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The work is being led by SetPoint Medical, a small company in Valencia, Calif., just north of Los Angeles. Its vagus nerve stimulation (VNS) device, dubbed the microregulator, has been implanted in 14 patients with refractory rheumatoid arthritis (RA) in the company’s initial safety study.
The microregulator is a small lithium ion battery encased in an inert silastic pod; it’s surgically implanted to sit atop the vagus nerve in the left side of the neck, and delivers an electrical pulse at set intervals. Data from the 12-week, sham-controlled safety study is set to be unblinded in coming weeks. A pivotal trial also is in the works, perhaps to start in late 2019, according to rheumatologist and SetPoint’s Chief Medical Officer David Chernoff, MD.
Although SetPoint is ahead of the pack, it’s not alone. ElectroCore, a biotech company in Basking Ridge, N.J., has expressed interest in pursuing rheumatoid arthritis and Sjögren’s syndrome indications for its gammaCore device, a vagus nerve stimulator patients apply to the neck. It’s already on the market for migraines and cluster headaches.
Researchers recently reported a small decrease in 28-joint Disease Activity Score using C-reactive protein (DAS28-CRP) results after 16 RA patients with flares used the device for 4 days (Ann Rheum Dis. 2018;77:1401. Abstract AB0481). In another recent open-label study, 15 women with Sjögren’s reported less fatigue while using the device for a month (Arthritis Rheumatol. 2017;69[suppl 10]: Abstract 563).
Meanwhile, The Feinstein Institute for Medical Research, based in Manhasset, N.Y., on Long Island, recently reported positive outcomes in 18 patients with systemic lupus erythematosus, using its own novel device, which stimulates the vagus nerve through the ear lobe. VNS was delivered for 5 minutes per day for 4 days (Arthritis Rheumatol. 2018;70[suppl 10]: Abstract 2652).
On day 5, patients who received VNS, versus sham patients in whom the device was not turned on, had a significant decrease in pain, fatigue, and joint scores. The investigators concluded that “additional studies evaluating this promising intervention and its potential mechanisms are warranted.”
“We are clearly ahead of everybody because we’ve already implanted people, but I think it’s good for the field if more people are chasing this. The more resources that are put into it, the more we can show that this approach actually works,” said SetPoint’s Dr. Chernoff.
The hope
In general, interest in VNS for rheumatology is being driven by the possibility that it may reduce proinflammatory cytokines, which opens the door for VNS as an alternative to biologics. The hope is that instead of going after tumor necrosis factor and other cytokines one at a time, VNS could be used to target a range of cytokines all at once, without the cost and side effects of biologics.
“It seems so dramatically different” from what rheumatologists have done in the past, “that our first instinct is to say ‘oh, that’s ridiculous,’ but the science behind it is actually not bad. There may indeed be something to this,” said rheumatologist Joel Kremer, MD, Pfaff Family Professor of Medicine at Albany (N.Y.) Medical College.
Dr. Kremer reviewed SetPoint’s early scientific data after being asked by the company to participate in the safety study; he declined for logistical reasons.
He noted that “there are some strange interactions between the CNS and inflammatory disease.” When RA patients have a stroke, for instance, RA goes into remission on the side of their body affected by the stroke. “That’s been known for decades, but we really don’t understand what’s going on there,” Dr. Kremer said.
The evidence
Perhaps the strongest evidence to date for VNS as a cytokine blocker in rheumatology comes from an open-label, 12-week study, also conducted by SetPoint, in 17 patients with active RA despite methotrexate treatment; some had failed biologics (Proc Natl Acad Sci U S A. 2016 Jul 19;113[29]:8284-9. doi: 10.1073/pnas.160563511).
The microregulator wasn’t ready yet, so investigators implanted a VNS system commercially available for epilepsy and reprogrammed it to deliver a 60-second pulse once a day to the left cervical vagus nerve, which was increased after a month to four 60-second stimulations a day in nonresponders.
The investigators “observed that TNF production in cultured peripheral blood obtained ... on day 42 was significantly reduced from” 21 days before the study was started (TNF 2,900 pg/mL on day –21, versus 1,776 pg/mL on day 42; P less than .05).
When VNS was shut off, TNF production increased; when it was turned back on, it dropped. Interleukin 6 also fell significantly among responders. Overall, DAS28-CRP scores fell about 1.5 points on the 10-point scale from baseline to week 12.
Two-year outcomes were recently reported (Ann Rheum Dis. 2018;77:981-2. Abstract SAT0240). All 17 patients elected to continue treatment after the initial 12 weeks. Biologics were added in nine subjects (53%), because of no or limited response to VNS. Investigators were free to change the VNS dosing regimen, which varied during the study extension up to eight 60-second bursts a day. The roughly 1.5-point improvement in DAS28-CRP was maintained at 2 years.
“These long-term data suggest that bioelectronic therapy may be used as an alternative to, or in combination with, biological[s],” concluded Dr. Chernoff and other study team members.
Awaiting more data
When asked for comment, Daniel E. Furst, MD, professor of medicine (emeritus) at the University of California, Los Angeles, said “there certainly are neurotropic factors” at play in rheumatology, “so there’s sort of a potential reason why” VNS might work, “but we need to understand far more about its mechanism, and [remember] that open-label studies are not to be believed until” large, randomized, blinded, placebo-controlled studies are done.
Dr. Furst also is an adjunct professor at the University of Washington, Seattle, and a research professor at the University of Florence (Italy). He is in part-time practice in Los Angeles and Seattle.
If everything works out, however, “the vagus nerve may give us a much wider opportunity to block a host of cytokines; it may change the whole paradigm of how we manage rheumatoid arthritis. I think this is possibly a groundbreaking new therapeutic area, much in the way the biologics were” 20 years ago, said rheumatologist Norman B. Gaylis, MD.
Several of the 14 patients in SetPoint’s safety study were enrolled at Dr. Gaylis’s practice in Aventura, Fla., just north of Miami; he said he is eagerly awaiting for the results to be unblinded. If clinical response in that study and others correlates with a cytokine response, “that’s going to be big, and very significant” in the rheumatology community, he said.
SetPoint’s microregulator is charged wirelessly through a collar patients wear for a few minutes once a week. Dosing can also be adjusted through the collar with the help of a computer application.
The device wasn’t turned on in 4 of the 14 patients in the safety study, as a sham control, but shamming was problematic because patients can potentially feel VNS as a buzz or a change in their voice. To get around that potential confounder, both sham and treated patients were told they might or might not feel something during the study.
Implantation takes about an hour, and is much less complex than implanting currently available epilepsy VNS systems, which require implantation of both a power source on the chest wall and wire coils on the vagus nerve.
Cardiac concerns are the main safety issue with VNS, beyond the surgery itself. Cardiac monitoring was done in the safety study to “ensure that we did not cause things like bradycardia, heart block, syncope, etc.” Dr. Chernoff said. So far, they haven’t turned out to be a problem.
Dr. Furst and Dr. Kremer had no relevant disclosures. Dr. Gaylis was compensated by SetPoint for participating in the safety study; he is a consultant and investigator for Electrocore. Dr. Furst and Dr. Gaylis are members of the editorial advisory board for MDedge Rheumatology/Rheumatology News.
The work is being led by SetPoint Medical, a small company in Valencia, Calif., just north of Los Angeles. Its vagus nerve stimulation (VNS) device, dubbed the microregulator, has been implanted in 14 patients with refractory rheumatoid arthritis (RA) in the company’s initial safety study.
The microregulator is a small lithium ion battery encased in an inert silastic pod; it’s surgically implanted to sit atop the vagus nerve in the left side of the neck, and delivers an electrical pulse at set intervals. Data from the 12-week, sham-controlled safety study is set to be unblinded in coming weeks. A pivotal trial also is in the works, perhaps to start in late 2019, according to rheumatologist and SetPoint’s Chief Medical Officer David Chernoff, MD.
Although SetPoint is ahead of the pack, it’s not alone. ElectroCore, a biotech company in Basking Ridge, N.J., has expressed interest in pursuing rheumatoid arthritis and Sjögren’s syndrome indications for its gammaCore device, a vagus nerve stimulator patients apply to the neck. It’s already on the market for migraines and cluster headaches.
Researchers recently reported a small decrease in 28-joint Disease Activity Score using C-reactive protein (DAS28-CRP) results after 16 RA patients with flares used the device for 4 days (Ann Rheum Dis. 2018;77:1401. Abstract AB0481). In another recent open-label study, 15 women with Sjögren’s reported less fatigue while using the device for a month (Arthritis Rheumatol. 2017;69[suppl 10]: Abstract 563).
Meanwhile, The Feinstein Institute for Medical Research, based in Manhasset, N.Y., on Long Island, recently reported positive outcomes in 18 patients with systemic lupus erythematosus, using its own novel device, which stimulates the vagus nerve through the ear lobe. VNS was delivered for 5 minutes per day for 4 days (Arthritis Rheumatol. 2018;70[suppl 10]: Abstract 2652).
On day 5, patients who received VNS, versus sham patients in whom the device was not turned on, had a significant decrease in pain, fatigue, and joint scores. The investigators concluded that “additional studies evaluating this promising intervention and its potential mechanisms are warranted.”
“We are clearly ahead of everybody because we’ve already implanted people, but I think it’s good for the field if more people are chasing this. The more resources that are put into it, the more we can show that this approach actually works,” said SetPoint’s Dr. Chernoff.
The hope
In general, interest in VNS for rheumatology is being driven by the possibility that it may reduce proinflammatory cytokines, which opens the door for VNS as an alternative to biologics. The hope is that instead of going after tumor necrosis factor and other cytokines one at a time, VNS could be used to target a range of cytokines all at once, without the cost and side effects of biologics.
“It seems so dramatically different” from what rheumatologists have done in the past, “that our first instinct is to say ‘oh, that’s ridiculous,’ but the science behind it is actually not bad. There may indeed be something to this,” said rheumatologist Joel Kremer, MD, Pfaff Family Professor of Medicine at Albany (N.Y.) Medical College.
Dr. Kremer reviewed SetPoint’s early scientific data after being asked by the company to participate in the safety study; he declined for logistical reasons.
He noted that “there are some strange interactions between the CNS and inflammatory disease.” When RA patients have a stroke, for instance, RA goes into remission on the side of their body affected by the stroke. “That’s been known for decades, but we really don’t understand what’s going on there,” Dr. Kremer said.
The evidence
Perhaps the strongest evidence to date for VNS as a cytokine blocker in rheumatology comes from an open-label, 12-week study, also conducted by SetPoint, in 17 patients with active RA despite methotrexate treatment; some had failed biologics (Proc Natl Acad Sci U S A. 2016 Jul 19;113[29]:8284-9. doi: 10.1073/pnas.160563511).
The microregulator wasn’t ready yet, so investigators implanted a VNS system commercially available for epilepsy and reprogrammed it to deliver a 60-second pulse once a day to the left cervical vagus nerve, which was increased after a month to four 60-second stimulations a day in nonresponders.
The investigators “observed that TNF production in cultured peripheral blood obtained ... on day 42 was significantly reduced from” 21 days before the study was started (TNF 2,900 pg/mL on day –21, versus 1,776 pg/mL on day 42; P less than .05).
When VNS was shut off, TNF production increased; when it was turned back on, it dropped. Interleukin 6 also fell significantly among responders. Overall, DAS28-CRP scores fell about 1.5 points on the 10-point scale from baseline to week 12.
Two-year outcomes were recently reported (Ann Rheum Dis. 2018;77:981-2. Abstract SAT0240). All 17 patients elected to continue treatment after the initial 12 weeks. Biologics were added in nine subjects (53%), because of no or limited response to VNS. Investigators were free to change the VNS dosing regimen, which varied during the study extension up to eight 60-second bursts a day. The roughly 1.5-point improvement in DAS28-CRP was maintained at 2 years.
“These long-term data suggest that bioelectronic therapy may be used as an alternative to, or in combination with, biological[s],” concluded Dr. Chernoff and other study team members.
Awaiting more data
When asked for comment, Daniel E. Furst, MD, professor of medicine (emeritus) at the University of California, Los Angeles, said “there certainly are neurotropic factors” at play in rheumatology, “so there’s sort of a potential reason why” VNS might work, “but we need to understand far more about its mechanism, and [remember] that open-label studies are not to be believed until” large, randomized, blinded, placebo-controlled studies are done.
Dr. Furst also is an adjunct professor at the University of Washington, Seattle, and a research professor at the University of Florence (Italy). He is in part-time practice in Los Angeles and Seattle.
If everything works out, however, “the vagus nerve may give us a much wider opportunity to block a host of cytokines; it may change the whole paradigm of how we manage rheumatoid arthritis. I think this is possibly a groundbreaking new therapeutic area, much in the way the biologics were” 20 years ago, said rheumatologist Norman B. Gaylis, MD.
Several of the 14 patients in SetPoint’s safety study were enrolled at Dr. Gaylis’s practice in Aventura, Fla., just north of Miami; he said he is eagerly awaiting for the results to be unblinded. If clinical response in that study and others correlates with a cytokine response, “that’s going to be big, and very significant” in the rheumatology community, he said.
SetPoint’s microregulator is charged wirelessly through a collar patients wear for a few minutes once a week. Dosing can also be adjusted through the collar with the help of a computer application.
The device wasn’t turned on in 4 of the 14 patients in the safety study, as a sham control, but shamming was problematic because patients can potentially feel VNS as a buzz or a change in their voice. To get around that potential confounder, both sham and treated patients were told they might or might not feel something during the study.
Implantation takes about an hour, and is much less complex than implanting currently available epilepsy VNS systems, which require implantation of both a power source on the chest wall and wire coils on the vagus nerve.
Cardiac concerns are the main safety issue with VNS, beyond the surgery itself. Cardiac monitoring was done in the safety study to “ensure that we did not cause things like bradycardia, heart block, syncope, etc.” Dr. Chernoff said. So far, they haven’t turned out to be a problem.
Dr. Furst and Dr. Kremer had no relevant disclosures. Dr. Gaylis was compensated by SetPoint for participating in the safety study; he is a consultant and investigator for Electrocore. Dr. Furst and Dr. Gaylis are members of the editorial advisory board for MDedge Rheumatology/Rheumatology News.
The work is being led by SetPoint Medical, a small company in Valencia, Calif., just north of Los Angeles. Its vagus nerve stimulation (VNS) device, dubbed the microregulator, has been implanted in 14 patients with refractory rheumatoid arthritis (RA) in the company’s initial safety study.
The microregulator is a small lithium ion battery encased in an inert silastic pod; it’s surgically implanted to sit atop the vagus nerve in the left side of the neck, and delivers an electrical pulse at set intervals. Data from the 12-week, sham-controlled safety study is set to be unblinded in coming weeks. A pivotal trial also is in the works, perhaps to start in late 2019, according to rheumatologist and SetPoint’s Chief Medical Officer David Chernoff, MD.
Although SetPoint is ahead of the pack, it’s not alone. ElectroCore, a biotech company in Basking Ridge, N.J., has expressed interest in pursuing rheumatoid arthritis and Sjögren’s syndrome indications for its gammaCore device, a vagus nerve stimulator patients apply to the neck. It’s already on the market for migraines and cluster headaches.
Researchers recently reported a small decrease in 28-joint Disease Activity Score using C-reactive protein (DAS28-CRP) results after 16 RA patients with flares used the device for 4 days (Ann Rheum Dis. 2018;77:1401. Abstract AB0481). In another recent open-label study, 15 women with Sjögren’s reported less fatigue while using the device for a month (Arthritis Rheumatol. 2017;69[suppl 10]: Abstract 563).
Meanwhile, The Feinstein Institute for Medical Research, based in Manhasset, N.Y., on Long Island, recently reported positive outcomes in 18 patients with systemic lupus erythematosus, using its own novel device, which stimulates the vagus nerve through the ear lobe. VNS was delivered for 5 minutes per day for 4 days (Arthritis Rheumatol. 2018;70[suppl 10]: Abstract 2652).
On day 5, patients who received VNS, versus sham patients in whom the device was not turned on, had a significant decrease in pain, fatigue, and joint scores. The investigators concluded that “additional studies evaluating this promising intervention and its potential mechanisms are warranted.”
“We are clearly ahead of everybody because we’ve already implanted people, but I think it’s good for the field if more people are chasing this. The more resources that are put into it, the more we can show that this approach actually works,” said SetPoint’s Dr. Chernoff.
The hope
In general, interest in VNS for rheumatology is being driven by the possibility that it may reduce proinflammatory cytokines, which opens the door for VNS as an alternative to biologics. The hope is that instead of going after tumor necrosis factor and other cytokines one at a time, VNS could be used to target a range of cytokines all at once, without the cost and side effects of biologics.
“It seems so dramatically different” from what rheumatologists have done in the past, “that our first instinct is to say ‘oh, that’s ridiculous,’ but the science behind it is actually not bad. There may indeed be something to this,” said rheumatologist Joel Kremer, MD, Pfaff Family Professor of Medicine at Albany (N.Y.) Medical College.
Dr. Kremer reviewed SetPoint’s early scientific data after being asked by the company to participate in the safety study; he declined for logistical reasons.
He noted that “there are some strange interactions between the CNS and inflammatory disease.” When RA patients have a stroke, for instance, RA goes into remission on the side of their body affected by the stroke. “That’s been known for decades, but we really don’t understand what’s going on there,” Dr. Kremer said.
The evidence
Perhaps the strongest evidence to date for VNS as a cytokine blocker in rheumatology comes from an open-label, 12-week study, also conducted by SetPoint, in 17 patients with active RA despite methotrexate treatment; some had failed biologics (Proc Natl Acad Sci U S A. 2016 Jul 19;113[29]:8284-9. doi: 10.1073/pnas.160563511).
The microregulator wasn’t ready yet, so investigators implanted a VNS system commercially available for epilepsy and reprogrammed it to deliver a 60-second pulse once a day to the left cervical vagus nerve, which was increased after a month to four 60-second stimulations a day in nonresponders.
The investigators “observed that TNF production in cultured peripheral blood obtained ... on day 42 was significantly reduced from” 21 days before the study was started (TNF 2,900 pg/mL on day –21, versus 1,776 pg/mL on day 42; P less than .05).
When VNS was shut off, TNF production increased; when it was turned back on, it dropped. Interleukin 6 also fell significantly among responders. Overall, DAS28-CRP scores fell about 1.5 points on the 10-point scale from baseline to week 12.
Two-year outcomes were recently reported (Ann Rheum Dis. 2018;77:981-2. Abstract SAT0240). All 17 patients elected to continue treatment after the initial 12 weeks. Biologics were added in nine subjects (53%), because of no or limited response to VNS. Investigators were free to change the VNS dosing regimen, which varied during the study extension up to eight 60-second bursts a day. The roughly 1.5-point improvement in DAS28-CRP was maintained at 2 years.
“These long-term data suggest that bioelectronic therapy may be used as an alternative to, or in combination with, biological[s],” concluded Dr. Chernoff and other study team members.
Awaiting more data
When asked for comment, Daniel E. Furst, MD, professor of medicine (emeritus) at the University of California, Los Angeles, said “there certainly are neurotropic factors” at play in rheumatology, “so there’s sort of a potential reason why” VNS might work, “but we need to understand far more about its mechanism, and [remember] that open-label studies are not to be believed until” large, randomized, blinded, placebo-controlled studies are done.
Dr. Furst also is an adjunct professor at the University of Washington, Seattle, and a research professor at the University of Florence (Italy). He is in part-time practice in Los Angeles and Seattle.
If everything works out, however, “the vagus nerve may give us a much wider opportunity to block a host of cytokines; it may change the whole paradigm of how we manage rheumatoid arthritis. I think this is possibly a groundbreaking new therapeutic area, much in the way the biologics were” 20 years ago, said rheumatologist Norman B. Gaylis, MD.
Several of the 14 patients in SetPoint’s safety study were enrolled at Dr. Gaylis’s practice in Aventura, Fla., just north of Miami; he said he is eagerly awaiting for the results to be unblinded. If clinical response in that study and others correlates with a cytokine response, “that’s going to be big, and very significant” in the rheumatology community, he said.
SetPoint’s microregulator is charged wirelessly through a collar patients wear for a few minutes once a week. Dosing can also be adjusted through the collar with the help of a computer application.
The device wasn’t turned on in 4 of the 14 patients in the safety study, as a sham control, but shamming was problematic because patients can potentially feel VNS as a buzz or a change in their voice. To get around that potential confounder, both sham and treated patients were told they might or might not feel something during the study.
Implantation takes about an hour, and is much less complex than implanting currently available epilepsy VNS systems, which require implantation of both a power source on the chest wall and wire coils on the vagus nerve.
Cardiac concerns are the main safety issue with VNS, beyond the surgery itself. Cardiac monitoring was done in the safety study to “ensure that we did not cause things like bradycardia, heart block, syncope, etc.” Dr. Chernoff said. So far, they haven’t turned out to be a problem.
Dr. Furst and Dr. Kremer had no relevant disclosures. Dr. Gaylis was compensated by SetPoint for participating in the safety study; he is a consultant and investigator for Electrocore. Dr. Furst and Dr. Gaylis are members of the editorial advisory board for MDedge Rheumatology/Rheumatology News.