TBD Meeting (3309-17)

WASHINGTON – Orbital atherectomy (OA) was associated with a lower risk of in-hospital mortality than rotational atherectomy (RA) in female, obese, and elderly study groups, according to data from a prospective observational study.

Each procedure was employed to treat coronary artery calcifications (CAC) in the elderly and the obese prior to percutaneous interventions (PCI).

The data comparing OA with RA in these populations were drawn from the Clinical Outcomes of Atherectomy Prior to PCI (COAP) study, for which Perwaiz M. Meraj, MD, director of structural heart and peripheral vascular disease at the North Shore-LIJ Hospital, Manhasset, N.Y., served as the senior author.

Each set of data, as well as a third set of data comparing OA to RA in female patients, was presented separately at CRT 2017, sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

In the comparison of OA to RA in the elderly, a substudy known as COAP-75, the focus was on patients 75 years of age or older who underwent either OA or RA to remove calcified coronary lesions within the context of PCI. As with the obese and female subgroups, the elderly patients in this study were drawn from 35,590 patients who underwent PCI at one of five tertiary care hospitals in a recent 5-year period.

Of the 310 elderly patients undergoing atherectomy, 117 were treated with OA and 193 with RA. The median lesion lengths and diameters were not significantly different between the two groups. Although OA was less likely to be performed through femoral access (53% vs. 68.9%; P = .005), no other measured differences in procedure were significant, with one exception: Fluoroscopy exposure was of shorter duration in the OA, versus the RA, arm (24.0 minutes vs. 29.4 minutes; P = .005).

On univariate analysis, the lower rate of in-hospital deaths for OA did not reach statistical significance (0% vs. 1.55%; P = .176), but the difference was significant on multivariate-adjusted analysis (P = .034).

There were also higher numerical rates of perforation, tamponade, heart failure, and red blood cell transfusion in the RA group, versus the OA group, but only the latter was significant (P = .002) on multivariate-adjusted analysis.

In contrast, there was a higher rate of MI among those treated with OA, rather than RA (17.1% vs. 13.5%), which was not significant on univariate analysis (P = .573) but did reach significance on adjusted-multivariate analysis (P = .008).

Overall, the authors suggested that both OA and RA are safe procedures, but the mortality reduction suggests a potential relative advantage for OA.

Similar conclusions were reached in the substudy of patients with obesity, called COAP-BMI. In that study, 222 patients were evaluated, of which 91 were treated with OA and 131 were treated with RA.

In-hospital mortality was 0% in the group treated with OA, compared with 3.05% in the group treated with RA (P = .004). The rate of in-hospital major adverse cardiovascular events was also significantly lower in the OA group (15.4% vs. 16.3%; P = .007).

“The rate of secondary outcomes for myocardial infarction and stroke were similar between groups, as were individual procedural safety endpoints, including dissection, perforation, tamponade, or heart failure,” reported Evan Shlofmitz, MD, a cardiology fellow at Northwell Health, Manhasset, N.Y., who collaborated with Dr. Meraj and presented the data at the meeting.

As with the study in the elderly, for which Dr. Shlofmitz was also a coauthor, the study in the obese is the first to compare OA and RA, he noted.

In a third substudy, called COAP-Female, OA and RA were compared in 247 women with CAC who were undergoing PCI.

Again, in-hospital mortality rates were higher in those treated with RA, compared with OA, but the difference was not significant (0.79% vs. 0%; P = .254). There were also no significant differences in any secondary outcomes, including MI, or in any procedural complications, such as rates of dissection, perforation, or major bleeding.

The only significant difference identified in the study was a lower fluoroscopy time in those treated with OA relative to RA (21.3 minutes vs. 27.6 minutes; P = .001).

Although fluoroscopy time was not a primary endpoint, “a reduction in radiation exposure has important ramifications for both patients and operators,” Dr. Shlofmitz noted. He suggested that objective data on outcomes in females is needed, because this group has been “severely underrepresented in atherectomy trials.”

Overall, the substudies reinforce a large body of evidence that atherectomy is safe and effective for achieving revascularization in patients undergoing PCI who have CAC, Dr. Shlofmitz concluded. However, the significant mortality advantage for OA relative to RA in the elderly and the obese suggests that the approaches may not be interchangeable.

Dr. Shlofmitz reported no financial relationships to disclose.

WASHINGTON – Orbital atherectomy (OA) was associated with a lower risk of in-hospital mortality than rotational atherectomy (RA) in female, obese, and elderly study groups, according to data from a prospective observational study.

Each procedure was employed to treat coronary artery calcifications (CAC) in the elderly and the obese prior to percutaneous interventions (PCI).

The data comparing OA with RA in these populations were drawn from the Clinical Outcomes of Atherectomy Prior to PCI (COAP) study, for which Perwaiz M. Meraj, MD, director of structural heart and peripheral vascular disease at the North Shore-LIJ Hospital, Manhasset, N.Y., served as the senior author.

Each set of data, as well as a third set of data comparing OA to RA in female patients, was presented separately at CRT 2017, sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

In the comparison of OA to RA in the elderly, a substudy known as COAP-75, the focus was on patients 75 years of age or older who underwent either OA or RA to remove calcified coronary lesions within the context of PCI. As with the obese and female subgroups, the elderly patients in this study were drawn from 35,590 patients who underwent PCI at one of five tertiary care hospitals in a recent 5-year period.

Of the 310 elderly patients undergoing atherectomy, 117 were treated with OA and 193 with RA. The median lesion lengths and diameters were not significantly different between the two groups. Although OA was less likely to be performed through femoral access (53% vs. 68.9%; P = .005), no other measured differences in procedure were significant, with one exception: Fluoroscopy exposure was of shorter duration in the OA, versus the RA, arm (24.0 minutes vs. 29.4 minutes; P = .005).

On univariate analysis, the lower rate of in-hospital deaths for OA did not reach statistical significance (0% vs. 1.55%; P = .176), but the difference was significant on multivariate-adjusted analysis (P = .034).

There were also higher numerical rates of perforation, tamponade, heart failure, and red blood cell transfusion in the RA group, versus the OA group, but only the latter was significant (P = .002) on multivariate-adjusted analysis.

In contrast, there was a higher rate of MI among those treated with OA, rather than RA (17.1% vs. 13.5%), which was not significant on univariate analysis (P = .573) but did reach significance on adjusted-multivariate analysis (P = .008).

Overall, the authors suggested that both OA and RA are safe procedures, but the mortality reduction suggests a potential relative advantage for OA.

Similar conclusions were reached in the substudy of patients with obesity, called COAP-BMI. In that study, 222 patients were evaluated, of which 91 were treated with OA and 131 were treated with RA.

In-hospital mortality was 0% in the group treated with OA, compared with 3.05% in the group treated with RA (P = .004). The rate of in-hospital major adverse cardiovascular events was also significantly lower in the OA group (15.4% vs. 16.3%; P = .007).

“The rate of secondary outcomes for myocardial infarction and stroke were similar between groups, as were individual procedural safety endpoints, including dissection, perforation, tamponade, or heart failure,” reported Evan Shlofmitz, MD, a cardiology fellow at Northwell Health, Manhasset, N.Y., who collaborated with Dr. Meraj and presented the data at the meeting.

As with the study in the elderly, for which Dr. Shlofmitz was also a coauthor, the study in the obese is the first to compare OA and RA, he noted.

In a third substudy, called COAP-Female, OA and RA were compared in 247 women with CAC who were undergoing PCI.

Again, in-hospital mortality rates were higher in those treated with RA, compared with OA, but the difference was not significant (0.79% vs. 0%; P = .254). There were also no significant differences in any secondary outcomes, including MI, or in any procedural complications, such as rates of dissection, perforation, or major bleeding.

The only significant difference identified in the study was a lower fluoroscopy time in those treated with OA relative to RA (21.3 minutes vs. 27.6 minutes; P = .001).

Although fluoroscopy time was not a primary endpoint, “a reduction in radiation exposure has important ramifications for both patients and operators,” Dr. Shlofmitz noted. He suggested that objective data on outcomes in females is needed, because this group has been “severely underrepresented in atherectomy trials.”

Overall, the substudies reinforce a large body of evidence that atherectomy is safe and effective for achieving revascularization in patients undergoing PCI who have CAC, Dr. Shlofmitz concluded. However, the significant mortality advantage for OA relative to RA in the elderly and the obese suggests that the approaches may not be interchangeable.

Dr. Shlofmitz reported no financial relationships to disclose.

WASHINGTON – Orbital atherectomy (OA) was associated with a lower risk of in-hospital mortality than rotational atherectomy (RA) in female, obese, and elderly study groups, according to data from a prospective observational study.

Each procedure was employed to treat coronary artery calcifications (CAC) in the elderly and the obese prior to percutaneous interventions (PCI).

The data comparing OA with RA in these populations were drawn from the Clinical Outcomes of Atherectomy Prior to PCI (COAP) study, for which Perwaiz M. Meraj, MD, director of structural heart and peripheral vascular disease at the North Shore-LIJ Hospital, Manhasset, N.Y., served as the senior author.

Each set of data, as well as a third set of data comparing OA to RA in female patients, was presented separately at CRT 2017, sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

In the comparison of OA to RA in the elderly, a substudy known as COAP-75, the focus was on patients 75 years of age or older who underwent either OA or RA to remove calcified coronary lesions within the context of PCI. As with the obese and female subgroups, the elderly patients in this study were drawn from 35,590 patients who underwent PCI at one of five tertiary care hospitals in a recent 5-year period.

Of the 310 elderly patients undergoing atherectomy, 117 were treated with OA and 193 with RA. The median lesion lengths and diameters were not significantly different between the two groups. Although OA was less likely to be performed through femoral access (53% vs. 68.9%; P = .005), no other measured differences in procedure were significant, with one exception: Fluoroscopy exposure was of shorter duration in the OA, versus the RA, arm (24.0 minutes vs. 29.4 minutes; P = .005).

On univariate analysis, the lower rate of in-hospital deaths for OA did not reach statistical significance (0% vs. 1.55%; P = .176), but the difference was significant on multivariate-adjusted analysis (P = .034).

There were also higher numerical rates of perforation, tamponade, heart failure, and red blood cell transfusion in the RA group, versus the OA group, but only the latter was significant (P = .002) on multivariate-adjusted analysis.

In contrast, there was a higher rate of MI among those treated with OA, rather than RA (17.1% vs. 13.5%), which was not significant on univariate analysis (P = .573) but did reach significance on adjusted-multivariate analysis (P = .008).

Overall, the authors suggested that both OA and RA are safe procedures, but the mortality reduction suggests a potential relative advantage for OA.

Similar conclusions were reached in the substudy of patients with obesity, called COAP-BMI. In that study, 222 patients were evaluated, of which 91 were treated with OA and 131 were treated with RA.

In-hospital mortality was 0% in the group treated with OA, compared with 3.05% in the group treated with RA (P = .004). The rate of in-hospital major adverse cardiovascular events was also significantly lower in the OA group (15.4% vs. 16.3%; P = .007).

“The rate of secondary outcomes for myocardial infarction and stroke were similar between groups, as were individual procedural safety endpoints, including dissection, perforation, tamponade, or heart failure,” reported Evan Shlofmitz, MD, a cardiology fellow at Northwell Health, Manhasset, N.Y., who collaborated with Dr. Meraj and presented the data at the meeting.

As with the study in the elderly, for which Dr. Shlofmitz was also a coauthor, the study in the obese is the first to compare OA and RA, he noted.

In a third substudy, called COAP-Female, OA and RA were compared in 247 women with CAC who were undergoing PCI.

Again, in-hospital mortality rates were higher in those treated with RA, compared with OA, but the difference was not significant (0.79% vs. 0%; P = .254). There were also no significant differences in any secondary outcomes, including MI, or in any procedural complications, such as rates of dissection, perforation, or major bleeding.

The only significant difference identified in the study was a lower fluoroscopy time in those treated with OA relative to RA (21.3 minutes vs. 27.6 minutes; P = .001).

Although fluoroscopy time was not a primary endpoint, “a reduction in radiation exposure has important ramifications for both patients and operators,” Dr. Shlofmitz noted. He suggested that objective data on outcomes in females is needed, because this group has been “severely underrepresented in atherectomy trials.”

Overall, the substudies reinforce a large body of evidence that atherectomy is safe and effective for achieving revascularization in patients undergoing PCI who have CAC, Dr. Shlofmitz concluded. However, the significant mortality advantage for OA relative to RA in the elderly and the obese suggests that the approaches may not be interchangeable.

Dr. Shlofmitz reported no financial relationships to disclose.

WASHINGTON – The risk of adverse events from a transcatheter aortic valve replacement (TAVR) does not appear to be significantly increased in those who have undergone a recent percutaneous intervention (PCI), according to a matched retrospective analysis.

“PCI prior to TAVR in patients with severe aortic stenosis and significant coronary artery disease appears to be feasible and safe,” reported Ashwat S. Dhillon, MD, a cardiology fellow at the University of Southern California, Los Angeles, at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

The conclusion that PCI can be performed safely prior to TAVR was drawn from a series of 286 patients treated with TAVR over a nearly 5-year period. Within this group, 29 patients underwent PCI for CAD within 30 days prior to TAVR. They were matched in a 1:1 fashion based on age, sex, history of prior myocardial infarction, and left ventricular ejection fraction to patients undergoing PCI without subsequent TAVR.

The primary endpoint of the analysis was a composite of major in-hospital adverse cardiovascular events (MACE) that included MI and stroke. In addition, the two groups were compared for mortality and readmission rates 30 days after TAVR.

Most of the patients (69%) were male, and the mean age was 77 years. About 20% had a prior MI, roughly 30% had a prior coronary artery bypass graft procedure, and approximately 30% had a prior PCI. There were numerical differences in the rates of hypertension, chronic kidney disease, and diabetes when the two groups were compared, but none were statistically significant.

The procedural details of the PCI were also similar, according to Dr. Dhillon. Although there was a significantly greater proportion of patients treated for lesions in the left circumflex artery in the group that did not undergo TAVR (31.03% vs. 3.45%; P = .02), there were no significant differences in procedures performed in other arteries. There were also no significant differences in the average number of stents and the average total stent length for those who underwent TAVR relative to those who did not.

The rate of in-hospital MI was 14% in both groups. No patient in either group had a stroke. At 30 days, mortality was 3% in each group. Although 30-day readmissions were higher in the group that underwent both PCI and TAVR than those who underwent PCI alone (10% vs. 0%), the difference did not reach significance.

Data evaluating the safety of performing PCI and TAVR procedures in close proximity is needed because “a significant proportion of patients with severe aortic stenosis have coexisting and significant CAD,” Dr. Dhillon explained. Although he suggested that a larger pool of data is needed to confirm the preliminary findings of this study, he suggested that these data are reassuring.

WASHINGTON – The risk of adverse events from a transcatheter aortic valve replacement (TAVR) does not appear to be significantly increased in those who have undergone a recent percutaneous intervention (PCI), according to a matched retrospective analysis.

“PCI prior to TAVR in patients with severe aortic stenosis and significant coronary artery disease appears to be feasible and safe,” reported Ashwat S. Dhillon, MD, a cardiology fellow at the University of Southern California, Los Angeles, at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

The conclusion that PCI can be performed safely prior to TAVR was drawn from a series of 286 patients treated with TAVR over a nearly 5-year period. Within this group, 29 patients underwent PCI for CAD within 30 days prior to TAVR. They were matched in a 1:1 fashion based on age, sex, history of prior myocardial infarction, and left ventricular ejection fraction to patients undergoing PCI without subsequent TAVR.

The primary endpoint of the analysis was a composite of major in-hospital adverse cardiovascular events (MACE) that included MI and stroke. In addition, the two groups were compared for mortality and readmission rates 30 days after TAVR.

Most of the patients (69%) were male, and the mean age was 77 years. About 20% had a prior MI, roughly 30% had a prior coronary artery bypass graft procedure, and approximately 30% had a prior PCI. There were numerical differences in the rates of hypertension, chronic kidney disease, and diabetes when the two groups were compared, but none were statistically significant.

The procedural details of the PCI were also similar, according to Dr. Dhillon. Although there was a significantly greater proportion of patients treated for lesions in the left circumflex artery in the group that did not undergo TAVR (31.03% vs. 3.45%; P = .02), there were no significant differences in procedures performed in other arteries. There were also no significant differences in the average number of stents and the average total stent length for those who underwent TAVR relative to those who did not.

The rate of in-hospital MI was 14% in both groups. No patient in either group had a stroke. At 30 days, mortality was 3% in each group. Although 30-day readmissions were higher in the group that underwent both PCI and TAVR than those who underwent PCI alone (10% vs. 0%), the difference did not reach significance.

Data evaluating the safety of performing PCI and TAVR procedures in close proximity is needed because “a significant proportion of patients with severe aortic stenosis have coexisting and significant CAD,” Dr. Dhillon explained. Although he suggested that a larger pool of data is needed to confirm the preliminary findings of this study, he suggested that these data are reassuring.

WASHINGTON – The risk of adverse events from a transcatheter aortic valve replacement (TAVR) does not appear to be significantly increased in those who have undergone a recent percutaneous intervention (PCI), according to a matched retrospective analysis.

“PCI prior to TAVR in patients with severe aortic stenosis and significant coronary artery disease appears to be feasible and safe,” reported Ashwat S. Dhillon, MD, a cardiology fellow at the University of Southern California, Los Angeles, at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

The conclusion that PCI can be performed safely prior to TAVR was drawn from a series of 286 patients treated with TAVR over a nearly 5-year period. Within this group, 29 patients underwent PCI for CAD within 30 days prior to TAVR. They were matched in a 1:1 fashion based on age, sex, history of prior myocardial infarction, and left ventricular ejection fraction to patients undergoing PCI without subsequent TAVR.

The primary endpoint of the analysis was a composite of major in-hospital adverse cardiovascular events (MACE) that included MI and stroke. In addition, the two groups were compared for mortality and readmission rates 30 days after TAVR.

Most of the patients (69%) were male, and the mean age was 77 years. About 20% had a prior MI, roughly 30% had a prior coronary artery bypass graft procedure, and approximately 30% had a prior PCI. There were numerical differences in the rates of hypertension, chronic kidney disease, and diabetes when the two groups were compared, but none were statistically significant.

The procedural details of the PCI were also similar, according to Dr. Dhillon. Although there was a significantly greater proportion of patients treated for lesions in the left circumflex artery in the group that did not undergo TAVR (31.03% vs. 3.45%; P = .02), there were no significant differences in procedures performed in other arteries. There were also no significant differences in the average number of stents and the average total stent length for those who underwent TAVR relative to those who did not.

The rate of in-hospital MI was 14% in both groups. No patient in either group had a stroke. At 30 days, mortality was 3% in each group. Although 30-day readmissions were higher in the group that underwent both PCI and TAVR than those who underwent PCI alone (10% vs. 0%), the difference did not reach significance.

Data evaluating the safety of performing PCI and TAVR procedures in close proximity is needed because “a significant proportion of patients with severe aortic stenosis have coexisting and significant CAD,” Dr. Dhillon explained. Although he suggested that a larger pool of data is needed to confirm the preliminary findings of this study, he suggested that these data are reassuring.

WASHINGTON – A new device may be the best opportunity yet to achieve sustained blood pressure control in individuals aged 60 years and older, according to Paul Sobotka, MD, Chief Scientific Officer at ROX Medical, the maker of the device.

The experimental device is an arteriovenous coupler that provides an anastomosis between artery and vein to lower arterial volume and reduce blood pressure due to a structural cause. The device has already performed well in initial clinical studies, including a controlled, open-label trial, he reported at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

WASHINGTON – A new device may be the best opportunity yet to achieve sustained blood pressure control in individuals aged 60 years and older, according to Paul Sobotka, MD, Chief Scientific Officer at ROX Medical, the maker of the device.

The experimental device is an arteriovenous coupler that provides an anastomosis between artery and vein to lower arterial volume and reduce blood pressure due to a structural cause. The device has already performed well in initial clinical studies, including a controlled, open-label trial, he reported at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

WASHINGTON – A new device may be the best opportunity yet to achieve sustained blood pressure control in individuals aged 60 years and older, according to Paul Sobotka, MD, Chief Scientific Officer at ROX Medical, the maker of the device.

The experimental device is an arteriovenous coupler that provides an anastomosis between artery and vein to lower arterial volume and reduce blood pressure due to a structural cause. The device has already performed well in initial clinical studies, including a controlled, open-label trial, he reported at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

WASHINGTON – The interventional cardiology team at Geisinger Medical Center, Danville, Pa., reorganized their care for ST segment elevation MI (STEMI) in 2004 to improve their door-to-balloon angioplasty times. Their highly successful efforts soon streamlined the process, placing Geisinger in the top 10% nationally for low average door-to-balloon (DTB) times.

Then, Geisinger began to see their DTB times creep up.

After witnessing a 5- to 10-minute increase in DTB times for STEMI patients – whether picked up by ambulance, appearing in the emergency department (ED), or referred from neighboring hospitals – James Blankenship, MD, director of the division of cardiology, and fellow Geisinger researchers took on an institutional analysis, which was presented at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

Their analysis failed to identify a single explanation, but it did reinforce the importance of constantly reinvigorating processes, Dr. Blankenship said. And their analysis indicated that delays don’t necessarily translate into poorer outcomes.

One proposed explanation was that delays had been caused by an increased reliance on radial rather than femoral catheter access. Dr. Blankenship cited studies suggesting that radial access increases DTB times by 1 to 12 minutes. The proportion of percutaneous coronary interventions performed radially at Geisinger had risen from 2% to 85% over the time period that DTB times had risen.

“There is evidence of benefit from radial access, so even if it slows you down a few minutes, it may be worth doing,” Dr. Blankenship noted. However, when this variable was evaluated, the DTB times were, if anything, slightly faster with radial relative to femoral access.

Another theory was that the decision to provide fellows with a greater role in STEMI management had produced treatment delays. In the cath lab at Geisinger, the increased fellow participation “correlated perfectly” with the decline in DTB times, according to Dr. Blankenship. However, a close look at this variable failed to show any meaningful impact on DTB times.

Changes in process were also examined. For one example, a form must now be completed documenting airway assessment. However, Dr. Blankenship found that filling out this form only takes about a minute and could account for only a small part of the observed loss.

The most significant cause for the increased DTB times among STEMI patients presenting in the ED may well have been a 2012 change in the configuration of the hospital. Prior to 2012, the distance from the ED to the cath lab was less than 100 yards and a 1-minute walk. After the change in the configuration, the cath lab was approximately 7 minutes away, a change that “correlated somewhat” to a prolongation in DTB times.

Similarly, regional hospital STEMI referral patterns changed when a hospital in relatively close proximity opened a cath lab. Up until that time, most referrals had been a 5-minute helicopter transfer, according to Dr. Blankenship. Afterwards, some helicopter transfer times rose to 25 minutes.

Yet, no explanation seemed to be more important than simply ensuring that new staff understand and adhere to the processes. Recounting his experience with a “secret shopper” approach in which he called Geisinger posing as a referring physician to report a potential STEMI, he was disappointed to reach a staff member uncertain of the meaning of the term STEMI.

“STEMI systems need a lot of maintenance,” Dr. Blankenship said. He cautioned that staff changes are common and frequent, making it important to continually assess whether all the participants in delivering STEMI care understand their role.

Some published studies challenge the importance of small changes in DTB times as a predictor of STEMI survival, according to Dr. Blankenship, citing one national survey unable to link a reduction in DTB times with a change in in-hospital mortality (N Engl J Med. 2013;369:901-09). However, he has been more convinced by those studies that do show a relationship. He cited one large study that found an 8% loss in the mortality benefit for each 10-minute delay in DTB (Lancet. 2015;385:1114-22).

Rapid DTB times cannot be divorced from quality of care, Dr. Blankenship said. He cited an experience at one center in which an aggressive program for reducing DTB times led to an increase in mortality among false-positive patients. “It is okay to sacrifice time for quality.”

It was at the 2016 CRT meeting that Dr. Blankenship first provided data showing the decline in DTB times at his institution. At that time and prior to the more comprehensive evaluation of the reasons for the delay presented at this year’s meeting, he speculated that it may be just a question of fatigue from sustaining a rapid response posture over several years.

“My original observation, that after a while you just get tired, is probably still true,” he said.

WASHINGTON – The interventional cardiology team at Geisinger Medical Center, Danville, Pa., reorganized their care for ST segment elevation MI (STEMI) in 2004 to improve their door-to-balloon angioplasty times. Their highly successful efforts soon streamlined the process, placing Geisinger in the top 10% nationally for low average door-to-balloon (DTB) times.

Then, Geisinger began to see their DTB times creep up.

After witnessing a 5- to 10-minute increase in DTB times for STEMI patients – whether picked up by ambulance, appearing in the emergency department (ED), or referred from neighboring hospitals – James Blankenship, MD, director of the division of cardiology, and fellow Geisinger researchers took on an institutional analysis, which was presented at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

Their analysis failed to identify a single explanation, but it did reinforce the importance of constantly reinvigorating processes, Dr. Blankenship said. And their analysis indicated that delays don’t necessarily translate into poorer outcomes.

One proposed explanation was that delays had been caused by an increased reliance on radial rather than femoral catheter access. Dr. Blankenship cited studies suggesting that radial access increases DTB times by 1 to 12 minutes. The proportion of percutaneous coronary interventions performed radially at Geisinger had risen from 2% to 85% over the time period that DTB times had risen.

“There is evidence of benefit from radial access, so even if it slows you down a few minutes, it may be worth doing,” Dr. Blankenship noted. However, when this variable was evaluated, the DTB times were, if anything, slightly faster with radial relative to femoral access.

Another theory was that the decision to provide fellows with a greater role in STEMI management had produced treatment delays. In the cath lab at Geisinger, the increased fellow participation “correlated perfectly” with the decline in DTB times, according to Dr. Blankenship. However, a close look at this variable failed to show any meaningful impact on DTB times.

Changes in process were also examined. For one example, a form must now be completed documenting airway assessment. However, Dr. Blankenship found that filling out this form only takes about a minute and could account for only a small part of the observed loss.

The most significant cause for the increased DTB times among STEMI patients presenting in the ED may well have been a 2012 change in the configuration of the hospital. Prior to 2012, the distance from the ED to the cath lab was less than 100 yards and a 1-minute walk. After the change in the configuration, the cath lab was approximately 7 minutes away, a change that “correlated somewhat” to a prolongation in DTB times.

Similarly, regional hospital STEMI referral patterns changed when a hospital in relatively close proximity opened a cath lab. Up until that time, most referrals had been a 5-minute helicopter transfer, according to Dr. Blankenship. Afterwards, some helicopter transfer times rose to 25 minutes.

Yet, no explanation seemed to be more important than simply ensuring that new staff understand and adhere to the processes. Recounting his experience with a “secret shopper” approach in which he called Geisinger posing as a referring physician to report a potential STEMI, he was disappointed to reach a staff member uncertain of the meaning of the term STEMI.

“STEMI systems need a lot of maintenance,” Dr. Blankenship said. He cautioned that staff changes are common and frequent, making it important to continually assess whether all the participants in delivering STEMI care understand their role.

Some published studies challenge the importance of small changes in DTB times as a predictor of STEMI survival, according to Dr. Blankenship, citing one national survey unable to link a reduction in DTB times with a change in in-hospital mortality (N Engl J Med. 2013;369:901-09). However, he has been more convinced by those studies that do show a relationship. He cited one large study that found an 8% loss in the mortality benefit for each 10-minute delay in DTB (Lancet. 2015;385:1114-22).

Rapid DTB times cannot be divorced from quality of care, Dr. Blankenship said. He cited an experience at one center in which an aggressive program for reducing DTB times led to an increase in mortality among false-positive patients. “It is okay to sacrifice time for quality.”

It was at the 2016 CRT meeting that Dr. Blankenship first provided data showing the decline in DTB times at his institution. At that time and prior to the more comprehensive evaluation of the reasons for the delay presented at this year’s meeting, he speculated that it may be just a question of fatigue from sustaining a rapid response posture over several years.

“My original observation, that after a while you just get tired, is probably still true,” he said.

WASHINGTON – The interventional cardiology team at Geisinger Medical Center, Danville, Pa., reorganized their care for ST segment elevation MI (STEMI) in 2004 to improve their door-to-balloon angioplasty times. Their highly successful efforts soon streamlined the process, placing Geisinger in the top 10% nationally for low average door-to-balloon (DTB) times.

Then, Geisinger began to see their DTB times creep up.

After witnessing a 5- to 10-minute increase in DTB times for STEMI patients – whether picked up by ambulance, appearing in the emergency department (ED), or referred from neighboring hospitals – James Blankenship, MD, director of the division of cardiology, and fellow Geisinger researchers took on an institutional analysis, which was presented at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

Their analysis failed to identify a single explanation, but it did reinforce the importance of constantly reinvigorating processes, Dr. Blankenship said. And their analysis indicated that delays don’t necessarily translate into poorer outcomes.

One proposed explanation was that delays had been caused by an increased reliance on radial rather than femoral catheter access. Dr. Blankenship cited studies suggesting that radial access increases DTB times by 1 to 12 minutes. The proportion of percutaneous coronary interventions performed radially at Geisinger had risen from 2% to 85% over the time period that DTB times had risen.

“There is evidence of benefit from radial access, so even if it slows you down a few minutes, it may be worth doing,” Dr. Blankenship noted. However, when this variable was evaluated, the DTB times were, if anything, slightly faster with radial relative to femoral access.

Another theory was that the decision to provide fellows with a greater role in STEMI management had produced treatment delays. In the cath lab at Geisinger, the increased fellow participation “correlated perfectly” with the decline in DTB times, according to Dr. Blankenship. However, a close look at this variable failed to show any meaningful impact on DTB times.

Changes in process were also examined. For one example, a form must now be completed documenting airway assessment. However, Dr. Blankenship found that filling out this form only takes about a minute and could account for only a small part of the observed loss.

The most significant cause for the increased DTB times among STEMI patients presenting in the ED may well have been a 2012 change in the configuration of the hospital. Prior to 2012, the distance from the ED to the cath lab was less than 100 yards and a 1-minute walk. After the change in the configuration, the cath lab was approximately 7 minutes away, a change that “correlated somewhat” to a prolongation in DTB times.

Similarly, regional hospital STEMI referral patterns changed when a hospital in relatively close proximity opened a cath lab. Up until that time, most referrals had been a 5-minute helicopter transfer, according to Dr. Blankenship. Afterwards, some helicopter transfer times rose to 25 minutes.

Yet, no explanation seemed to be more important than simply ensuring that new staff understand and adhere to the processes. Recounting his experience with a “secret shopper” approach in which he called Geisinger posing as a referring physician to report a potential STEMI, he was disappointed to reach a staff member uncertain of the meaning of the term STEMI.

“STEMI systems need a lot of maintenance,” Dr. Blankenship said. He cautioned that staff changes are common and frequent, making it important to continually assess whether all the participants in delivering STEMI care understand their role.

Some published studies challenge the importance of small changes in DTB times as a predictor of STEMI survival, according to Dr. Blankenship, citing one national survey unable to link a reduction in DTB times with a change in in-hospital mortality (N Engl J Med. 2013;369:901-09). However, he has been more convinced by those studies that do show a relationship. He cited one large study that found an 8% loss in the mortality benefit for each 10-minute delay in DTB (Lancet. 2015;385:1114-22).

Rapid DTB times cannot be divorced from quality of care, Dr. Blankenship said. He cited an experience at one center in which an aggressive program for reducing DTB times led to an increase in mortality among false-positive patients. “It is okay to sacrifice time for quality.”

It was at the 2016 CRT meeting that Dr. Blankenship first provided data showing the decline in DTB times at his institution. At that time and prior to the more comprehensive evaluation of the reasons for the delay presented at this year’s meeting, he speculated that it may be just a question of fatigue from sustaining a rapid response posture over several years.

“My original observation, that after a while you just get tired, is probably still true,” he said.

WASHINGTON – Guidelines were recently modified to permit shorter duration of dual-antiplatelet therapy (DAPT) after percutaneous coronary intervention, but a series of ongoing trials are evaluating whether DAPT can be abandoned altogether in many if not most percutaneous coronary intervention (PCI) patients, according to a review of this major potential change in direction presented at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

“The 1-year duration of dual-antiplatelet therapy post PCI with a drug eluting stent is based on anecdotal historical data,” asserted Patrick W. Serruys, MD, PhD, professor of cardiology, Imperial College, London. Citing several sets of data consistent with the conclusion that single agents provide adequate protection against thrombus formation but reduced risk of bleeding relative to DAPT, he suggested that it is now critical to challenge the old standard.

Mitchel L. Zoler/Frontline Medical News

Bruce Jancin/Frontline Medical News

WASHINGTON – Guidelines were recently modified to permit shorter duration of dual-antiplatelet therapy (DAPT) after percutaneous coronary intervention, but a series of ongoing trials are evaluating whether DAPT can be abandoned altogether in many if not most percutaneous coronary intervention (PCI) patients, according to a review of this major potential change in direction presented at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

“The 1-year duration of dual-antiplatelet therapy post PCI with a drug eluting stent is based on anecdotal historical data,” asserted Patrick W. Serruys, MD, PhD, professor of cardiology, Imperial College, London. Citing several sets of data consistent with the conclusion that single agents provide adequate protection against thrombus formation but reduced risk of bleeding relative to DAPT, he suggested that it is now critical to challenge the old standard.

Mitchel L. Zoler/Frontline Medical News

Bruce Jancin/Frontline Medical News

WASHINGTON – Guidelines were recently modified to permit shorter duration of dual-antiplatelet therapy (DAPT) after percutaneous coronary intervention, but a series of ongoing trials are evaluating whether DAPT can be abandoned altogether in many if not most percutaneous coronary intervention (PCI) patients, according to a review of this major potential change in direction presented at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

“The 1-year duration of dual-antiplatelet therapy post PCI with a drug eluting stent is based on anecdotal historical data,” asserted Patrick W. Serruys, MD, PhD, professor of cardiology, Imperial College, London. Citing several sets of data consistent with the conclusion that single agents provide adequate protection against thrombus formation but reduced risk of bleeding relative to DAPT, he suggested that it is now critical to challenge the old standard.

Mitchel L. Zoler/Frontline Medical News

Bruce Jancin/Frontline Medical News

WASHINGTON – The in-hospital team responsible for rapid management of ST-elevation myocardial infarction (STEMI) may also be the right team to manage pulmonary embolism (PE), according to a pilot study associating this approach with rapid treatment times and low overall mortality rates.

The data from the pilot study suggest that arming the STEMI team with a protocol for managing PE “is an effective means to care for patients with massive and submassive pulmonary embolism,” said Michael R. Kendall, MD, of the University of Southern California, Los Angeles. He presented the findings at the 2017 Cardiovascular Research Technologies meeting.

There are obvious parallels between STEMI and PE. Like STEMI, PE requires rapid diagnosis, triage, and when appropriate, an endovascular procedure. This led the USC investigators to consider a formal pilot study to test the premise that the STEMI team is in a position to deliver urgent care and good outcomes to PE patients.

The objective of the pilot study was “to evaluate treatment times and clinical outcome for patients with massive and submassive PE using a dedicated PE protocol,” Dr. Kendall explained. Massive PE was defined as hemodynamic instability with systolic blood pressure below 90 mm Hg or requiring inotropic support. Submassive PE was defined as systolic BP greater than 90 mm Hg with right heart dysfunction, such as a dilated right ventricle and elevated troponin levels.

Over an 18-month period beginning in June 2014, 40 PE patients were treated. The average age was 55 years, 50% were obese, 32% had renal insufficiency, 30% had recent surgery or had recently been immobilized, 30% had a history of deep venous thrombosis, and 28% had an active malignancy. At 43%, the largest single source of cases was the emergency department (ED), while 38% were transferred in from other centers, and 19% were already hospitalized at the time of the PE.

All patients underwent computed tomographic pulmonary angiography (CTPA) as part of the diagnostic procedure prior to an invasive angiogram. Patients received one or more different treatments upon confirmation of the PE, including catheter-directed thrombolytics, rheolytic thrombectomy, mechanical fragmentation, mechanical aspiration, and surgical pulmonary embolectomy. Inferior vena cava filters were used as appropriate.

At presentation, 10% were in cardiac arrest, 22% required intubation, and 12% required extracorporeal membrane oxygenation. On the basis of the diagnostic studies, 57% had a massive PE, and the remainder had submassive disease.

The average time from door to CTPA among those presenting to the ED was roughly 5 hours. It took, on average, an additional 2 hours from CTPA to an invasive angiogram, and another 3 hours to treatment, producing a total average door to treatment time of 10 hours.

Most patients received rheolytic thrombectomy, often with another form of treatment, such as catheter-directed thrombolytics, but 15% were treated with anticoagulation alone. Although a few patients improved sufficiently to obviate the need for an invasive procedure, the remainder of the patients received anticoagulation alone because of contraindications for invasive strategies or treatment refusal.

The average length of a hospital stay was 15 days. Bleeding events occurred in 10% of patients and 18% required a blood transfusion. Survival to hospital discharge was 82%. Although there was no control group, this rate of survival was considered favorable in the context of the severity of the PE.

Overall, delivery of urgent care for PE by a STEMI team was found feasible. Even though treatment approaches were not standardized, the protocol for diagnosing and managing PE on an urgent basis produced encouraging times for delivery of care and outcomes, according to the data presented by Dr. Kendall. Because of the differences in the composition and function of the STEMI team, Dr. Kendall indicated that it is difficult to predict similar success at other centers, but the findings overall were considered positive.

The senior author of the study, David M. Shavelle, MD, also at USC, suggested that the program there might be a template. He believes that the STEMI team has the skills to deliver prompt PE care, and he believes that this approach would be appropriate at other centers. He also suggested that such formal programs may be useful in establishing better treatment protocols.

“For PE, there are no clear guidelines for treatment time intervals, such as time from door to endovascular treatment,” Dr. Shavelle observed. He said that the wide variation of devices currently being used for treatment complicates efforts to develop clear clinical protocols and measure outcomes and “would like to see more standardization of treatment and registries to address these areas.”

Dr. Kendall reported no financial relationships.

WASHINGTON – The in-hospital team responsible for rapid management of ST-elevation myocardial infarction (STEMI) may also be the right team to manage pulmonary embolism (PE), according to a pilot study associating this approach with rapid treatment times and low overall mortality rates.

The data from the pilot study suggest that arming the STEMI team with a protocol for managing PE “is an effective means to care for patients with massive and submassive pulmonary embolism,” said Michael R. Kendall, MD, of the University of Southern California, Los Angeles. He presented the findings at the 2017 Cardiovascular Research Technologies meeting.

There are obvious parallels between STEMI and PE. Like STEMI, PE requires rapid diagnosis, triage, and when appropriate, an endovascular procedure. This led the USC investigators to consider a formal pilot study to test the premise that the STEMI team is in a position to deliver urgent care and good outcomes to PE patients.

The objective of the pilot study was “to evaluate treatment times and clinical outcome for patients with massive and submassive PE using a dedicated PE protocol,” Dr. Kendall explained. Massive PE was defined as hemodynamic instability with systolic blood pressure below 90 mm Hg or requiring inotropic support. Submassive PE was defined as systolic BP greater than 90 mm Hg with right heart dysfunction, such as a dilated right ventricle and elevated troponin levels.

Over an 18-month period beginning in June 2014, 40 PE patients were treated. The average age was 55 years, 50% were obese, 32% had renal insufficiency, 30% had recent surgery or had recently been immobilized, 30% had a history of deep venous thrombosis, and 28% had an active malignancy. At 43%, the largest single source of cases was the emergency department (ED), while 38% were transferred in from other centers, and 19% were already hospitalized at the time of the PE.

All patients underwent computed tomographic pulmonary angiography (CTPA) as part of the diagnostic procedure prior to an invasive angiogram. Patients received one or more different treatments upon confirmation of the PE, including catheter-directed thrombolytics, rheolytic thrombectomy, mechanical fragmentation, mechanical aspiration, and surgical pulmonary embolectomy. Inferior vena cava filters were used as appropriate.

At presentation, 10% were in cardiac arrest, 22% required intubation, and 12% required extracorporeal membrane oxygenation. On the basis of the diagnostic studies, 57% had a massive PE, and the remainder had submassive disease.

The average time from door to CTPA among those presenting to the ED was roughly 5 hours. It took, on average, an additional 2 hours from CTPA to an invasive angiogram, and another 3 hours to treatment, producing a total average door to treatment time of 10 hours.

Most patients received rheolytic thrombectomy, often with another form of treatment, such as catheter-directed thrombolytics, but 15% were treated with anticoagulation alone. Although a few patients improved sufficiently to obviate the need for an invasive procedure, the remainder of the patients received anticoagulation alone because of contraindications for invasive strategies or treatment refusal.

The average length of a hospital stay was 15 days. Bleeding events occurred in 10% of patients and 18% required a blood transfusion. Survival to hospital discharge was 82%. Although there was no control group, this rate of survival was considered favorable in the context of the severity of the PE.

Overall, delivery of urgent care for PE by a STEMI team was found feasible. Even though treatment approaches were not standardized, the protocol for diagnosing and managing PE on an urgent basis produced encouraging times for delivery of care and outcomes, according to the data presented by Dr. Kendall. Because of the differences in the composition and function of the STEMI team, Dr. Kendall indicated that it is difficult to predict similar success at other centers, but the findings overall were considered positive.

The senior author of the study, David M. Shavelle, MD, also at USC, suggested that the program there might be a template. He believes that the STEMI team has the skills to deliver prompt PE care, and he believes that this approach would be appropriate at other centers. He also suggested that such formal programs may be useful in establishing better treatment protocols.

“For PE, there are no clear guidelines for treatment time intervals, such as time from door to endovascular treatment,” Dr. Shavelle observed. He said that the wide variation of devices currently being used for treatment complicates efforts to develop clear clinical protocols and measure outcomes and “would like to see more standardization of treatment and registries to address these areas.”

Dr. Kendall reported no financial relationships.

WASHINGTON – The in-hospital team responsible for rapid management of ST-elevation myocardial infarction (STEMI) may also be the right team to manage pulmonary embolism (PE), according to a pilot study associating this approach with rapid treatment times and low overall mortality rates.

The data from the pilot study suggest that arming the STEMI team with a protocol for managing PE “is an effective means to care for patients with massive and submassive pulmonary embolism,” said Michael R. Kendall, MD, of the University of Southern California, Los Angeles. He presented the findings at the 2017 Cardiovascular Research Technologies meeting.

There are obvious parallels between STEMI and PE. Like STEMI, PE requires rapid diagnosis, triage, and when appropriate, an endovascular procedure. This led the USC investigators to consider a formal pilot study to test the premise that the STEMI team is in a position to deliver urgent care and good outcomes to PE patients.

The objective of the pilot study was “to evaluate treatment times and clinical outcome for patients with massive and submassive PE using a dedicated PE protocol,” Dr. Kendall explained. Massive PE was defined as hemodynamic instability with systolic blood pressure below 90 mm Hg or requiring inotropic support. Submassive PE was defined as systolic BP greater than 90 mm Hg with right heart dysfunction, such as a dilated right ventricle and elevated troponin levels.

Over an 18-month period beginning in June 2014, 40 PE patients were treated. The average age was 55 years, 50% were obese, 32% had renal insufficiency, 30% had recent surgery or had recently been immobilized, 30% had a history of deep venous thrombosis, and 28% had an active malignancy. At 43%, the largest single source of cases was the emergency department (ED), while 38% were transferred in from other centers, and 19% were already hospitalized at the time of the PE.

All patients underwent computed tomographic pulmonary angiography (CTPA) as part of the diagnostic procedure prior to an invasive angiogram. Patients received one or more different treatments upon confirmation of the PE, including catheter-directed thrombolytics, rheolytic thrombectomy, mechanical fragmentation, mechanical aspiration, and surgical pulmonary embolectomy. Inferior vena cava filters were used as appropriate.

At presentation, 10% were in cardiac arrest, 22% required intubation, and 12% required extracorporeal membrane oxygenation. On the basis of the diagnostic studies, 57% had a massive PE, and the remainder had submassive disease.

The average time from door to CTPA among those presenting to the ED was roughly 5 hours. It took, on average, an additional 2 hours from CTPA to an invasive angiogram, and another 3 hours to treatment, producing a total average door to treatment time of 10 hours.

Most patients received rheolytic thrombectomy, often with another form of treatment, such as catheter-directed thrombolytics, but 15% were treated with anticoagulation alone. Although a few patients improved sufficiently to obviate the need for an invasive procedure, the remainder of the patients received anticoagulation alone because of contraindications for invasive strategies or treatment refusal.

The average length of a hospital stay was 15 days. Bleeding events occurred in 10% of patients and 18% required a blood transfusion. Survival to hospital discharge was 82%. Although there was no control group, this rate of survival was considered favorable in the context of the severity of the PE.

Overall, delivery of urgent care for PE by a STEMI team was found feasible. Even though treatment approaches were not standardized, the protocol for diagnosing and managing PE on an urgent basis produced encouraging times for delivery of care and outcomes, according to the data presented by Dr. Kendall. Because of the differences in the composition and function of the STEMI team, Dr. Kendall indicated that it is difficult to predict similar success at other centers, but the findings overall were considered positive.

The senior author of the study, David M. Shavelle, MD, also at USC, suggested that the program there might be a template. He believes that the STEMI team has the skills to deliver prompt PE care, and he believes that this approach would be appropriate at other centers. He also suggested that such formal programs may be useful in establishing better treatment protocols.

“For PE, there are no clear guidelines for treatment time intervals, such as time from door to endovascular treatment,” Dr. Shavelle observed. He said that the wide variation of devices currently being used for treatment complicates efforts to develop clear clinical protocols and measure outcomes and “would like to see more standardization of treatment and registries to address these areas.”

Dr. Kendall reported no financial relationships.

WASHINGTON – The clinical and technical success rates are higher among patients undergoing robotic percutaneous coronary interventions through radial than femoral access, according to registry data presented at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

Although both the clinical and technical success rates were high with either type of access, the advantage for radial over femoral access was significant for each, reported Ali Pourdjabbar, MD, an interventional cardiologist completing his fellowship at the University of California, San Diego. However, as this was not a randomized trial, he placed emphasis on the message that robotic percutaneous coronary intervention (PCI) is safe and effective when performed through either access point.

WASHINGTON – The clinical and technical success rates are higher among patients undergoing robotic percutaneous coronary interventions through radial than femoral access, according to registry data presented at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

Although both the clinical and technical success rates were high with either type of access, the advantage for radial over femoral access was significant for each, reported Ali Pourdjabbar, MD, an interventional cardiologist completing his fellowship at the University of California, San Diego. However, as this was not a randomized trial, he placed emphasis on the message that robotic percutaneous coronary intervention (PCI) is safe and effective when performed through either access point.

WASHINGTON – The clinical and technical success rates are higher among patients undergoing robotic percutaneous coronary interventions through radial than femoral access, according to registry data presented at CRT 2017 sponsored by the Cardiovascular Research Institute at Washington Hospital Center.

Although both the clinical and technical success rates were high with either type of access, the advantage for radial over femoral access was significant for each, reported Ali Pourdjabbar, MD, an interventional cardiologist completing his fellowship at the University of California, San Diego. However, as this was not a randomized trial, he placed emphasis on the message that robotic percutaneous coronary intervention (PCI) is safe and effective when performed through either access point.