sets of patients. But, the reoperation itself for a mechanical valve is more difficult, and there is the need for full anticoagulation.”
Instead, Dr. del Nido has used the bovine Melody valve (Medtronic) in the mitral position for these patients because it accommodates some growth. Typically, the only time Dr. del Nido considers a mechanical valve in these young patients is for an aortic valve replacement.
Another younger patient that may be a good candidate for a mechanical valve is the 25-year-old male with rheumatic mitral stenosis. “I would err on the side of the mechanical valve in this patient if I were to make a choice, but I would present the patient with informed data on the outcomes of both mechanical valve and bioprosthesis,” according to Dr. Anyanwu
However, Dr. Lange would still opt for a biological valve in that 25-year-old. “The patient’s preference is important,” he said. “I would rather put in a biological valve in this patient – maybe put two more transcatheter valves transeptally in the future and do one reoperation.”
For even younger patients, Dr. del Nido bases his valve choice on their activity level. “I have a lot of young teenagers, and my decision is entirely based on what their background is like – what their regular life is like,” he said. “If they have a support structure than can help them manage anticoagulation, absolutely the mechanical valve is probably the best thing.”
However, there are exceptions because the couching of the device can change over time. “Eventually that 12-year-old [or] that 15-year-old is going to decide he can still snowboard or ride a motorcycle, and that’s when he’s going to get into trouble,” Dr. del Nido said. “If a reoperation is not problematic, I would still say it’s a tossup between the mechanical and biological valve. I would still offer the possibility of a bioprosthesis knowing that they’ll be back in 6, 8, or 10 years.”
Bleeding risk is another factor that can influence valve choice, as mechanical valve recipients must stay on anticoagulation. “The bleeding complication rates are very low when patients are younger, in their 40s or 50s, but the bleeding rates increase exponentially with warfarin for patients in their 80s and 90s,” Dr. Borger said. “The older you are, the more difficult it is to manage anticoagulation. In addition, the ability to stop anticoagulants because of bleeding is different for the two types of prostheses. If a patient develops bleeding during anticoagulation for leaflet immobility after a tissue valve-in-valve procedure, the physician can simply stop the warfarin. But, if you have a mechanical mitral valve in place that’s not an option.”
That’s not necessarily a bad problem to have, Dr. Sundt said, quoting Steven Bolling, MD, of the University of Michigan. “If you’re 25 and you’ve had your valve replaced and you’re worried about bleeding at the age of 80, I call that a success.”
Dr. Borger disclosed he is a speaker for and consultant to Edwards Lifesciences, Medtronic, and CryoLife; a speaker for St. Jude; and a recipient of research support from NeoChord. Dr. Lange disclosed he is a consultant and speaker for Medtronic, St. Jude/Abbott, LivaNova and NeoChord and cofounder of HighLife. Dr. Anyanwu, Dr. del Nido, and Dr. Sundt reported no relevant financial relationships.
EXPERT ANALYSIS FROM THE 2017 MITRAL VALVE CONCLAVE
Shift to minimally invasive MV surgery picks up
NEW YORK – An analysis of a Society of Thoracic Surgeons database has identified a significant increase in volumes for isolated mitral valve surgery and leaflet prolapse this decade, with a shift toward minimally invasive approaches, according to a study of trends in mitral valve surgery in the United States presented here at the American Association for Thoracic Surgery Mitral Conclave 2017.
James Gammie, MD, of the University of Maryland School of Medicine, Baltimore, reported on the analysis of the STS Adult Cardiac Surgery Database in which more than 90% of the adult cardiac surgery centers in North America participate.
The retrospective review involved 115,360 isolated mitral valve (MV) operations performed from July 2011 to September 2016, with or without tricuspid valve repair, ablation for atrial fibrillation (AF) or atrial septal defect. After exclusions, the analyzed data set included 87,214 cases along with a subgroup of 36,948 patients who had leaflet prolapse.
“Degenerative disease remains the most common reason patients are referred for surgery,” Dr. Gammie said, noting that 60.7% of patients with an identified etiology had degenerative leaflet prolapse (etiology was unknown in 31% of the patients in the dataset).
“The operative approach has changed and continues to shift toward a less invasive approach,” Dr. Gammie said. Overall, 74.1% of operations involved sternotomy, but only 67.5% of those in the leaflet prolapse subgroup, with less invasive operations comprising 23% of all operations and 29.1% of those in the leaflet prolapse subgroup. From 2011 to 2016, total mitral surgical volume grew at a rate of 1.1% annually, but the volume for isolated MV operations grew 4.4% annually while leaflet prolapse procedures increased 7.6% annually, Dr. Gammie said.
Dr. Gammie described surgeons’ decision to perform ablation for preoperative AF during MV surgery a “coin toss.” One-third (34%) had AF, but only 51.2% of patients with AF in the total cohort and 54.4% of those in the leaflet prolapse subgroup got ablation. The overall MV repair rate was 65% for the total cohort but 83% for those with leaflet prolapse. For those who had MV replacement, the share of bioprosthetic devices increased steadily through the study period, from around 65% to 75.8%, Dr. Gammie said.
In the leaflet prolapse subgroup, 96.1% had annuloplasty and 29.2% had artificial chords implanted, with an average of two chords per operation. “There’s an increasing use of artificial ePTFE chords,” Dr. Gammie said. He noted the leaflet prolapse subgroup was composed of low-risk healthy patients. The mean ejection fraction (EF) for the cohort was 57%, and 47% of patients had EF of less than 60%. The overwhelming majority of patients (88%) had Class I indications for surgery with the remainder having Class IIa indications.
Dr. Gammie noted a few other emerging trends of MV surgery during the study period. “Patients with functional mitral regurgitation are rarely referred for operation: these patients made up fewer than 5% of patients undergoing mitral valve operations during the study period,” he said.;
With regard to outcomes, Dr. Gammie said, “There remain substantial differences between repair and replacement.” Replacement had almost twice the rate of reoperation for bleeding than repair (4.1% vs. 2.1%) and renal failure (3.4% vs. 1.4%).
“We observed that a substantial number of patients have an unsuccessful attempt at mitral valve repair before undergoing replacement – 16 % of the overall replacement group and 27% of patients having replacement for degenerative leaflet prolapse,” he said. “This does not appear to penalize patients in terms of outcome.”
The rate of permanent pacemaker was also significantly higher in the replacement cohort, 9.8% vs. 3.8% for repair operations, as was operative mortality, 3.7% vs. 1.1%. Said Dr. Gammie.
“This is something to think about as we move to less invasive approaches and overall operative mortality remains over threefold higher for replacement than repair.”
The leaflet prolapse subgroup showed similar disparities between replacement and repair groups. “The increased application of repair when feasible will be of value to improve outcomes, as will referral of patients earlier in the disease process ,” Dr. Gammie said.
During the discussion, Ralph Damiano Jr., MD, of Washington University School of Medicine, St. Louis, questioned the accuracy of the STS database in reporting patients with AF. “The problem with the STS database was that many patients coded who had a history of AF, when you go back to try to find any documentation, they don’t have it,” Dr. Damiano said.
“In our own STS database, about one-third of patients who were coded as having AF had no evidence of it, and that’s why in our institution they don’t get treated.” He added, “I’m not that surprised at the low repair rate when the average surgeon in the United States does five mitral repairs a year.”
Dr. Gammie disclosed that he is a consultant to Edwards Lifesciences and has an ownership interest in Harpoon Medical. Dr. Damiano disclosed that he is a speaker for LivaNova and a consultant to and a research grant recipient of Atricure.
NEW YORK – An analysis of a Society of Thoracic Surgeons database has identified a significant increase in volumes for isolated mitral valve surgery and leaflet prolapse this decade, with a shift toward minimally invasive approaches, according to a study of trends in mitral valve surgery in the United States presented here at the American Association for Thoracic Surgery Mitral Conclave 2017.
James Gammie, MD, of the University of Maryland School of Medicine, Baltimore, reported on the analysis of the STS Adult Cardiac Surgery Database in which more than 90% of the adult cardiac surgery centers in North America participate.
The retrospective review involved 115,360 isolated mitral valve (MV) operations performed from July 2011 to September 2016, with or without tricuspid valve repair, ablation for atrial fibrillation (AF) or atrial septal defect. After exclusions, the analyzed data set included 87,214 cases along with a subgroup of 36,948 patients who had leaflet prolapse.
“Degenerative disease remains the most common reason patients are referred for surgery,” Dr. Gammie said, noting that 60.7% of patients with an identified etiology had degenerative leaflet prolapse (etiology was unknown in 31% of the patients in the dataset).
“The operative approach has changed and continues to shift toward a less invasive approach,” Dr. Gammie said. Overall, 74.1% of operations involved sternotomy, but only 67.5% of those in the leaflet prolapse subgroup, with less invasive operations comprising 23% of all operations and 29.1% of those in the leaflet prolapse subgroup. From 2011 to 2016, total mitral surgical volume grew at a rate of 1.1% annually, but the volume for isolated MV operations grew 4.4% annually while leaflet prolapse procedures increased 7.6% annually, Dr. Gammie said.
Dr. Gammie described surgeons’ decision to perform ablation for preoperative AF during MV surgery a “coin toss.” One-third (34%) had AF, but only 51.2% of patients with AF in the total cohort and 54.4% of those in the leaflet prolapse subgroup got ablation. The overall MV repair rate was 65% for the total cohort but 83% for those with leaflet prolapse. For those who had MV replacement, the share of bioprosthetic devices increased steadily through the study period, from around 65% to 75.8%, Dr. Gammie said.
In the leaflet prolapse subgroup, 96.1% had annuloplasty and 29.2% had artificial chords implanted, with an average of two chords per operation. “There’s an increasing use of artificial ePTFE chords,” Dr. Gammie said. He noted the leaflet prolapse subgroup was composed of low-risk healthy patients. The mean ejection fraction (EF) for the cohort was 57%, and 47% of patients had EF of less than 60%. The overwhelming majority of patients (88%) had Class I indications for surgery with the remainder having Class IIa indications.
Dr. Gammie noted a few other emerging trends of MV surgery during the study period. “Patients with functional mitral regurgitation are rarely referred for operation: these patients made up fewer than 5% of patients undergoing mitral valve operations during the study period,” he said.;
With regard to outcomes, Dr. Gammie said, “There remain substantial differences between repair and replacement.” Replacement had almost twice the rate of reoperation for bleeding than repair (4.1% vs. 2.1%) and renal failure (3.4% vs. 1.4%).
“We observed that a substantial number of patients have an unsuccessful attempt at mitral valve repair before undergoing replacement – 16 % of the overall replacement group and 27% of patients having replacement for degenerative leaflet prolapse,” he said. “This does not appear to penalize patients in terms of outcome.”
The rate of permanent pacemaker was also significantly higher in the replacement cohort, 9.8% vs. 3.8% for repair operations, as was operative mortality, 3.7% vs. 1.1%. Said Dr. Gammie.
“This is something to think about as we move to less invasive approaches and overall operative mortality remains over threefold higher for replacement than repair.”
The leaflet prolapse subgroup showed similar disparities between replacement and repair groups. “The increased application of repair when feasible will be of value to improve outcomes, as will referral of patients earlier in the disease process ,” Dr. Gammie said.
During the discussion, Ralph Damiano Jr., MD, of Washington University School of Medicine, St. Louis, questioned the accuracy of the STS database in reporting patients with AF. “The problem with the STS database was that many patients coded who had a history of AF, when you go back to try to find any documentation, they don’t have it,” Dr. Damiano said.
“In our own STS database, about one-third of patients who were coded as having AF had no evidence of it, and that’s why in our institution they don’t get treated.” He added, “I’m not that surprised at the low repair rate when the average surgeon in the United States does five mitral repairs a year.”
Dr. Gammie disclosed that he is a consultant to Edwards Lifesciences and has an ownership interest in Harpoon Medical. Dr. Damiano disclosed that he is a speaker for LivaNova and a consultant to and a research grant recipient of Atricure.
NEW YORK – An analysis of a Society of Thoracic Surgeons database has identified a significant increase in volumes for isolated mitral valve surgery and leaflet prolapse this decade, with a shift toward minimally invasive approaches, according to a study of trends in mitral valve surgery in the United States presented here at the American Association for Thoracic Surgery Mitral Conclave 2017.
James Gammie, MD, of the University of Maryland School of Medicine, Baltimore, reported on the analysis of the STS Adult Cardiac Surgery Database in which more than 90% of the adult cardiac surgery centers in North America participate.
The retrospective review involved 115,360 isolated mitral valve (MV) operations performed from July 2011 to September 2016, with or without tricuspid valve repair, ablation for atrial fibrillation (AF) or atrial septal defect. After exclusions, the analyzed data set included 87,214 cases along with a subgroup of 36,948 patients who had leaflet prolapse.
“Degenerative disease remains the most common reason patients are referred for surgery,” Dr. Gammie said, noting that 60.7% of patients with an identified etiology had degenerative leaflet prolapse (etiology was unknown in 31% of the patients in the dataset).
“The operative approach has changed and continues to shift toward a less invasive approach,” Dr. Gammie said. Overall, 74.1% of operations involved sternotomy, but only 67.5% of those in the leaflet prolapse subgroup, with less invasive operations comprising 23% of all operations and 29.1% of those in the leaflet prolapse subgroup. From 2011 to 2016, total mitral surgical volume grew at a rate of 1.1% annually, but the volume for isolated MV operations grew 4.4% annually while leaflet prolapse procedures increased 7.6% annually, Dr. Gammie said.
Dr. Gammie described surgeons’ decision to perform ablation for preoperative AF during MV surgery a “coin toss.” One-third (34%) had AF, but only 51.2% of patients with AF in the total cohort and 54.4% of those in the leaflet prolapse subgroup got ablation. The overall MV repair rate was 65% for the total cohort but 83% for those with leaflet prolapse. For those who had MV replacement, the share of bioprosthetic devices increased steadily through the study period, from around 65% to 75.8%, Dr. Gammie said.
In the leaflet prolapse subgroup, 96.1% had annuloplasty and 29.2% had artificial chords implanted, with an average of two chords per operation. “There’s an increasing use of artificial ePTFE chords,” Dr. Gammie said. He noted the leaflet prolapse subgroup was composed of low-risk healthy patients. The mean ejection fraction (EF) for the cohort was 57%, and 47% of patients had EF of less than 60%. The overwhelming majority of patients (88%) had Class I indications for surgery with the remainder having Class IIa indications.
Dr. Gammie noted a few other emerging trends of MV surgery during the study period. “Patients with functional mitral regurgitation are rarely referred for operation: these patients made up fewer than 5% of patients undergoing mitral valve operations during the study period,” he said.;
With regard to outcomes, Dr. Gammie said, “There remain substantial differences between repair and replacement.” Replacement had almost twice the rate of reoperation for bleeding than repair (4.1% vs. 2.1%) and renal failure (3.4% vs. 1.4%).
“We observed that a substantial number of patients have an unsuccessful attempt at mitral valve repair before undergoing replacement – 16 % of the overall replacement group and 27% of patients having replacement for degenerative leaflet prolapse,” he said. “This does not appear to penalize patients in terms of outcome.”
The rate of permanent pacemaker was also significantly higher in the replacement cohort, 9.8% vs. 3.8% for repair operations, as was operative mortality, 3.7% vs. 1.1%. Said Dr. Gammie.
“This is something to think about as we move to less invasive approaches and overall operative mortality remains over threefold higher for replacement than repair.”
The leaflet prolapse subgroup showed similar disparities between replacement and repair groups. “The increased application of repair when feasible will be of value to improve outcomes, as will referral of patients earlier in the disease process ,” Dr. Gammie said.
During the discussion, Ralph Damiano Jr., MD, of Washington University School of Medicine, St. Louis, questioned the accuracy of the STS database in reporting patients with AF. “The problem with the STS database was that many patients coded who had a history of AF, when you go back to try to find any documentation, they don’t have it,” Dr. Damiano said.
“In our own STS database, about one-third of patients who were coded as having AF had no evidence of it, and that’s why in our institution they don’t get treated.” He added, “I’m not that surprised at the low repair rate when the average surgeon in the United States does five mitral repairs a year.”
Dr. Gammie disclosed that he is a consultant to Edwards Lifesciences and has an ownership interest in Harpoon Medical. Dr. Damiano disclosed that he is a speaker for LivaNova and a consultant to and a research grant recipient of Atricure.
AT THE AATS MITRAL CONCLAVE 2017
Key clinical point: The volume of mitral valve surgery has increased substantially, according to an analysis of the Society for Thoracic Surgery database, and an increasing percentage of procedures are minimally invasive in nature.
Major finding: Sternotomy continues to be the most widely used approach for mitral valve surgery, but less invasive options most recently comprised 23% of the overall group and 29.1% of those with isolated leaflet prolapse.
Data source: Retrospective study of 15,360 isolated mitral valve operations performed from July 2011 to September 2016 in the Society of Thoracic Surgeons database.
Disclosures: Dr. Gammie reported being a consultant to Edwards Lifesciences and having an ownership interest in Harpoon Medical.
In 8 years, TMVR means more procedures
NEW YORK – Since the commercialization of transcatheter mitral valve repair, the share of these procedures among all mitral operations has grown exponentially and has also contributed to an increase in the number of overall mitral procedures, including surgical repair, according to an analysis of a national German database reported at the American Association for Thoracic Surgery Mitral Conclave here.
Transcatheter mitral valve repair (TMVR) using the MitraClip device (Abbott Vascular) was first commercialized in Germany in 2008, and in the years since the share of TMVR procedures among all mitral operations increased from 0.3% to 18.1% in 2015 throughout Germany, said Lenard Conradi, MD, surgical director of minimally-invasive and transcatheter heart valve procedures at the University Heart Center Hamburg.
The goal of the study was to gain insights into how cardiothoracic surgeons in Germany and at Dr. Conradi’s center in particular were approaching TMVR and what types of patients were having the procedure, Dr. Conradi said.
“While the EuroSCORE I of patients we operated on didn’t change at all between these two time frames, there were subtle changes in the patients that we operated on,” he said. “Before the commercialization of TMVR, we tended to have a ratio of organic vs. functional MR [mitral regurgitation] of 50-50; after commercialization of TMVR, many of the functional MR patients were allocated to TMVR.”
Dr. Conradi noted the profile of patients who had mitral valve repair also changed once the transcatheter approach became available. “Ischemic disease with coronary artery disease, previous infarction, or previous cardiac surgery – mostly coronary artery bypass grafting – were much less prevalent in this surgery population after TMVR became available,” he said.
The study also found that 30-day mortality declined from 7% to 4% during the study period. “That was probably due to more adequate patient selection because we had a more appropriate treatment that we could offer these high-risk patients as an alternative to high-risk surgical approaches,” Dr. Conradi said.
The analysis stratified procedure volumes and growth by four age groups: younger than 65 years; 65-74; 75-84; and greater than ore equal to 85. Older patients were more likely to have TMVR. Surgical procedure volumes increased most in the less than 65 group and least in the greater than or equal to 85 group.
In Germany, transcatheter mitral valve procedures are reimbursed at a higher rate than surgical procedures, but that doesn’t fully explain the uptake in TMVR, Dr. Conradi said. “The patients receiving the transcatheter approach vs. surgery still differ fundamentally, but the addition of an interventional program decreases the surgical patient’s mean risk profile and thus optimizes surgical results,” he said. “I think this can only happen if surgeons are closely involved. The indications will broaden for these therapies. There’s no doubt about that.”
Dr. Conradi disclosed receiving travel support and lecture fees from Abbott Vascular.
NEW YORK – Since the commercialization of transcatheter mitral valve repair, the share of these procedures among all mitral operations has grown exponentially and has also contributed to an increase in the number of overall mitral procedures, including surgical repair, according to an analysis of a national German database reported at the American Association for Thoracic Surgery Mitral Conclave here.
Transcatheter mitral valve repair (TMVR) using the MitraClip device (Abbott Vascular) was first commercialized in Germany in 2008, and in the years since the share of TMVR procedures among all mitral operations increased from 0.3% to 18.1% in 2015 throughout Germany, said Lenard Conradi, MD, surgical director of minimally-invasive and transcatheter heart valve procedures at the University Heart Center Hamburg.
The goal of the study was to gain insights into how cardiothoracic surgeons in Germany and at Dr. Conradi’s center in particular were approaching TMVR and what types of patients were having the procedure, Dr. Conradi said.
“While the EuroSCORE I of patients we operated on didn’t change at all between these two time frames, there were subtle changes in the patients that we operated on,” he said. “Before the commercialization of TMVR, we tended to have a ratio of organic vs. functional MR [mitral regurgitation] of 50-50; after commercialization of TMVR, many of the functional MR patients were allocated to TMVR.”
Dr. Conradi noted the profile of patients who had mitral valve repair also changed once the transcatheter approach became available. “Ischemic disease with coronary artery disease, previous infarction, or previous cardiac surgery – mostly coronary artery bypass grafting – were much less prevalent in this surgery population after TMVR became available,” he said.
The study also found that 30-day mortality declined from 7% to 4% during the study period. “That was probably due to more adequate patient selection because we had a more appropriate treatment that we could offer these high-risk patients as an alternative to high-risk surgical approaches,” Dr. Conradi said.
The analysis stratified procedure volumes and growth by four age groups: younger than 65 years; 65-74; 75-84; and greater than ore equal to 85. Older patients were more likely to have TMVR. Surgical procedure volumes increased most in the less than 65 group and least in the greater than or equal to 85 group.
In Germany, transcatheter mitral valve procedures are reimbursed at a higher rate than surgical procedures, but that doesn’t fully explain the uptake in TMVR, Dr. Conradi said. “The patients receiving the transcatheter approach vs. surgery still differ fundamentally, but the addition of an interventional program decreases the surgical patient’s mean risk profile and thus optimizes surgical results,” he said. “I think this can only happen if surgeons are closely involved. The indications will broaden for these therapies. There’s no doubt about that.”
Dr. Conradi disclosed receiving travel support and lecture fees from Abbott Vascular.
NEW YORK – Since the commercialization of transcatheter mitral valve repair, the share of these procedures among all mitral operations has grown exponentially and has also contributed to an increase in the number of overall mitral procedures, including surgical repair, according to an analysis of a national German database reported at the American Association for Thoracic Surgery Mitral Conclave here.
Transcatheter mitral valve repair (TMVR) using the MitraClip device (Abbott Vascular) was first commercialized in Germany in 2008, and in the years since the share of TMVR procedures among all mitral operations increased from 0.3% to 18.1% in 2015 throughout Germany, said Lenard Conradi, MD, surgical director of minimally-invasive and transcatheter heart valve procedures at the University Heart Center Hamburg.
The goal of the study was to gain insights into how cardiothoracic surgeons in Germany and at Dr. Conradi’s center in particular were approaching TMVR and what types of patients were having the procedure, Dr. Conradi said.
“While the EuroSCORE I of patients we operated on didn’t change at all between these two time frames, there were subtle changes in the patients that we operated on,” he said. “Before the commercialization of TMVR, we tended to have a ratio of organic vs. functional MR [mitral regurgitation] of 50-50; after commercialization of TMVR, many of the functional MR patients were allocated to TMVR.”
Dr. Conradi noted the profile of patients who had mitral valve repair also changed once the transcatheter approach became available. “Ischemic disease with coronary artery disease, previous infarction, or previous cardiac surgery – mostly coronary artery bypass grafting – were much less prevalent in this surgery population after TMVR became available,” he said.
The study also found that 30-day mortality declined from 7% to 4% during the study period. “That was probably due to more adequate patient selection because we had a more appropriate treatment that we could offer these high-risk patients as an alternative to high-risk surgical approaches,” Dr. Conradi said.
The analysis stratified procedure volumes and growth by four age groups: younger than 65 years; 65-74; 75-84; and greater than ore equal to 85. Older patients were more likely to have TMVR. Surgical procedure volumes increased most in the less than 65 group and least in the greater than or equal to 85 group.
In Germany, transcatheter mitral valve procedures are reimbursed at a higher rate than surgical procedures, but that doesn’t fully explain the uptake in TMVR, Dr. Conradi said. “The patients receiving the transcatheter approach vs. surgery still differ fundamentally, but the addition of an interventional program decreases the surgical patient’s mean risk profile and thus optimizes surgical results,” he said. “I think this can only happen if surgeons are closely involved. The indications will broaden for these therapies. There’s no doubt about that.”
Dr. Conradi disclosed receiving travel support and lecture fees from Abbott Vascular.
AT THE AATS MITRAL CONCLAVE 2017
Key clinical point: Since its commercialization, transcatheter mitral valve repair (TMVR) has accounted for an increasing share of all mitral surgeries in Germany and driven greater mitral surgery volume overall.
Major finding: Volume of surgical mitral valve procedures increased 70% overall and TMVR procedures 57% in Germany since 2008.
Data source: Analysis of data from German Federal statistics office.
Disclosures: Dr. Conradi reported receiving travel support and lecture fees from Abbott Vascular.