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CABG safe 3 days after stopping ticagrelor: RAPID CABG
Patients with acute coronary syndromes who have been taking the antiplatelet medication, ticagrelor, and who need coronary artery bypass surgery (CABG) may be able to safely have the procedure earlier than typically recommended, a new randomized trial suggests.
The RAPID CABG trial found that early surgery 2-3 days after ticagrelor cessation was noninferior in incurring severe or massive perioperative bleeding, compared with waiting 5-7 days. There was also no significant difference in TIMI CABG or Bleeding Academic Research Consortium (BARC) type 4 or 5 bleeding.
Patients in the delayed group had a numerically higher number of ischemic events requiring earlier surgery and had a longer hospital stay.
The study was presented at the American Heart Association scientific sessions.
“RAPID CABG is the first and only randomized controlled trial evaluating the safety of early surgery in patients taking ticagrelor,” said lead investigator Derek So, MD.
Dr. So, a cardiologist at the University of Ottawa Heart Institute and a professor at the University of Ottawa, explained that ticagrelor is a first-line antiplatelet agent for patients with acute coronary syndromes (ACS), but around 10% of patients presenting with ACS require CABG surgery.
A major concern among patients requiring bypass surgery is perioperative bleeding, and it has been shown that patients undergoing urgent bypass within 24 hours of the last dose of ticagrelor have increased mortality. Accordingly, guidelines suggest a waiting period for patients not requiring urgent bypass surgery, Dr. So noted.
Current North American guidelines suggest a waiting period of at least 5 days after stopping ticagrelor before bypass surgery. In contrast, the updated European and Japanese guidelines suggest a waiting period of 3 days.
Dr. So noted that all of the guidelines are based on cohort studies and pharmacodynamic studies, with no randomized evidence. Pharmacodynamic studies have shown that at 48 hours after the last dose of ticagrelor, the level of platelet inhibition drops to the same levels seen with long-term treatment with clopidogrel, a weaker antiplatelet drug, and after 120 hours (5 days) the effect has completely worn off.
Dr. So concluded that these new results from the RAPID CABG trial “may influence future iterations of North American guidelines with reduced waiting prior to bypass surgery” for patients receiving ticagrelor, and “they could also strengthen the level of evidence in European and Asian guidelines.”
Designated discussant of the RAPID CABG trial, Roxana Mehran, MD, professor of medicine at the Icahn School of Medicine at Mount Sinai, New York, said this was a “very important study,” being the only randomized trial to look at this issue to date.
Dr. Mehran noted that the results showed a similar number of major life-threatening bleeding events in the early and delayed groups and met the noninferiority endpoint, but she pointed out that the trial had a small sample size and a small number of events. “Therefore, larger trials are needed to verify these important and encouraging results.”
However, she concluded that these results should be considered in decisions about the timing of bypass surgery in patients receiving ticagrelor. “I will be changing my practice and sending patients earlier based on this data,” she said.
RAPID CABG
RAPID CABG was a physician-initiated multicenter randomized study evaluating the safety of early surgery at 2-3 days after ticagrelor cessation, compared with a delay of 5-7 days among patients presenting with ACS who required nonemergency CABG surgery.
The study enrolled 143 patients with ACS who were receiving ticagrelor and needed CABG surgery. Patients with stenting for culprit lesions, those requiring urgent surgery (less than 24 hours after presentation), and those requiring valve surgery were excluded.
Three patients declined surgery, and several others underwent surgery outside the assigned time window, so the results were based on the per protocol analysis of patients who actually had CABG in the assigned time window: 65 patients in the early CABG group and 58 in the delayed group.
The mean time from last ticagrelor dose to surgery was 3 days in the early group and 6 days in the delayed group.
Platelet reactivity on the VerifyNow test showed more residual antiplatelet activity in the early group, with P2Y12 reaction unit (PRU) levels of 200 (vs. 251 in the delayed group). This test measures the extent of platelet aggregation in the presence of P2Y12-inhibitor drugs, with lower PRU levels showing stronger antiplatelet effects.
The primary outcome of the study was severe or massive bleeding by Universal Definition of Perioperative Bleeding (UDPB) class 3 or 4. This is defined as a blood transfusions of more than 5 units of red blood cells or plasma within 24 hours of surgical closure, chest tube drainage of over 1,000 mL in the first 12 hours, and reoperation for bleeding.
Results showed that 4.6% of the early-surgery group had a primary outcome bleeding event, compared with 5.2% of the delayed surgery group, meeting the criteria for noninferiority (P = .0253 for noninferiority).
Individual components of the primary endpoint showed three class 3 (severe) bleeding events in both groups and no class 4 (massive) bleeding events in either group.
In terms of other bleeding outcomes, TIMI CABG bleeding occurred in two patients (3.1%) in the early-surgery group vs. no patients in the delayed group; BARC 4 bleeding occurred in two patients (3.1%) in the early group versus none in the delayed group, and there were no BARC 5 bleeding events in either group.
In the intention-to-treat analysis, ischemic events before surgery occurred in six patients (8.7%) in the delayed group (one myocardial infarction, four cases of recurrent ischemia, and one ventricular tachycardia) versus none in the early group.
Cumulative 6-month ischemic events occurred in nine patients (13.0%) in the delayed group vs. four patients (5.6%) in the early group, the difference being driven by nonfatal MI and recurrent ischemia.
There were no cardiovascular deaths in either group and one all-cause death in both groups.
Patients undergoing early surgery also had a shorter hospitalization, with a median length of stay of 9 days versus 12 days in the delayed group.
Larger trial needed
Commenting on the RAPID CABG study at an AHA press conference, Joanna Chikwe, MD, chair of the cardiac surgery department at Cedars-Sinai Medical Center, Los Angeles, said the results were in line with her practice.
“These results confirm what I already think is safe,” she said. “I’m comfortable going within 48 hours. But we individualize our approach, so it was helpful that the study investigators included platelet reactivity data. The interesting thing for me in this study was the number of adverse events in patients who waited longer.”
Dr. Chikwe said her top-line message was that “Surgery looked incredibly safe; there was amazingly low mortality. And if a patient has an indication for surgery, waiting does not serve you well.”
However, she also cautioned that the trial was somewhat underpowered, with a small number of events that drove the primary outcome, leading to some uncertainty on the results.
“The RAPID trial was helpful, and although it confirms my practice, I think physicians may want to see a larger-powered trial to be convincingly compelled that they should change their practice,” Dr. Chikwe noted.
She added that clinical trials in cardiac surgery are driven by inherent challenges. “Cardiac surgery is not very common, and it is hard to recruit patients into these trials, so you are generally tied to a small number of patients, and you therefore have to be extremely thoughtful about the study design. It is almost a given that you will need to use surrogate endpoints, and the choice of the surrogate endpoint can determine which way the trial goes.”
The RAPID CABG study was funded by the Canadian Institutes of Health Research. Dr. So reports research support, consultancy, or speaker’s fees from AggreDyne, Roche Diagnostics, Fujimori Kogyo, and AstraZeneca Canada. Dr. Mehran reports that her institution has received significant trial funding from AstraZeneca (the manufacturer of ticagrelor).
A version of this article first appeared on Medscape.com.
Patients with acute coronary syndromes who have been taking the antiplatelet medication, ticagrelor, and who need coronary artery bypass surgery (CABG) may be able to safely have the procedure earlier than typically recommended, a new randomized trial suggests.
The RAPID CABG trial found that early surgery 2-3 days after ticagrelor cessation was noninferior in incurring severe or massive perioperative bleeding, compared with waiting 5-7 days. There was also no significant difference in TIMI CABG or Bleeding Academic Research Consortium (BARC) type 4 or 5 bleeding.
Patients in the delayed group had a numerically higher number of ischemic events requiring earlier surgery and had a longer hospital stay.
The study was presented at the American Heart Association scientific sessions.
“RAPID CABG is the first and only randomized controlled trial evaluating the safety of early surgery in patients taking ticagrelor,” said lead investigator Derek So, MD.
Dr. So, a cardiologist at the University of Ottawa Heart Institute and a professor at the University of Ottawa, explained that ticagrelor is a first-line antiplatelet agent for patients with acute coronary syndromes (ACS), but around 10% of patients presenting with ACS require CABG surgery.
A major concern among patients requiring bypass surgery is perioperative bleeding, and it has been shown that patients undergoing urgent bypass within 24 hours of the last dose of ticagrelor have increased mortality. Accordingly, guidelines suggest a waiting period for patients not requiring urgent bypass surgery, Dr. So noted.
Current North American guidelines suggest a waiting period of at least 5 days after stopping ticagrelor before bypass surgery. In contrast, the updated European and Japanese guidelines suggest a waiting period of 3 days.
Dr. So noted that all of the guidelines are based on cohort studies and pharmacodynamic studies, with no randomized evidence. Pharmacodynamic studies have shown that at 48 hours after the last dose of ticagrelor, the level of platelet inhibition drops to the same levels seen with long-term treatment with clopidogrel, a weaker antiplatelet drug, and after 120 hours (5 days) the effect has completely worn off.
Dr. So concluded that these new results from the RAPID CABG trial “may influence future iterations of North American guidelines with reduced waiting prior to bypass surgery” for patients receiving ticagrelor, and “they could also strengthen the level of evidence in European and Asian guidelines.”
Designated discussant of the RAPID CABG trial, Roxana Mehran, MD, professor of medicine at the Icahn School of Medicine at Mount Sinai, New York, said this was a “very important study,” being the only randomized trial to look at this issue to date.
Dr. Mehran noted that the results showed a similar number of major life-threatening bleeding events in the early and delayed groups and met the noninferiority endpoint, but she pointed out that the trial had a small sample size and a small number of events. “Therefore, larger trials are needed to verify these important and encouraging results.”
However, she concluded that these results should be considered in decisions about the timing of bypass surgery in patients receiving ticagrelor. “I will be changing my practice and sending patients earlier based on this data,” she said.
RAPID CABG
RAPID CABG was a physician-initiated multicenter randomized study evaluating the safety of early surgery at 2-3 days after ticagrelor cessation, compared with a delay of 5-7 days among patients presenting with ACS who required nonemergency CABG surgery.
The study enrolled 143 patients with ACS who were receiving ticagrelor and needed CABG surgery. Patients with stenting for culprit lesions, those requiring urgent surgery (less than 24 hours after presentation), and those requiring valve surgery were excluded.
Three patients declined surgery, and several others underwent surgery outside the assigned time window, so the results were based on the per protocol analysis of patients who actually had CABG in the assigned time window: 65 patients in the early CABG group and 58 in the delayed group.
The mean time from last ticagrelor dose to surgery was 3 days in the early group and 6 days in the delayed group.
Platelet reactivity on the VerifyNow test showed more residual antiplatelet activity in the early group, with P2Y12 reaction unit (PRU) levels of 200 (vs. 251 in the delayed group). This test measures the extent of platelet aggregation in the presence of P2Y12-inhibitor drugs, with lower PRU levels showing stronger antiplatelet effects.
The primary outcome of the study was severe or massive bleeding by Universal Definition of Perioperative Bleeding (UDPB) class 3 or 4. This is defined as a blood transfusions of more than 5 units of red blood cells or plasma within 24 hours of surgical closure, chest tube drainage of over 1,000 mL in the first 12 hours, and reoperation for bleeding.
Results showed that 4.6% of the early-surgery group had a primary outcome bleeding event, compared with 5.2% of the delayed surgery group, meeting the criteria for noninferiority (P = .0253 for noninferiority).
Individual components of the primary endpoint showed three class 3 (severe) bleeding events in both groups and no class 4 (massive) bleeding events in either group.
In terms of other bleeding outcomes, TIMI CABG bleeding occurred in two patients (3.1%) in the early-surgery group vs. no patients in the delayed group; BARC 4 bleeding occurred in two patients (3.1%) in the early group versus none in the delayed group, and there were no BARC 5 bleeding events in either group.
In the intention-to-treat analysis, ischemic events before surgery occurred in six patients (8.7%) in the delayed group (one myocardial infarction, four cases of recurrent ischemia, and one ventricular tachycardia) versus none in the early group.
Cumulative 6-month ischemic events occurred in nine patients (13.0%) in the delayed group vs. four patients (5.6%) in the early group, the difference being driven by nonfatal MI and recurrent ischemia.
There were no cardiovascular deaths in either group and one all-cause death in both groups.
Patients undergoing early surgery also had a shorter hospitalization, with a median length of stay of 9 days versus 12 days in the delayed group.
Larger trial needed
Commenting on the RAPID CABG study at an AHA press conference, Joanna Chikwe, MD, chair of the cardiac surgery department at Cedars-Sinai Medical Center, Los Angeles, said the results were in line with her practice.
“These results confirm what I already think is safe,” she said. “I’m comfortable going within 48 hours. But we individualize our approach, so it was helpful that the study investigators included platelet reactivity data. The interesting thing for me in this study was the number of adverse events in patients who waited longer.”
Dr. Chikwe said her top-line message was that “Surgery looked incredibly safe; there was amazingly low mortality. And if a patient has an indication for surgery, waiting does not serve you well.”
However, she also cautioned that the trial was somewhat underpowered, with a small number of events that drove the primary outcome, leading to some uncertainty on the results.
“The RAPID trial was helpful, and although it confirms my practice, I think physicians may want to see a larger-powered trial to be convincingly compelled that they should change their practice,” Dr. Chikwe noted.
She added that clinical trials in cardiac surgery are driven by inherent challenges. “Cardiac surgery is not very common, and it is hard to recruit patients into these trials, so you are generally tied to a small number of patients, and you therefore have to be extremely thoughtful about the study design. It is almost a given that you will need to use surrogate endpoints, and the choice of the surrogate endpoint can determine which way the trial goes.”
The RAPID CABG study was funded by the Canadian Institutes of Health Research. Dr. So reports research support, consultancy, or speaker’s fees from AggreDyne, Roche Diagnostics, Fujimori Kogyo, and AstraZeneca Canada. Dr. Mehran reports that her institution has received significant trial funding from AstraZeneca (the manufacturer of ticagrelor).
A version of this article first appeared on Medscape.com.
Patients with acute coronary syndromes who have been taking the antiplatelet medication, ticagrelor, and who need coronary artery bypass surgery (CABG) may be able to safely have the procedure earlier than typically recommended, a new randomized trial suggests.
The RAPID CABG trial found that early surgery 2-3 days after ticagrelor cessation was noninferior in incurring severe or massive perioperative bleeding, compared with waiting 5-7 days. There was also no significant difference in TIMI CABG or Bleeding Academic Research Consortium (BARC) type 4 or 5 bleeding.
Patients in the delayed group had a numerically higher number of ischemic events requiring earlier surgery and had a longer hospital stay.
The study was presented at the American Heart Association scientific sessions.
“RAPID CABG is the first and only randomized controlled trial evaluating the safety of early surgery in patients taking ticagrelor,” said lead investigator Derek So, MD.
Dr. So, a cardiologist at the University of Ottawa Heart Institute and a professor at the University of Ottawa, explained that ticagrelor is a first-line antiplatelet agent for patients with acute coronary syndromes (ACS), but around 10% of patients presenting with ACS require CABG surgery.
A major concern among patients requiring bypass surgery is perioperative bleeding, and it has been shown that patients undergoing urgent bypass within 24 hours of the last dose of ticagrelor have increased mortality. Accordingly, guidelines suggest a waiting period for patients not requiring urgent bypass surgery, Dr. So noted.
Current North American guidelines suggest a waiting period of at least 5 days after stopping ticagrelor before bypass surgery. In contrast, the updated European and Japanese guidelines suggest a waiting period of 3 days.
Dr. So noted that all of the guidelines are based on cohort studies and pharmacodynamic studies, with no randomized evidence. Pharmacodynamic studies have shown that at 48 hours after the last dose of ticagrelor, the level of platelet inhibition drops to the same levels seen with long-term treatment with clopidogrel, a weaker antiplatelet drug, and after 120 hours (5 days) the effect has completely worn off.
Dr. So concluded that these new results from the RAPID CABG trial “may influence future iterations of North American guidelines with reduced waiting prior to bypass surgery” for patients receiving ticagrelor, and “they could also strengthen the level of evidence in European and Asian guidelines.”
Designated discussant of the RAPID CABG trial, Roxana Mehran, MD, professor of medicine at the Icahn School of Medicine at Mount Sinai, New York, said this was a “very important study,” being the only randomized trial to look at this issue to date.
Dr. Mehran noted that the results showed a similar number of major life-threatening bleeding events in the early and delayed groups and met the noninferiority endpoint, but she pointed out that the trial had a small sample size and a small number of events. “Therefore, larger trials are needed to verify these important and encouraging results.”
However, she concluded that these results should be considered in decisions about the timing of bypass surgery in patients receiving ticagrelor. “I will be changing my practice and sending patients earlier based on this data,” she said.
RAPID CABG
RAPID CABG was a physician-initiated multicenter randomized study evaluating the safety of early surgery at 2-3 days after ticagrelor cessation, compared with a delay of 5-7 days among patients presenting with ACS who required nonemergency CABG surgery.
The study enrolled 143 patients with ACS who were receiving ticagrelor and needed CABG surgery. Patients with stenting for culprit lesions, those requiring urgent surgery (less than 24 hours after presentation), and those requiring valve surgery were excluded.
Three patients declined surgery, and several others underwent surgery outside the assigned time window, so the results were based on the per protocol analysis of patients who actually had CABG in the assigned time window: 65 patients in the early CABG group and 58 in the delayed group.
The mean time from last ticagrelor dose to surgery was 3 days in the early group and 6 days in the delayed group.
Platelet reactivity on the VerifyNow test showed more residual antiplatelet activity in the early group, with P2Y12 reaction unit (PRU) levels of 200 (vs. 251 in the delayed group). This test measures the extent of platelet aggregation in the presence of P2Y12-inhibitor drugs, with lower PRU levels showing stronger antiplatelet effects.
The primary outcome of the study was severe or massive bleeding by Universal Definition of Perioperative Bleeding (UDPB) class 3 or 4. This is defined as a blood transfusions of more than 5 units of red blood cells or plasma within 24 hours of surgical closure, chest tube drainage of over 1,000 mL in the first 12 hours, and reoperation for bleeding.
Results showed that 4.6% of the early-surgery group had a primary outcome bleeding event, compared with 5.2% of the delayed surgery group, meeting the criteria for noninferiority (P = .0253 for noninferiority).
Individual components of the primary endpoint showed three class 3 (severe) bleeding events in both groups and no class 4 (massive) bleeding events in either group.
In terms of other bleeding outcomes, TIMI CABG bleeding occurred in two patients (3.1%) in the early-surgery group vs. no patients in the delayed group; BARC 4 bleeding occurred in two patients (3.1%) in the early group versus none in the delayed group, and there were no BARC 5 bleeding events in either group.
In the intention-to-treat analysis, ischemic events before surgery occurred in six patients (8.7%) in the delayed group (one myocardial infarction, four cases of recurrent ischemia, and one ventricular tachycardia) versus none in the early group.
Cumulative 6-month ischemic events occurred in nine patients (13.0%) in the delayed group vs. four patients (5.6%) in the early group, the difference being driven by nonfatal MI and recurrent ischemia.
There were no cardiovascular deaths in either group and one all-cause death in both groups.
Patients undergoing early surgery also had a shorter hospitalization, with a median length of stay of 9 days versus 12 days in the delayed group.
Larger trial needed
Commenting on the RAPID CABG study at an AHA press conference, Joanna Chikwe, MD, chair of the cardiac surgery department at Cedars-Sinai Medical Center, Los Angeles, said the results were in line with her practice.
“These results confirm what I already think is safe,” she said. “I’m comfortable going within 48 hours. But we individualize our approach, so it was helpful that the study investigators included platelet reactivity data. The interesting thing for me in this study was the number of adverse events in patients who waited longer.”
Dr. Chikwe said her top-line message was that “Surgery looked incredibly safe; there was amazingly low mortality. And if a patient has an indication for surgery, waiting does not serve you well.”
However, she also cautioned that the trial was somewhat underpowered, with a small number of events that drove the primary outcome, leading to some uncertainty on the results.
“The RAPID trial was helpful, and although it confirms my practice, I think physicians may want to see a larger-powered trial to be convincingly compelled that they should change their practice,” Dr. Chikwe noted.
She added that clinical trials in cardiac surgery are driven by inherent challenges. “Cardiac surgery is not very common, and it is hard to recruit patients into these trials, so you are generally tied to a small number of patients, and you therefore have to be extremely thoughtful about the study design. It is almost a given that you will need to use surrogate endpoints, and the choice of the surrogate endpoint can determine which way the trial goes.”
The RAPID CABG study was funded by the Canadian Institutes of Health Research. Dr. So reports research support, consultancy, or speaker’s fees from AggreDyne, Roche Diagnostics, Fujimori Kogyo, and AstraZeneca Canada. Dr. Mehran reports that her institution has received significant trial funding from AstraZeneca (the manufacturer of ticagrelor).
A version of this article first appeared on Medscape.com.
FROM AHA 2021
Concomitant tricuspid-mitral surgery beneficial but with a trade-off
Tricuspid valve repair at the time of mitral valve surgery reduces tricuspid regurgitation progression, but at the cost of more than a fivefold increase in permanent pacemakers, results of a new Cardiothoracic Surgical Trials Network study show.
The results were presented during the opening late-breaking science session at the American Heart Association scientific sessions and published simultaneously in the New England Journal of Medicine.
Tricuspid regurgitation (TR) is common among patients undergoing mitral valve surgery, and there’s broad agreement to intervene when a patient has severe TR. There’s uncertainty, however, about the management of moderate or less TR during mitral valve surgery, which is reflected in current guidelines on the basis of observational data, explained coprimary investigator James Gammie, MD, codirector and surgical director of the Johns Hopkins Heart and Vascular Institute, Baltimore. As a result, rates of concomitant tricuspid-mitral surgery range from 5% to 75% at various centers.
To help fill the gap, Dr. Gammie and colleagues screened 5,208 patients at 29 centers in the United States, Canada, and Germany undergoing surgery for degenerative mitral regurgitation, and randomly assigned 401 patients (75% male) to mitral valve surgery alone or with tricuspid annuloplasty.
Patients had either moderate TR (37%) or less than moderate TR with a dilated tricuspid annulus of at least 40 mm or at least 21 mm/m2 indexed for body surface area. Importantly, there was a uniform surgical approach using undersized (26-30 mm) rigid nonplanar annuloplasty rings to repair the tricuspid valve, he said.
The study’s primary outcome of treatment failure at 2 years was defined as the composite of death, reoperation for TR, or progression of TR from baseline by 2 grades or severe TR.
The primary endpoint occurred in 10.2% of patients who underwent mitral valve surgery alone and 3.9% who underwent concomitant tricuspid annuloplasty (relative risk, 0.37; 95% confidence interval, 0.16-0.86; P = .02).
The endpoint was driven exclusively by less TR progression in the annuloplasty group, with no TR reoperations in either group, observed Dr. Gammie. At 2 years, just 0.6% of the annuloplasty group had severe TR, compared with 5.6% of the surgery-alone group.
The rate of permanent pacemaker implantations, however, jumped from 2.5% with surgery alone to 14.1% with concomitant tricuspid annuloplasty (rate ratio, 5.75; 95% CI, 2.27-14.60). More than half of pacemakers were placed during the first 2 days after surgery.
There was no between-group difference in 2-year rates of all-cause mortality, major adverse cardiac and cerebrovascular events, readmission, quality of life, or functional status.
Less than moderate TR
In a post hoc analysis stratified by baseline TR severity, treatment failure was significantly less common with surgery plus tricuspid annuloplasty among patients with moderate TR (4.5% vs. 18.1%) but not among those with less than moderate TR and tricuspid annular dilation (3.4% vs. 6.1%).
Although the trial was not powered for the subgroup analysis, “these results call into question the idea that less than moderate TR with annular dilation should be an indication for tricuspid valve repair,” Dr. Gammie told this news organization.
“I did not repair the tricuspid valve in the setting of less than moderate TR before the trial, and my practice won’t change; but it will be based on much better evidence,” he added. “Of course, long-term data from our trial will be of great interest.”
Discussant Joseph Woo, MD, chair of surgery at Stanford (Calif.) University, congratulated the authors on a “landmark trial” that addresses a highly relevant problem without a clear-cut indication.
In the 2020 AHA/American College of Cardiology heart valve disease guideline, tricuspid valve surgery is a class I recommendation when there’s severe TR (stages C and D) and left-sided valve surgery but a class IIa recommendation in patients with progressive TR (stage B) with an annular dilation of at least 40 mm.
“The interesting findings in this study include that moderate TR was only 37% of the enrolled patients, and only 97% of the patients with degenerative MR received a mitral valve repair,” Dr. Woo said. “This level of mitral valve repair is perhaps lower than what we might expect at these centers and lower, certainly, than what the AHA/ACC guidelines recommend for surgery on asymptomatic severe mitral regurgitation.”
Panelist Roxanna Mehran, MD, of Icahn School of Medicine at Mount Sinai in New York said, “What I was struck by is that we, as clinicians, believe that if you fix the mitral valve, maybe the tricuspid regurgitation will improve. And it seems like that is not what’s happening, and I think that’s a big takeaway.”
Session comoderator Joanna Chikwe, MD, head of cardiac surgery at Cedars-Sinai Medical Center, Los Angeles, said, “I think we can all agree that severe tricuspid regurgitation is a disaster for patients, and I think the fact the trial is designed for an additional 5 years’ follow-up will hopefully give us some insights into the clinical impact of severe tricuspid regurgitation.”
For now, “a back of the envelope calculation suggests that, for every 20 patients with moderate tricuspid regurgitation who we repair the tricuspid valve in, we would prevent severe tricuspid valve regurgitation in 1 at the price of pacemakers in 2,” she said.
Dr. Chikwe said in an interview that “transcatheter tricuspid repair is increasingly helping these patients, but if you could avoid it with a technique that doesn’t cause incremental harm beyond, perhaps, the need for pacemakers, then this is helpful data that supports that approach.”
The pacemaker burden is not negligible, she said, but also not surprising to surgeons. “If you look at national practice of mitral-tricuspid surgery, it’s about 15% after that, and it’s simply because the conduction tissue is so close to the tricuspid annulus.”
Pacemaker implantation rates, like those for concomitant tricuspid-mitral surgery, are also highly variable, and in some single-center series only around 2%, Dr. Chikwe said. “So that suggests there are technical approaches that can minimize the pacemaker rate [such as] being extremely careful to avoid suture placement around the area of the conduction tissues.”
For some the trade-off between reduced TR progression and the risk of a permanent pacemaker is worth it. “But the fact that the trial didn’t show a difference in survival, a difference in symptoms or quality of life, might suggest that patients you anticipated were high risk for surgery or didn’t have a longer projected survival aren’t going to benefit from what is quite an aggressive surgical approach,” Dr. Chikwe said.
In an accompanying editorial, Dr. Chikwe and Mario Gaudino, MD, of Weill Cornell Medicine, New York, also point out that the “very dynamic nature of tricuspid regurgitation and wide variability in assessing tricuspid annular dilatation are additional compelling reasons to leave lesser regurgitation alone.”
Julia Grapsa, MD, PhD, Kings College and tricuspid service lead at Guys and St. Thomas NHS, London, also pointed to the need for longer-term follow-up but said increased use of imaging markers is also needed to help pinpoint TR progression in these patients. “For the moment, the results should remind imagers and clinicians to refer patients earlier.”
“As a valvular heart physician, I see more and more patients coming in with significant severe tricuspid regurgitation post–mitral valve surgery and because of the time that’s passed, there’s dysfunction of the right heart, the left heart, and it’s very hard to suggest an operation because they’re at high risk,” she said. “So we’re discussing with these patients whether to do an intervention or medical management.”
“Now, with this study, and the pending longer follow-up by the authors, I’m optimistic that the class II recommendation will be class I in order to help our patients treat tricuspid regurgitation earlier than late,” said Dr. Grapsa, who is also editor-in-chief of JACC: Case Reports.
The study was funded by the National Heart, Lung, and Blood Institute and the German Center for Cardiovascular Research. Dr. Gammie reports a consultant/stockholder relationship with Edwards Lifesciences. Dr. Grapsa reports no conflicts of interest. Dr. Chikwe reports that as coprincipal investigator/study director of NCT 05051033 (an NHLBI-sponsored Cardiothoracic Surgical Trials Network trial), she collaborates with several of the study authors.
A version of this article first appeared on Medscape.com.
Tricuspid valve repair at the time of mitral valve surgery reduces tricuspid regurgitation progression, but at the cost of more than a fivefold increase in permanent pacemakers, results of a new Cardiothoracic Surgical Trials Network study show.
The results were presented during the opening late-breaking science session at the American Heart Association scientific sessions and published simultaneously in the New England Journal of Medicine.
Tricuspid regurgitation (TR) is common among patients undergoing mitral valve surgery, and there’s broad agreement to intervene when a patient has severe TR. There’s uncertainty, however, about the management of moderate or less TR during mitral valve surgery, which is reflected in current guidelines on the basis of observational data, explained coprimary investigator James Gammie, MD, codirector and surgical director of the Johns Hopkins Heart and Vascular Institute, Baltimore. As a result, rates of concomitant tricuspid-mitral surgery range from 5% to 75% at various centers.
To help fill the gap, Dr. Gammie and colleagues screened 5,208 patients at 29 centers in the United States, Canada, and Germany undergoing surgery for degenerative mitral regurgitation, and randomly assigned 401 patients (75% male) to mitral valve surgery alone or with tricuspid annuloplasty.
Patients had either moderate TR (37%) or less than moderate TR with a dilated tricuspid annulus of at least 40 mm or at least 21 mm/m2 indexed for body surface area. Importantly, there was a uniform surgical approach using undersized (26-30 mm) rigid nonplanar annuloplasty rings to repair the tricuspid valve, he said.
The study’s primary outcome of treatment failure at 2 years was defined as the composite of death, reoperation for TR, or progression of TR from baseline by 2 grades or severe TR.
The primary endpoint occurred in 10.2% of patients who underwent mitral valve surgery alone and 3.9% who underwent concomitant tricuspid annuloplasty (relative risk, 0.37; 95% confidence interval, 0.16-0.86; P = .02).
The endpoint was driven exclusively by less TR progression in the annuloplasty group, with no TR reoperations in either group, observed Dr. Gammie. At 2 years, just 0.6% of the annuloplasty group had severe TR, compared with 5.6% of the surgery-alone group.
The rate of permanent pacemaker implantations, however, jumped from 2.5% with surgery alone to 14.1% with concomitant tricuspid annuloplasty (rate ratio, 5.75; 95% CI, 2.27-14.60). More than half of pacemakers were placed during the first 2 days after surgery.
There was no between-group difference in 2-year rates of all-cause mortality, major adverse cardiac and cerebrovascular events, readmission, quality of life, or functional status.
Less than moderate TR
In a post hoc analysis stratified by baseline TR severity, treatment failure was significantly less common with surgery plus tricuspid annuloplasty among patients with moderate TR (4.5% vs. 18.1%) but not among those with less than moderate TR and tricuspid annular dilation (3.4% vs. 6.1%).
Although the trial was not powered for the subgroup analysis, “these results call into question the idea that less than moderate TR with annular dilation should be an indication for tricuspid valve repair,” Dr. Gammie told this news organization.
“I did not repair the tricuspid valve in the setting of less than moderate TR before the trial, and my practice won’t change; but it will be based on much better evidence,” he added. “Of course, long-term data from our trial will be of great interest.”
Discussant Joseph Woo, MD, chair of surgery at Stanford (Calif.) University, congratulated the authors on a “landmark trial” that addresses a highly relevant problem without a clear-cut indication.
In the 2020 AHA/American College of Cardiology heart valve disease guideline, tricuspid valve surgery is a class I recommendation when there’s severe TR (stages C and D) and left-sided valve surgery but a class IIa recommendation in patients with progressive TR (stage B) with an annular dilation of at least 40 mm.
“The interesting findings in this study include that moderate TR was only 37% of the enrolled patients, and only 97% of the patients with degenerative MR received a mitral valve repair,” Dr. Woo said. “This level of mitral valve repair is perhaps lower than what we might expect at these centers and lower, certainly, than what the AHA/ACC guidelines recommend for surgery on asymptomatic severe mitral regurgitation.”
Panelist Roxanna Mehran, MD, of Icahn School of Medicine at Mount Sinai in New York said, “What I was struck by is that we, as clinicians, believe that if you fix the mitral valve, maybe the tricuspid regurgitation will improve. And it seems like that is not what’s happening, and I think that’s a big takeaway.”
Session comoderator Joanna Chikwe, MD, head of cardiac surgery at Cedars-Sinai Medical Center, Los Angeles, said, “I think we can all agree that severe tricuspid regurgitation is a disaster for patients, and I think the fact the trial is designed for an additional 5 years’ follow-up will hopefully give us some insights into the clinical impact of severe tricuspid regurgitation.”
For now, “a back of the envelope calculation suggests that, for every 20 patients with moderate tricuspid regurgitation who we repair the tricuspid valve in, we would prevent severe tricuspid valve regurgitation in 1 at the price of pacemakers in 2,” she said.
Dr. Chikwe said in an interview that “transcatheter tricuspid repair is increasingly helping these patients, but if you could avoid it with a technique that doesn’t cause incremental harm beyond, perhaps, the need for pacemakers, then this is helpful data that supports that approach.”
The pacemaker burden is not negligible, she said, but also not surprising to surgeons. “If you look at national practice of mitral-tricuspid surgery, it’s about 15% after that, and it’s simply because the conduction tissue is so close to the tricuspid annulus.”
Pacemaker implantation rates, like those for concomitant tricuspid-mitral surgery, are also highly variable, and in some single-center series only around 2%, Dr. Chikwe said. “So that suggests there are technical approaches that can minimize the pacemaker rate [such as] being extremely careful to avoid suture placement around the area of the conduction tissues.”
For some the trade-off between reduced TR progression and the risk of a permanent pacemaker is worth it. “But the fact that the trial didn’t show a difference in survival, a difference in symptoms or quality of life, might suggest that patients you anticipated were high risk for surgery or didn’t have a longer projected survival aren’t going to benefit from what is quite an aggressive surgical approach,” Dr. Chikwe said.
In an accompanying editorial, Dr. Chikwe and Mario Gaudino, MD, of Weill Cornell Medicine, New York, also point out that the “very dynamic nature of tricuspid regurgitation and wide variability in assessing tricuspid annular dilatation are additional compelling reasons to leave lesser regurgitation alone.”
Julia Grapsa, MD, PhD, Kings College and tricuspid service lead at Guys and St. Thomas NHS, London, also pointed to the need for longer-term follow-up but said increased use of imaging markers is also needed to help pinpoint TR progression in these patients. “For the moment, the results should remind imagers and clinicians to refer patients earlier.”
“As a valvular heart physician, I see more and more patients coming in with significant severe tricuspid regurgitation post–mitral valve surgery and because of the time that’s passed, there’s dysfunction of the right heart, the left heart, and it’s very hard to suggest an operation because they’re at high risk,” she said. “So we’re discussing with these patients whether to do an intervention or medical management.”
“Now, with this study, and the pending longer follow-up by the authors, I’m optimistic that the class II recommendation will be class I in order to help our patients treat tricuspid regurgitation earlier than late,” said Dr. Grapsa, who is also editor-in-chief of JACC: Case Reports.
The study was funded by the National Heart, Lung, and Blood Institute and the German Center for Cardiovascular Research. Dr. Gammie reports a consultant/stockholder relationship with Edwards Lifesciences. Dr. Grapsa reports no conflicts of interest. Dr. Chikwe reports that as coprincipal investigator/study director of NCT 05051033 (an NHLBI-sponsored Cardiothoracic Surgical Trials Network trial), she collaborates with several of the study authors.
A version of this article first appeared on Medscape.com.
Tricuspid valve repair at the time of mitral valve surgery reduces tricuspid regurgitation progression, but at the cost of more than a fivefold increase in permanent pacemakers, results of a new Cardiothoracic Surgical Trials Network study show.
The results were presented during the opening late-breaking science session at the American Heart Association scientific sessions and published simultaneously in the New England Journal of Medicine.
Tricuspid regurgitation (TR) is common among patients undergoing mitral valve surgery, and there’s broad agreement to intervene when a patient has severe TR. There’s uncertainty, however, about the management of moderate or less TR during mitral valve surgery, which is reflected in current guidelines on the basis of observational data, explained coprimary investigator James Gammie, MD, codirector and surgical director of the Johns Hopkins Heart and Vascular Institute, Baltimore. As a result, rates of concomitant tricuspid-mitral surgery range from 5% to 75% at various centers.
To help fill the gap, Dr. Gammie and colleagues screened 5,208 patients at 29 centers in the United States, Canada, and Germany undergoing surgery for degenerative mitral regurgitation, and randomly assigned 401 patients (75% male) to mitral valve surgery alone or with tricuspid annuloplasty.
Patients had either moderate TR (37%) or less than moderate TR with a dilated tricuspid annulus of at least 40 mm or at least 21 mm/m2 indexed for body surface area. Importantly, there was a uniform surgical approach using undersized (26-30 mm) rigid nonplanar annuloplasty rings to repair the tricuspid valve, he said.
The study’s primary outcome of treatment failure at 2 years was defined as the composite of death, reoperation for TR, or progression of TR from baseline by 2 grades or severe TR.
The primary endpoint occurred in 10.2% of patients who underwent mitral valve surgery alone and 3.9% who underwent concomitant tricuspid annuloplasty (relative risk, 0.37; 95% confidence interval, 0.16-0.86; P = .02).
The endpoint was driven exclusively by less TR progression in the annuloplasty group, with no TR reoperations in either group, observed Dr. Gammie. At 2 years, just 0.6% of the annuloplasty group had severe TR, compared with 5.6% of the surgery-alone group.
The rate of permanent pacemaker implantations, however, jumped from 2.5% with surgery alone to 14.1% with concomitant tricuspid annuloplasty (rate ratio, 5.75; 95% CI, 2.27-14.60). More than half of pacemakers were placed during the first 2 days after surgery.
There was no between-group difference in 2-year rates of all-cause mortality, major adverse cardiac and cerebrovascular events, readmission, quality of life, or functional status.
Less than moderate TR
In a post hoc analysis stratified by baseline TR severity, treatment failure was significantly less common with surgery plus tricuspid annuloplasty among patients with moderate TR (4.5% vs. 18.1%) but not among those with less than moderate TR and tricuspid annular dilation (3.4% vs. 6.1%).
Although the trial was not powered for the subgroup analysis, “these results call into question the idea that less than moderate TR with annular dilation should be an indication for tricuspid valve repair,” Dr. Gammie told this news organization.
“I did not repair the tricuspid valve in the setting of less than moderate TR before the trial, and my practice won’t change; but it will be based on much better evidence,” he added. “Of course, long-term data from our trial will be of great interest.”
Discussant Joseph Woo, MD, chair of surgery at Stanford (Calif.) University, congratulated the authors on a “landmark trial” that addresses a highly relevant problem without a clear-cut indication.
In the 2020 AHA/American College of Cardiology heart valve disease guideline, tricuspid valve surgery is a class I recommendation when there’s severe TR (stages C and D) and left-sided valve surgery but a class IIa recommendation in patients with progressive TR (stage B) with an annular dilation of at least 40 mm.
“The interesting findings in this study include that moderate TR was only 37% of the enrolled patients, and only 97% of the patients with degenerative MR received a mitral valve repair,” Dr. Woo said. “This level of mitral valve repair is perhaps lower than what we might expect at these centers and lower, certainly, than what the AHA/ACC guidelines recommend for surgery on asymptomatic severe mitral regurgitation.”
Panelist Roxanna Mehran, MD, of Icahn School of Medicine at Mount Sinai in New York said, “What I was struck by is that we, as clinicians, believe that if you fix the mitral valve, maybe the tricuspid regurgitation will improve. And it seems like that is not what’s happening, and I think that’s a big takeaway.”
Session comoderator Joanna Chikwe, MD, head of cardiac surgery at Cedars-Sinai Medical Center, Los Angeles, said, “I think we can all agree that severe tricuspid regurgitation is a disaster for patients, and I think the fact the trial is designed for an additional 5 years’ follow-up will hopefully give us some insights into the clinical impact of severe tricuspid regurgitation.”
For now, “a back of the envelope calculation suggests that, for every 20 patients with moderate tricuspid regurgitation who we repair the tricuspid valve in, we would prevent severe tricuspid valve regurgitation in 1 at the price of pacemakers in 2,” she said.
Dr. Chikwe said in an interview that “transcatheter tricuspid repair is increasingly helping these patients, but if you could avoid it with a technique that doesn’t cause incremental harm beyond, perhaps, the need for pacemakers, then this is helpful data that supports that approach.”
The pacemaker burden is not negligible, she said, but also not surprising to surgeons. “If you look at national practice of mitral-tricuspid surgery, it’s about 15% after that, and it’s simply because the conduction tissue is so close to the tricuspid annulus.”
Pacemaker implantation rates, like those for concomitant tricuspid-mitral surgery, are also highly variable, and in some single-center series only around 2%, Dr. Chikwe said. “So that suggests there are technical approaches that can minimize the pacemaker rate [such as] being extremely careful to avoid suture placement around the area of the conduction tissues.”
For some the trade-off between reduced TR progression and the risk of a permanent pacemaker is worth it. “But the fact that the trial didn’t show a difference in survival, a difference in symptoms or quality of life, might suggest that patients you anticipated were high risk for surgery or didn’t have a longer projected survival aren’t going to benefit from what is quite an aggressive surgical approach,” Dr. Chikwe said.
In an accompanying editorial, Dr. Chikwe and Mario Gaudino, MD, of Weill Cornell Medicine, New York, also point out that the “very dynamic nature of tricuspid regurgitation and wide variability in assessing tricuspid annular dilatation are additional compelling reasons to leave lesser regurgitation alone.”
Julia Grapsa, MD, PhD, Kings College and tricuspid service lead at Guys and St. Thomas NHS, London, also pointed to the need for longer-term follow-up but said increased use of imaging markers is also needed to help pinpoint TR progression in these patients. “For the moment, the results should remind imagers and clinicians to refer patients earlier.”
“As a valvular heart physician, I see more and more patients coming in with significant severe tricuspid regurgitation post–mitral valve surgery and because of the time that’s passed, there’s dysfunction of the right heart, the left heart, and it’s very hard to suggest an operation because they’re at high risk,” she said. “So we’re discussing with these patients whether to do an intervention or medical management.”
“Now, with this study, and the pending longer follow-up by the authors, I’m optimistic that the class II recommendation will be class I in order to help our patients treat tricuspid regurgitation earlier than late,” said Dr. Grapsa, who is also editor-in-chief of JACC: Case Reports.
The study was funded by the National Heart, Lung, and Blood Institute and the German Center for Cardiovascular Research. Dr. Gammie reports a consultant/stockholder relationship with Edwards Lifesciences. Dr. Grapsa reports no conflicts of interest. Dr. Chikwe reports that as coprincipal investigator/study director of NCT 05051033 (an NHLBI-sponsored Cardiothoracic Surgical Trials Network trial), she collaborates with several of the study authors.
A version of this article first appeared on Medscape.com.
FROM AHA 2021
VEST: External sheath for CABG vein grafts shows promise
A novel, stent-shaped device that provides external buttressing to saphenous vein grafts placed during coronary artery bypass surgery was safe, but failed to improve 12-month patency of vein grafts, in a prospective study with 224 patients.
Despite the neutral result, “we are cautiously optimistic” about the prospects for the device to reduce the risk for failure of coronary vein grafts caused by intimal hyperplasia of the internal lining of the vein graft that leads to graft occlusion, said John D. Puskas, MD, lead investigator of the study, who reported the results at the American Heart Association scientific sessions.
In the trial, called VEST, each buttressed vein graft was compared with a similar, unbuttressed graft in the same patient. Perhaps the biggest issue faced by the study was the unexpectedly high 42% rate of vein-graft occlusion or diffuse disease seen in the studied grafts 12 months after placement. This rate included both the vein grafts placed within the external buttressing device and control vein grafts that underwent the same postharvest preparation but weren’t placed within an external sheath, which is formed from woven cobalt chromium wire.
Dr. Puskas attributed this high failure rate to the need to remove all adventitia tissue and fat from the harvested saphenous vein segments before grafting, a step required to allow the vein conduit to fit inside the wire sheath. The potential exists to further optimize this step, he said in an interview.
“I was very surprised by the low 12-month patency rates” in both treatment arms of the study, commented Joanna Chikwe, MD, chair of cardiac surgery at Cedars-Sinai Medical Center in Los Angeles.
External scaffold to counter blood pressure
The concept behind the external buttressing sheath is that the walls of saphenous vein grafts are not structured to accommodate arterial blood pressure, and over time this pressure produces accelerated atherosclerotic changes and premature occlusion and graft failure. The external support is supposed to impede vein wall dilatation, reduce irregularities of the inner lumen surface, and improve hemodynamics and shear stress.
The VEST trial ran at 14 U.S. and 3 Canadian centers and enrolled 224 patients scheduled for coronary artery bypass grafting with planned use of at least two saphenous vein grafts, along with an internal mammary artery graft for the left anterior descending coronary artery. The patients averaged 66 years of age, 21% were women, and 51% had diabetes.
All patients successfully underwent their surgery, with 203 returning after 12 months for their primary follow-up examination by intravascular ultrasound. However, because of the high rate of vein occlusion or development of diffuse intragraft disease, successful intravascular ultrasound (IVUS) examination of both vein grafts occurred in only 113 patients.
The IVUS examinations showed that the study’s primary endpoint, the intimal hyperplasia area in all 224 patients who received vein grafts, averaged 5.11 mm2 in the grafts placed within the wire sleeve and 5.79 mm2 for control grafts not placed in the wire sheath, a difference that fell short of significance (P = .072). However, in a sensitivity analysis that focused on only the 113 patients who had both vein grafts successfully assayed by IVUS, the average area of intimal hyperplasia was 4.58 mm2 in the grafts within a wire sheath and 5.12 mm2 in the control grafts, a significant difference (P = .043).
The combined rate of major adverse cardiovascular events after 12 months was 7%, including a 2% mortality rate, a 3% stroke rate, and 3% rate of Mis, outcomes that suggested “no safety signals,” said Dr. Puskas, chair of cardiovascular surgery at Mount Sinai St. Luke’s in New York.
Although a large body of evidence has shown the superiority of arterial grafts for long-term graft patency, vein grafts have many advantages that have maintained them as the most widely used conduits worldwide for coronary artery bypass surgery, Dr. Puskas said.
Saphenous vein segments are readily available from patients and easy to harvest; they nicely conform to the coronary arteries that require bypass, rarely leak, are easy to work with, and can successfully hold stitches. Surgeons performing coronary artery bypass are unlikely to abandon vein grafts anytime soon, which makes improving the performance of vein grafts a priority, Dr. Puskas said.
The study was sponsored by Vascular Graft Solutions, the company developing the venous graft external support. Dr. Puskas and Dr. Chikwe had no disclosures related to the study.
A novel, stent-shaped device that provides external buttressing to saphenous vein grafts placed during coronary artery bypass surgery was safe, but failed to improve 12-month patency of vein grafts, in a prospective study with 224 patients.
Despite the neutral result, “we are cautiously optimistic” about the prospects for the device to reduce the risk for failure of coronary vein grafts caused by intimal hyperplasia of the internal lining of the vein graft that leads to graft occlusion, said John D. Puskas, MD, lead investigator of the study, who reported the results at the American Heart Association scientific sessions.
In the trial, called VEST, each buttressed vein graft was compared with a similar, unbuttressed graft in the same patient. Perhaps the biggest issue faced by the study was the unexpectedly high 42% rate of vein-graft occlusion or diffuse disease seen in the studied grafts 12 months after placement. This rate included both the vein grafts placed within the external buttressing device and control vein grafts that underwent the same postharvest preparation but weren’t placed within an external sheath, which is formed from woven cobalt chromium wire.
Dr. Puskas attributed this high failure rate to the need to remove all adventitia tissue and fat from the harvested saphenous vein segments before grafting, a step required to allow the vein conduit to fit inside the wire sheath. The potential exists to further optimize this step, he said in an interview.
“I was very surprised by the low 12-month patency rates” in both treatment arms of the study, commented Joanna Chikwe, MD, chair of cardiac surgery at Cedars-Sinai Medical Center in Los Angeles.
External scaffold to counter blood pressure
The concept behind the external buttressing sheath is that the walls of saphenous vein grafts are not structured to accommodate arterial blood pressure, and over time this pressure produces accelerated atherosclerotic changes and premature occlusion and graft failure. The external support is supposed to impede vein wall dilatation, reduce irregularities of the inner lumen surface, and improve hemodynamics and shear stress.
The VEST trial ran at 14 U.S. and 3 Canadian centers and enrolled 224 patients scheduled for coronary artery bypass grafting with planned use of at least two saphenous vein grafts, along with an internal mammary artery graft for the left anterior descending coronary artery. The patients averaged 66 years of age, 21% were women, and 51% had diabetes.
All patients successfully underwent their surgery, with 203 returning after 12 months for their primary follow-up examination by intravascular ultrasound. However, because of the high rate of vein occlusion or development of diffuse intragraft disease, successful intravascular ultrasound (IVUS) examination of both vein grafts occurred in only 113 patients.
The IVUS examinations showed that the study’s primary endpoint, the intimal hyperplasia area in all 224 patients who received vein grafts, averaged 5.11 mm2 in the grafts placed within the wire sleeve and 5.79 mm2 for control grafts not placed in the wire sheath, a difference that fell short of significance (P = .072). However, in a sensitivity analysis that focused on only the 113 patients who had both vein grafts successfully assayed by IVUS, the average area of intimal hyperplasia was 4.58 mm2 in the grafts within a wire sheath and 5.12 mm2 in the control grafts, a significant difference (P = .043).
The combined rate of major adverse cardiovascular events after 12 months was 7%, including a 2% mortality rate, a 3% stroke rate, and 3% rate of Mis, outcomes that suggested “no safety signals,” said Dr. Puskas, chair of cardiovascular surgery at Mount Sinai St. Luke’s in New York.
Although a large body of evidence has shown the superiority of arterial grafts for long-term graft patency, vein grafts have many advantages that have maintained them as the most widely used conduits worldwide for coronary artery bypass surgery, Dr. Puskas said.
Saphenous vein segments are readily available from patients and easy to harvest; they nicely conform to the coronary arteries that require bypass, rarely leak, are easy to work with, and can successfully hold stitches. Surgeons performing coronary artery bypass are unlikely to abandon vein grafts anytime soon, which makes improving the performance of vein grafts a priority, Dr. Puskas said.
The study was sponsored by Vascular Graft Solutions, the company developing the venous graft external support. Dr. Puskas and Dr. Chikwe had no disclosures related to the study.
A novel, stent-shaped device that provides external buttressing to saphenous vein grafts placed during coronary artery bypass surgery was safe, but failed to improve 12-month patency of vein grafts, in a prospective study with 224 patients.
Despite the neutral result, “we are cautiously optimistic” about the prospects for the device to reduce the risk for failure of coronary vein grafts caused by intimal hyperplasia of the internal lining of the vein graft that leads to graft occlusion, said John D. Puskas, MD, lead investigator of the study, who reported the results at the American Heart Association scientific sessions.
In the trial, called VEST, each buttressed vein graft was compared with a similar, unbuttressed graft in the same patient. Perhaps the biggest issue faced by the study was the unexpectedly high 42% rate of vein-graft occlusion or diffuse disease seen in the studied grafts 12 months after placement. This rate included both the vein grafts placed within the external buttressing device and control vein grafts that underwent the same postharvest preparation but weren’t placed within an external sheath, which is formed from woven cobalt chromium wire.
Dr. Puskas attributed this high failure rate to the need to remove all adventitia tissue and fat from the harvested saphenous vein segments before grafting, a step required to allow the vein conduit to fit inside the wire sheath. The potential exists to further optimize this step, he said in an interview.
“I was very surprised by the low 12-month patency rates” in both treatment arms of the study, commented Joanna Chikwe, MD, chair of cardiac surgery at Cedars-Sinai Medical Center in Los Angeles.
External scaffold to counter blood pressure
The concept behind the external buttressing sheath is that the walls of saphenous vein grafts are not structured to accommodate arterial blood pressure, and over time this pressure produces accelerated atherosclerotic changes and premature occlusion and graft failure. The external support is supposed to impede vein wall dilatation, reduce irregularities of the inner lumen surface, and improve hemodynamics and shear stress.
The VEST trial ran at 14 U.S. and 3 Canadian centers and enrolled 224 patients scheduled for coronary artery bypass grafting with planned use of at least two saphenous vein grafts, along with an internal mammary artery graft for the left anterior descending coronary artery. The patients averaged 66 years of age, 21% were women, and 51% had diabetes.
All patients successfully underwent their surgery, with 203 returning after 12 months for their primary follow-up examination by intravascular ultrasound. However, because of the high rate of vein occlusion or development of diffuse intragraft disease, successful intravascular ultrasound (IVUS) examination of both vein grafts occurred in only 113 patients.
The IVUS examinations showed that the study’s primary endpoint, the intimal hyperplasia area in all 224 patients who received vein grafts, averaged 5.11 mm2 in the grafts placed within the wire sleeve and 5.79 mm2 for control grafts not placed in the wire sheath, a difference that fell short of significance (P = .072). However, in a sensitivity analysis that focused on only the 113 patients who had both vein grafts successfully assayed by IVUS, the average area of intimal hyperplasia was 4.58 mm2 in the grafts within a wire sheath and 5.12 mm2 in the control grafts, a significant difference (P = .043).
The combined rate of major adverse cardiovascular events after 12 months was 7%, including a 2% mortality rate, a 3% stroke rate, and 3% rate of Mis, outcomes that suggested “no safety signals,” said Dr. Puskas, chair of cardiovascular surgery at Mount Sinai St. Luke’s in New York.
Although a large body of evidence has shown the superiority of arterial grafts for long-term graft patency, vein grafts have many advantages that have maintained them as the most widely used conduits worldwide for coronary artery bypass surgery, Dr. Puskas said.
Saphenous vein segments are readily available from patients and easy to harvest; they nicely conform to the coronary arteries that require bypass, rarely leak, are easy to work with, and can successfully hold stitches. Surgeons performing coronary artery bypass are unlikely to abandon vein grafts anytime soon, which makes improving the performance of vein grafts a priority, Dr. Puskas said.
The study was sponsored by Vascular Graft Solutions, the company developing the venous graft external support. Dr. Puskas and Dr. Chikwe had no disclosures related to the study.
FROM AHA 2021
AHA 2021 puts scientific dialogue, health equity center stage
Virtual platforms democratized scientific meetings during the COVID-19 pandemic but, as any meeting-goer will tell you, it’s the questions from the floor and the back-and-forth of an expert panel that often reveal the importance of and/or problems with a presentation. It’s the scrutiny that makes the science resonate, especially in this postfactual era.
The all-virtual American Heart Association Scientific Sessions 2021 is looking to recreate the engagement of an in-person meeting by offering more live interactive events. They range from seven late-breaking science (LBS) sessions to Saturday’s fireside chat on the Pfizer and Moderna COVID-19 vaccines and Monday’s dive into the controversial new AHA/American College of Cardiology Chest Pain guidelines.
To help digest the latest science, attendees will be able to have their questions answered in real-time via Slido, meet with the trialists, and hear live commentary from key opinion leaders after the live events. A networking function will also allow attendees and exhibitors to chat or meet virtually.
“In this day and age, many people pretty quickly can get access to the science but it’s what I call the IC sort of phenomenon – the presentation of the information, the context of the information, putting it into how I’m going to use it in my practice, and then the critical appraisal – that’s what most people want at the Scientific Sessions,” program committee chair Manesh R. Patel, MD, of Duke University School of Medicine, said in an interview. “We’re all craving ways in which we can interact with one another to put things in context.”
Plans for a hybrid in-person meeting in Boston were scuttled in September because of the Delta variant surge, but the theme of the meeting remained: “One World. Together for Science.” Attendees will be able to access more than 500 live and on-demand sessions including 117 oral abstracts, 286 poster sessions, 59 moderated digital posters, and over a dozen sessions focused on strategies to promote health equity.
“Last year there was a Presidential Session and a statement on structural racism, so we wanted to take the next step and say, What are the ways in which people are starting to interact and do things to make a difference?” explained Dr. Patel. “So, this year, you’ll see different versions of that from the Main Event session, which has some case vignettes and a panel discussion, to other health equity sessions that describe not just COVID care, but blood pressure care, maternal-fetal medicine, and congenital kids. Wherever we can, we’ve tried to infuse it throughout the sessions and will continue to.”
Late-breaking science
The LBS sessions kick off at 9:30 a.m. ET Saturday with AVATAR, a randomized trial of aortic valve replacement vs. watchful waiting in severe aortic stenosis proved asymptomatic through exercise testing.
“The findings of that trial, depending on what they are, could certainly impact clinical practice because it’s a very common scenario in which we have elderly patients with aortic valve stenosis that might be severe but they may not be symptomatic,” he said.
It’s followed by a randomized trial from the Cardiothoracic Surgical Trials Network, examining whether tricuspid repair at the time of mitral valve surgery leads to beneficial outcomes. “I think it’s a pretty important study,” Dr. Patel said, “because it’ll again affect how we think about our clinical practice.”
Rounding out the LBS.01 session is RAPID CABG, comparing early vs. delayed coronary bypass graft surgery (CABG) in patients with acute coronary syndromes on ticagrelor, and the pivotal U.S. VEST trial of an external support device already approved in Europe for saphenous vein grafts during CABG.
Saturday’s LBS.02 at 3:00 p.m. ET is devoted to hypertension and looks at how the COVID-19 pandemic affected blood pressure control. There’s also a study of remotely delivered hypertension and lipid management in 10,000 patients across the Partners Healthcare System and a cluster randomized trial of a village doctor–led blood pressure intervention in rural China.
Sunday’s LBS.03 at 8:00 a.m. ET is focused on atrial arrhythmias, starting with the CRAVE trial examining the effect of caffeine consumption on cardiac ectopy burden in 108 patients using an N-of-1 design and 2-day blocks on and off caffeine. “There’s an ability to identify a dose response that you get arrhythmias when you increase the amount of coffee you drink vs. not in an individual, so I think that will be likely discussed a lot and worth paying attention to,” Dr. Patel said.
The session also includes GIRAF, a comparison of cognitive outcomes with dabigatran (Pradaxa) vs. warfarin (Coumadin) in nonvalvular atrial fibrillation (AF); PALACS, a randomized trial examining whether left-sided pericardiotomy prevents AF after cardiac surgery; and AMAZE, which study sponsor AtriCure revealed missed its primary efficacy endpoint of freedom from AF with the LARIAT suture delivery device for left atrial appendage closure plus pulmonary vein isolation.
LBS.04 at 3:30 p.m. ET Sunday takes on digital health, with results from the nonrandomized Fitbit Heart Study on AF notifications from 450,000 participants wearing a single-lead ECG patch. “A lot of technologies claim that they can detect things, and we should ask that people go through the rigorous evaluation to see if they in fact do. So, in that respect, I think it›s an important step,” observed Dr. Patel.
Also on tap is I-STOP-AFib, another N-of-1 study using mobile apps and the AliveCor device to identify individual AF triggers; and REVeAL-HF, a 4,000-patient study examining whether electronic alerts that provide clinicians with prognostic information on their heart failure (HF) patients will reduce mortality and 30-day HF hospitalizations.
LBS.05 at 5:00 p.m. ET provides new information from EMPEROR-Preserved in HF with preserved ejection fraction and main results from EMPULSE, also using the sodium-glucose cotransporter 2 (SGLT2) inhibitor empagliflozin (Jardiance) in 530 patients hospitalized for acute HF.
The session also features CHIEF-HF, a randomized trial leveraging mobile technologies to test whether 12 weeks of another SGLT2 inhibitor, canagliflozin (Invokana), is superior to placebo for improving HF symptoms; and DREAM-HF, a comparison of transendocardial delivery of allogeneic mesenchymal precursor cells vs. a sham comparator in chronic HF as a result of left ventricular systolic dysfunction.
Monday’s LBS.06 at 8:00 a.m. ET details the safety and cholesterol-lowering efficacy of MK-0616, an investigational oral PCSK9 inhibitor. “It’s just a phase 2 [trial], but there’s interest in an oral PCSK9 inhibitor, given that the current ones are subcutaneous,” Dr. Patel said.
Results will also be presented from PREPARE-IT 2, which tested icosapent ethyl vs. placebo in outpatients with COVID-19. In the recently reported PREPARE-IT 1, a loading dose of icosapent ethyl failed to reduce the risk of hospitalization with SARS-CoV-2 infection among at-risk individuals.
LBS.07 at 11:00 a.m. Monday completes the late-breakers with new results from ASCEND, this time examining the effect of aspirin on dementia and cognitive impairment in patients with diabetes.
Next up is a look at the effectiveness of P2Y12 inhibitors in hospitalized patients with COVID-19 in the adaptive ACTIV-4a trial, followed by results of the pivotal phase 3 REVERSE-IT trial of bentracimab, a recombinant human monoclonal antibody antigen fragment designed to reverse the antiplatelet activity of ticagrelor in the event of major bleeding or when urgent surgery is needed.
Closing out the session is AXIOMATIC-TKR, a double-blind comparison of the safety and efficacy of the investigational oral factor XI anticoagulant JNJ-70033093 vs. subcutaneous enoxaparin (Lovenox) in elective total knee replacement.
For those searching for more AHA-related science online, the Resuscitation Science Symposium (ReSS) will run from this Friday through Sunday and the Quality of Care and Outcomes Research (QCOR) Scientific Sessions will take the stage next Monday, Nov. 15.
A version of this article first appeared on Medscape.com.
Virtual platforms democratized scientific meetings during the COVID-19 pandemic but, as any meeting-goer will tell you, it’s the questions from the floor and the back-and-forth of an expert panel that often reveal the importance of and/or problems with a presentation. It’s the scrutiny that makes the science resonate, especially in this postfactual era.
The all-virtual American Heart Association Scientific Sessions 2021 is looking to recreate the engagement of an in-person meeting by offering more live interactive events. They range from seven late-breaking science (LBS) sessions to Saturday’s fireside chat on the Pfizer and Moderna COVID-19 vaccines and Monday’s dive into the controversial new AHA/American College of Cardiology Chest Pain guidelines.
To help digest the latest science, attendees will be able to have their questions answered in real-time via Slido, meet with the trialists, and hear live commentary from key opinion leaders after the live events. A networking function will also allow attendees and exhibitors to chat or meet virtually.
“In this day and age, many people pretty quickly can get access to the science but it’s what I call the IC sort of phenomenon – the presentation of the information, the context of the information, putting it into how I’m going to use it in my practice, and then the critical appraisal – that’s what most people want at the Scientific Sessions,” program committee chair Manesh R. Patel, MD, of Duke University School of Medicine, said in an interview. “We’re all craving ways in which we can interact with one another to put things in context.”
Plans for a hybrid in-person meeting in Boston were scuttled in September because of the Delta variant surge, but the theme of the meeting remained: “One World. Together for Science.” Attendees will be able to access more than 500 live and on-demand sessions including 117 oral abstracts, 286 poster sessions, 59 moderated digital posters, and over a dozen sessions focused on strategies to promote health equity.
“Last year there was a Presidential Session and a statement on structural racism, so we wanted to take the next step and say, What are the ways in which people are starting to interact and do things to make a difference?” explained Dr. Patel. “So, this year, you’ll see different versions of that from the Main Event session, which has some case vignettes and a panel discussion, to other health equity sessions that describe not just COVID care, but blood pressure care, maternal-fetal medicine, and congenital kids. Wherever we can, we’ve tried to infuse it throughout the sessions and will continue to.”
Late-breaking science
The LBS sessions kick off at 9:30 a.m. ET Saturday with AVATAR, a randomized trial of aortic valve replacement vs. watchful waiting in severe aortic stenosis proved asymptomatic through exercise testing.
“The findings of that trial, depending on what they are, could certainly impact clinical practice because it’s a very common scenario in which we have elderly patients with aortic valve stenosis that might be severe but they may not be symptomatic,” he said.
It’s followed by a randomized trial from the Cardiothoracic Surgical Trials Network, examining whether tricuspid repair at the time of mitral valve surgery leads to beneficial outcomes. “I think it’s a pretty important study,” Dr. Patel said, “because it’ll again affect how we think about our clinical practice.”
Rounding out the LBS.01 session is RAPID CABG, comparing early vs. delayed coronary bypass graft surgery (CABG) in patients with acute coronary syndromes on ticagrelor, and the pivotal U.S. VEST trial of an external support device already approved in Europe for saphenous vein grafts during CABG.
Saturday’s LBS.02 at 3:00 p.m. ET is devoted to hypertension and looks at how the COVID-19 pandemic affected blood pressure control. There’s also a study of remotely delivered hypertension and lipid management in 10,000 patients across the Partners Healthcare System and a cluster randomized trial of a village doctor–led blood pressure intervention in rural China.
Sunday’s LBS.03 at 8:00 a.m. ET is focused on atrial arrhythmias, starting with the CRAVE trial examining the effect of caffeine consumption on cardiac ectopy burden in 108 patients using an N-of-1 design and 2-day blocks on and off caffeine. “There’s an ability to identify a dose response that you get arrhythmias when you increase the amount of coffee you drink vs. not in an individual, so I think that will be likely discussed a lot and worth paying attention to,” Dr. Patel said.
The session also includes GIRAF, a comparison of cognitive outcomes with dabigatran (Pradaxa) vs. warfarin (Coumadin) in nonvalvular atrial fibrillation (AF); PALACS, a randomized trial examining whether left-sided pericardiotomy prevents AF after cardiac surgery; and AMAZE, which study sponsor AtriCure revealed missed its primary efficacy endpoint of freedom from AF with the LARIAT suture delivery device for left atrial appendage closure plus pulmonary vein isolation.
LBS.04 at 3:30 p.m. ET Sunday takes on digital health, with results from the nonrandomized Fitbit Heart Study on AF notifications from 450,000 participants wearing a single-lead ECG patch. “A lot of technologies claim that they can detect things, and we should ask that people go through the rigorous evaluation to see if they in fact do. So, in that respect, I think it›s an important step,” observed Dr. Patel.
Also on tap is I-STOP-AFib, another N-of-1 study using mobile apps and the AliveCor device to identify individual AF triggers; and REVeAL-HF, a 4,000-patient study examining whether electronic alerts that provide clinicians with prognostic information on their heart failure (HF) patients will reduce mortality and 30-day HF hospitalizations.
LBS.05 at 5:00 p.m. ET provides new information from EMPEROR-Preserved in HF with preserved ejection fraction and main results from EMPULSE, also using the sodium-glucose cotransporter 2 (SGLT2) inhibitor empagliflozin (Jardiance) in 530 patients hospitalized for acute HF.
The session also features CHIEF-HF, a randomized trial leveraging mobile technologies to test whether 12 weeks of another SGLT2 inhibitor, canagliflozin (Invokana), is superior to placebo for improving HF symptoms; and DREAM-HF, a comparison of transendocardial delivery of allogeneic mesenchymal precursor cells vs. a sham comparator in chronic HF as a result of left ventricular systolic dysfunction.
Monday’s LBS.06 at 8:00 a.m. ET details the safety and cholesterol-lowering efficacy of MK-0616, an investigational oral PCSK9 inhibitor. “It’s just a phase 2 [trial], but there’s interest in an oral PCSK9 inhibitor, given that the current ones are subcutaneous,” Dr. Patel said.
Results will also be presented from PREPARE-IT 2, which tested icosapent ethyl vs. placebo in outpatients with COVID-19. In the recently reported PREPARE-IT 1, a loading dose of icosapent ethyl failed to reduce the risk of hospitalization with SARS-CoV-2 infection among at-risk individuals.
LBS.07 at 11:00 a.m. Monday completes the late-breakers with new results from ASCEND, this time examining the effect of aspirin on dementia and cognitive impairment in patients with diabetes.
Next up is a look at the effectiveness of P2Y12 inhibitors in hospitalized patients with COVID-19 in the adaptive ACTIV-4a trial, followed by results of the pivotal phase 3 REVERSE-IT trial of bentracimab, a recombinant human monoclonal antibody antigen fragment designed to reverse the antiplatelet activity of ticagrelor in the event of major bleeding or when urgent surgery is needed.
Closing out the session is AXIOMATIC-TKR, a double-blind comparison of the safety and efficacy of the investigational oral factor XI anticoagulant JNJ-70033093 vs. subcutaneous enoxaparin (Lovenox) in elective total knee replacement.
For those searching for more AHA-related science online, the Resuscitation Science Symposium (ReSS) will run from this Friday through Sunday and the Quality of Care and Outcomes Research (QCOR) Scientific Sessions will take the stage next Monday, Nov. 15.
A version of this article first appeared on Medscape.com.
Virtual platforms democratized scientific meetings during the COVID-19 pandemic but, as any meeting-goer will tell you, it’s the questions from the floor and the back-and-forth of an expert panel that often reveal the importance of and/or problems with a presentation. It’s the scrutiny that makes the science resonate, especially in this postfactual era.
The all-virtual American Heart Association Scientific Sessions 2021 is looking to recreate the engagement of an in-person meeting by offering more live interactive events. They range from seven late-breaking science (LBS) sessions to Saturday’s fireside chat on the Pfizer and Moderna COVID-19 vaccines and Monday’s dive into the controversial new AHA/American College of Cardiology Chest Pain guidelines.
To help digest the latest science, attendees will be able to have their questions answered in real-time via Slido, meet with the trialists, and hear live commentary from key opinion leaders after the live events. A networking function will also allow attendees and exhibitors to chat or meet virtually.
“In this day and age, many people pretty quickly can get access to the science but it’s what I call the IC sort of phenomenon – the presentation of the information, the context of the information, putting it into how I’m going to use it in my practice, and then the critical appraisal – that’s what most people want at the Scientific Sessions,” program committee chair Manesh R. Patel, MD, of Duke University School of Medicine, said in an interview. “We’re all craving ways in which we can interact with one another to put things in context.”
Plans for a hybrid in-person meeting in Boston were scuttled in September because of the Delta variant surge, but the theme of the meeting remained: “One World. Together for Science.” Attendees will be able to access more than 500 live and on-demand sessions including 117 oral abstracts, 286 poster sessions, 59 moderated digital posters, and over a dozen sessions focused on strategies to promote health equity.
“Last year there was a Presidential Session and a statement on structural racism, so we wanted to take the next step and say, What are the ways in which people are starting to interact and do things to make a difference?” explained Dr. Patel. “So, this year, you’ll see different versions of that from the Main Event session, which has some case vignettes and a panel discussion, to other health equity sessions that describe not just COVID care, but blood pressure care, maternal-fetal medicine, and congenital kids. Wherever we can, we’ve tried to infuse it throughout the sessions and will continue to.”
Late-breaking science
The LBS sessions kick off at 9:30 a.m. ET Saturday with AVATAR, a randomized trial of aortic valve replacement vs. watchful waiting in severe aortic stenosis proved asymptomatic through exercise testing.
“The findings of that trial, depending on what they are, could certainly impact clinical practice because it’s a very common scenario in which we have elderly patients with aortic valve stenosis that might be severe but they may not be symptomatic,” he said.
It’s followed by a randomized trial from the Cardiothoracic Surgical Trials Network, examining whether tricuspid repair at the time of mitral valve surgery leads to beneficial outcomes. “I think it’s a pretty important study,” Dr. Patel said, “because it’ll again affect how we think about our clinical practice.”
Rounding out the LBS.01 session is RAPID CABG, comparing early vs. delayed coronary bypass graft surgery (CABG) in patients with acute coronary syndromes on ticagrelor, and the pivotal U.S. VEST trial of an external support device already approved in Europe for saphenous vein grafts during CABG.
Saturday’s LBS.02 at 3:00 p.m. ET is devoted to hypertension and looks at how the COVID-19 pandemic affected blood pressure control. There’s also a study of remotely delivered hypertension and lipid management in 10,000 patients across the Partners Healthcare System and a cluster randomized trial of a village doctor–led blood pressure intervention in rural China.
Sunday’s LBS.03 at 8:00 a.m. ET is focused on atrial arrhythmias, starting with the CRAVE trial examining the effect of caffeine consumption on cardiac ectopy burden in 108 patients using an N-of-1 design and 2-day blocks on and off caffeine. “There’s an ability to identify a dose response that you get arrhythmias when you increase the amount of coffee you drink vs. not in an individual, so I think that will be likely discussed a lot and worth paying attention to,” Dr. Patel said.
The session also includes GIRAF, a comparison of cognitive outcomes with dabigatran (Pradaxa) vs. warfarin (Coumadin) in nonvalvular atrial fibrillation (AF); PALACS, a randomized trial examining whether left-sided pericardiotomy prevents AF after cardiac surgery; and AMAZE, which study sponsor AtriCure revealed missed its primary efficacy endpoint of freedom from AF with the LARIAT suture delivery device for left atrial appendage closure plus pulmonary vein isolation.
LBS.04 at 3:30 p.m. ET Sunday takes on digital health, with results from the nonrandomized Fitbit Heart Study on AF notifications from 450,000 participants wearing a single-lead ECG patch. “A lot of technologies claim that they can detect things, and we should ask that people go through the rigorous evaluation to see if they in fact do. So, in that respect, I think it›s an important step,” observed Dr. Patel.
Also on tap is I-STOP-AFib, another N-of-1 study using mobile apps and the AliveCor device to identify individual AF triggers; and REVeAL-HF, a 4,000-patient study examining whether electronic alerts that provide clinicians with prognostic information on their heart failure (HF) patients will reduce mortality and 30-day HF hospitalizations.
LBS.05 at 5:00 p.m. ET provides new information from EMPEROR-Preserved in HF with preserved ejection fraction and main results from EMPULSE, also using the sodium-glucose cotransporter 2 (SGLT2) inhibitor empagliflozin (Jardiance) in 530 patients hospitalized for acute HF.
The session also features CHIEF-HF, a randomized trial leveraging mobile technologies to test whether 12 weeks of another SGLT2 inhibitor, canagliflozin (Invokana), is superior to placebo for improving HF symptoms; and DREAM-HF, a comparison of transendocardial delivery of allogeneic mesenchymal precursor cells vs. a sham comparator in chronic HF as a result of left ventricular systolic dysfunction.
Monday’s LBS.06 at 8:00 a.m. ET details the safety and cholesterol-lowering efficacy of MK-0616, an investigational oral PCSK9 inhibitor. “It’s just a phase 2 [trial], but there’s interest in an oral PCSK9 inhibitor, given that the current ones are subcutaneous,” Dr. Patel said.
Results will also be presented from PREPARE-IT 2, which tested icosapent ethyl vs. placebo in outpatients with COVID-19. In the recently reported PREPARE-IT 1, a loading dose of icosapent ethyl failed to reduce the risk of hospitalization with SARS-CoV-2 infection among at-risk individuals.
LBS.07 at 11:00 a.m. Monday completes the late-breakers with new results from ASCEND, this time examining the effect of aspirin on dementia and cognitive impairment in patients with diabetes.
Next up is a look at the effectiveness of P2Y12 inhibitors in hospitalized patients with COVID-19 in the adaptive ACTIV-4a trial, followed by results of the pivotal phase 3 REVERSE-IT trial of bentracimab, a recombinant human monoclonal antibody antigen fragment designed to reverse the antiplatelet activity of ticagrelor in the event of major bleeding or when urgent surgery is needed.
Closing out the session is AXIOMATIC-TKR, a double-blind comparison of the safety and efficacy of the investigational oral factor XI anticoagulant JNJ-70033093 vs. subcutaneous enoxaparin (Lovenox) in elective total knee replacement.
For those searching for more AHA-related science online, the Resuscitation Science Symposium (ReSS) will run from this Friday through Sunday and the Quality of Care and Outcomes Research (QCOR) Scientific Sessions will take the stage next Monday, Nov. 15.
A version of this article first appeared on Medscape.com.
FROM AHA 2021