The Society for Vascular Surgery clinical practice guidelines on popliteal artery aneurysms.

The Society for Vascular Surgery clinical practice guidelines on popliteal artery aneurysms (PAAs) leverage the work of a panel of experts chosen by the Society for Vascular Surgery to review the current world literature as it applies to PAAs to extract the most salient, evidence-based recommendations for the treatment of these patients. These guidelines focus on PAA screening, indications for intervention, choice of repair strategy, management of asymptomatic and symptomatic PAAs (including those presenting with acute limb ischemia), and follow-up of both untreated and treated PAAs. They offer long-awaited evidence-based recommendations for physicians taking care of these patients.

Vascular Surgery Curriculum for Medical Students: A National Targeted Needs Assessment.

BACKGROUND: At present, neither the American College of Surgeons (ACS) nor the Society for Vascular Surgery (SVS) provides curriculum recommendations for medical students rotating on a vascular surgery service. We sent a targeted needs assessment to vascular surgeons across the country in order to investigate the need for a structured curriculum for medical students participating in a vascular surgery rotation during their clinical clerkships. METHODS: The survey was developed with input from medical students, vascular surgeons, and medical educators. Respondents were identified from the Fellowship and Residency Electronic Interactive Database (FREIDA). The needs assessment was sent to program directors of vascular residencies and fellowships and to other vascular surgery educators. The survey collected data regarding the existing vascular surgery curriculum at the respondent's institution, the need for a standardized curriculum, desired experiences for medical students, and important vascular topics for medical students to cover while on rotation. RESULTS: Responses were obtained from 50 of the 146 surveyed individuals (response rate = 34.2%). 48 respondents (96%) worked in an academic hospital or academic affiliated hospital. With regard to the existing vascular surgery curriculum, only 28 respondents (61%) indicated that they had a curriculum approved by the surgery clerkship director. 37 respondents (77.1%) said there were at least goals and objectives for students on the vascular surgery service, and 29 respondents (60.4%) indicated that there was dedicated time for didactic sessions. Only 17 respondents (35.4%) indicated students gave a case presentation on the service. 29 respondents (63%) agreed or strongly agreed that there should be a standardized vascular curriculum for medical students. When asked to rank 9 topics from most important to least important for students to learn, respondents ranked peripheral arterial disease, aortic disease, and carotid disease highest. Simulation experience was most frequently indicated as a desired addition to the curriculum, and only 16 respondents (33.3%) reported opportunities for vascular surgery specific simulation experiences. CONCLUSIONS: This study identified the lack of an existing structured curriculum for medical students, the desire for a standardized curriculum, and key topics and experiences that are felt to be important for students to cover.  With this information in hand, vascular educators have the potential to enhance the learning experience of medical students rotating through the service by developing a standardized curriculum.

Editor's Choice - Update of the European Society for Vascular Surgery (ESVS) 2020 Clinical Practice Guidelines on the Management of Acute Limb Ischaemia in Light of the COVID-19 Pandemic, Based on a Scoping Review of the Literature.

OBJECTIVE: To perform a scoping review of how patients with COVID-19 are affected by acute limb ischaemia (ALI) and evaluate the recommendations of the 2020 ESVS ALI Guidelines for these patients. METHODS: Research questions were defined, and a systematic literature search was performed following the PRISMA guidelines. Abstracts and unpublished literature were not included. The definition of ALI in this review is in accordance with the ESVS guidelines. RESULTS: Most identified papers were case reports or case series, although population based data and data from randomised controlled trials were also identified. In total, 114 unique and relevant papers were retrieved. Data were conflicting concerning whether the incidence of ALI increased, or remained unchanged, during the pandemic. Case reports and series reported ALI in patients who were younger and healthier than usual, with a greater proportion affecting the upper limb. Whether or not this is coincidental remains uncertain. The proportion of men/women affected seems unchanged. Most reported cases were in hospitalised patients with severe COVID-19. Patients with ALI as their first manifestation of COVID-19 were reported. Patients with ALI have a worse outcome if they have a simultaneous COVID-19 infection. High levels of D-dimer may predict the occurrence of arterial thromboembolic events in patients with COVID-19. Heparin resistance was observed. Anticoagulation should be given to hospitalised COVID-19 patients in prophylactic dosage. Most of the treatment recommendations from the ESVS Guidelines remained relevant, but the following were modified regarding patients with COVID-19 and ALI: 1) CTA imaging before revascularisation should include the entire aorta and iliac arteries; 2) there should be a high index of suspicion, early testing for COVID-19 infection and protective measures are advised; and 3) there should be preferential use of local or locoregional anaesthesia during revascularisation. CONCLUSION: Although the epidemiology of ALI has changed during the pandemic, the recommendations of the ESVS ALI Guidelines remain valid. The above mentioned minor modifications should be considered in patients with COVID-19 and ALI.

Vascular and Endovascular Surgical Procedural Skills Training: Survey of Vascular Surgery Program Directors About Extracurricular Vascular Surgical Educational Courses for Vascular Trainees.

BACKGROUND: Over the past decade, there has been an increase in the number of Vascular Surgery Educational Courses (VSEC) provided by academic institutions, regional and national vascular surgical societies, as well as industry partners. Each course has its own curriculum and how these curricula align with the modern needs of vascular surgery trainees are unclear. As such, there is a lack of unified content, syllabus, and trainee evaluations/feedback of these courses. The Education Committee for the Association for Program directors in Vascular Surgery (APDVS) was tasked to survey vascular surgery Program directors (PDs) and Associate Program directors (APDs) across the country to investigate the educational value, utility, and feedback provided from these VSEC. METHODS: A comprehensive list of vascular surgery educational courses across the country was generated. A 21-question survey was constructed and forwarded to all members of APDVS. The survey was directed at obtaining data from the vascular surgery program director/associate program directors about their understanding of the VSEC and what they valued as critical for their trainees. In addition, we sought to gauge the feedback provided by these courses to the vascular surgery trainees, and their PD/APDs. RESULTS: The survey was sent to 170 active members of APDVS with an overall response rate of 41%. The majority of the respondents 57 (81%) were PDs. Of all the PD/APDs, 5 (7%) reported that they knew of less than 5 such programs, 26 (37%) reported knowledge of 6-10 courses, 20 (29%) reported 11-20 courses, and 19 (27%) reported knowing more than 20 such programs. 49 (70%) of those surveyed reported that their trainees benefit from these courses. Statisticallysignificant factors impacting the decision to make adjustments to the individual training program included PGY-5 residents attending the educational courses, feedback from VSEC, and positive feedback from trainees attending the courses (all P < 0.05). When asked about their wants of VSEC, 35% desired mock oral exams, and 31% looked for cadaver dissections. Of the 24 PD/APD's who made adjustments to their program based on the feedback from the educational programs, those who held the title for 5-10 years were the most willing to make any changes 13 (54%), and those with more than ten years of experience 2 (8%), were the least willing to make any changes (P < 0.05). The majority of the PD/APDs 32 (46%) felt that the regional societal meetings are the best place to hold educational courses. 38 (55%) of PD/APD's received no feedback from the VSEC course directors. 41 (59%) of the programs provide some financial support for their trainees to attend these courses and 65 (92%) of the PD/APDs suggest that industry partners should provide the financial support for attending VSEC. CONCLUSIONS: This unique survey explores the attitude of vascular surgery educators about outside vascular surgery educational courses offered by various groups and industry. It is important to create standardized curricula for vascular surgery educational courses with collaborative oversight by educational/simulation key opinion leaders, PD/APD's, course directors and industry partners. Exploring benchmarks for standardization of the curricula offered by these outside educational opportunities would streamline the needs of our vascular surgery trainees and minimize time away from home institutions. Feedback identifying vascular trainees' strengths and areas for improvement to PD/APDs would be of great educational value and is currently a missed opportunity.

A systematic review and meta-analysis of treatment and natural history of popliteal artery aneurysms.

OBJECTIVE: To summarize the best available evidence comparing open vs endovascular popliteal artery aneurysm (PAA) repair. We also summarized the natural history of PAAs to support of the Society for Vascular Surgery guidelines. METHODS: We searched MEDLINE, EMBASE, Cochrane databases, and Scopus for studies of patients with PAAs treated with an open vs an endovascular approach. We also included studies of natural history of untreated patients. Studies were selected and appraised by pairs of independent reviewers. A meta-analysis was performed when appropriate. RESULTS: We identified 32 original studies and 4 systematic reviews from 2191 candidate references. Meta-analysis showed that compared with the endovascular approach, open surgical repair was associated with higher primary patency at 1 year (odds ratio [OR], 2.10; 95% confidence interval [CI], 1.41-3.12), lower occlusion rate at 30 days (OR, 0.41; 95% CI, 0.24-0.68) and fewer reinterventions (OR, 0.28; 95% CI, 0.17-0.45), but a longer hospital stay (standardized mean difference, 2.16; 95% CI, 1.23-3.09) and more wound complications (OR, 5.18; 95% CI, 2.19-12.26). There was no statistically significant difference in primary patency at 3 years (OR, 1.38; 95% CI, 0.97-1.97), secondary patency (OR, 1.59; 95% CI, 0.84-3.03), mortality at the longest follow-up (OR, 0.49; 95% CI, 0.21-1.17), mortality at 30 days (OR, 0.28; 95% CI, 0.06-1.36), or amputation (incidence rate ratio, 0.85; 95% CI, 0.56-1.31). The certainty in these estimates was, in general, low. Studies of PAA natural history suggest that thromboembolic complications and amputation develop at a mean observation time of 18 months and they are frequent. One study showed that at 5 years, approximately one-half of the patients had complications. CONCLUSIONS: This systematic review provides event rates for outcomes important to patients with PAAs. Despite the low certainty of the evidence, these rates along with surgical expertise and anatomic feasibility can help patients and surgeons to engage in shared decision-making.

2021 ACC/AHA/SCAI Guideline for Coronary Artery Revascularization: Executive Summary: A Report of the American College of Cardiology/American Heart Association Joint Committee on Clinical Practice Guidelines.

AIM: The executive summary of the American College of Cardiology/American Heart Association/Society for Cardiovascular Angiography and Interventions coronary artery revascularization guideline provides the top 10 items readers should know about the guideline. In the full guideline, the recommendations replace the 2011 coronary artery bypass graft surgery guideline and the 2011 and 2015 percutaneous coronary intervention guidelines. This summary offers a patient-centric approach to guide clinicians in the treatment of patients with significant coronary artery disease undergoing coronary revascularization, as well as the supporting documentation to encourage their use. METHODS: A comprehensive literature search was conducted from May 2019 to September 2019, encompassing studies, reviews, and other evidence conducted on human subjects that were published in English from PubMed, EMBASE, the Cochrane Collaboration, CINHL Complete, and other relevant databases. Additional relevant studies, published through May 2021, were also considered. Structure: Recommendations from the earlier percutaneous coronary intervention and coronary artery bypass graft surgery guidelines have been updated with new evidence to guide clinicians in caring for patients undergoing coronary revascularization. This summary includes recommendations, tables, and figures from the full guideline that relate to the top 10 take-home messages. The reader is referred to the full guideline for graphical flow charts, supportive text, and tables with additional details about the rationale for and implementation of each recommendation, and the evidence tables detailing the data considered in the development of this guideline.

Geographical Variation in the Management of Peripheral Arterial Occlusive Disease: A Nationwide Danish Cohort Study.

OBJECTIVE: Equal access for equal needs is a key goal for many healthcare systems but geographical variation research has shown that this is often not the case in areas other than vascular surgery. This study assessed the variation across specialised vascular centres of an entire healthcare system in the costs and outcomes for patients having first time revascularisation for peripheral arterial occlusive disease. METHODS: This was a national study of all first time revascularisations performed in the Danish healthcare system between 2009 and 2014. Episodes were identified in the Danish Vascular Registry (n = 10 300) and data on one year follow up in terms of the costs of specialised healthcare (€) and amputation status were acquired from national registers. Generalised gamma and logit regressions were used to predict margins between centres while adjusting for population heterogeneity (age, sex, education, smoking, hypertension, diabetes, use of prophylactic pharmacological therapy, indication and type of revascularisation). Cost effectiveness frontiers were used to identify efficient providers and to illustrate the cost of reducing the system level risk of amputation. RESULTS: For each of the indications of chronic limb threatening and acute limb ischaemia, the one year amputation risks varied from 11% to 16% across centres (p = .003, p = .006) whereas for intermittent claudication there was no significant difference across centres. The corresponding costs of care varied across centres for all indications (p = .027, p = .028, p = .030). Linking costs and outcomes, three of seven centres were observed to provide poorer quality at higher costs. Exponentially increasing costs to obtain the maximum reduction of the amputation risk were observed. CONCLUSION: The results suggest that there is substantial variation in the clinical management of peripheral arterial occlusive disease across the Danish healthcare system and that this results in very different levels of efficiency - on top of potentially unequal treatment for equal needs. Further research is warranted.

The Society for Vascular Surgery Objective Performance Goals for Critical Limb Ischemia are attainable in select patients with ischemic wounds managed with wound care alone.

BACKGROUND: To set therapeutic benchmarks, in 2009 the Society for Vascular Surgery defined objective performance goals (OPG) for treatment of patients with chronic limb threatening ischemia (CLTI) with either open surgical bypass or endovascular intervention. The goal of these OPGs are to set standards of care from a revascularization standpoint and to provide performance benchmarks for 1 year patency rates for new endovascular therapies. While OPGs are useful in this regard, a critical decision point in the treatment of patients with CLTI is determining when revascularization is necessary. There is little guidance in the comprehensive treatment of this patient population, especially in the nonoperative cohort. Guidelines are needed for the CLTI patient population as a whole and not just those revascularized, and our aim was to assess whether CLTI OPGs could be attained with nonoperative management alone. METHODS: Our cohort included patients with an incident diagnosis of CLTI (by hemodynamic and symptomatic criteria) at our institution from 2013-2017. The primary outcome measured was mortality. Secondary outcomes were limb loss and failure of amputation-free survival. Descriptive statistics were used to define the 2 groups - patients undergoing primary revascularization and patients undergoing primary wound management. The risk difference in outcomes between the 2 groups was estimated using collaborative-targeted maximum likelihood estimation. RESULTS: Our cohort included 349 incident CLTI patients; 60% male, 51% white, mean age 63 +/- 13 years, 20% Rutherford 4, and 80% Rutherford 5. Most patients (277, 79%) underwent primary revascularization, and 72 (21%) were treated with wound care alone. Demographics and presenting characteristics were similar between groups. Although the revascularized patients were more likely to have femoropopliteal disease (72% vs. 36%), both groups had a high rate of infrapopliteal disease (62% vs. 57%). Not surprisingly, the patients in the revascularization group were less likely to have congestive heart failure (34% vs. 42%), complicated diabetes (52% vs. 79%), obesity (19% vs. 33%), and end stage renal disease (14% vs. 28%). In the wound care group, 2-year outcomes were 65% survival, 51% amputation free survival, 19% major limb amputation, and 17% major adverse cardiac event. The wound care cohort had a 13% greater risk of death at 2 years; however, the risk of limb loss at 2 years was 12% less in the wound care cohort. CONCLUSIONS: A comprehensive set treatment goals and expected amputation free survival outcomes can guide revascularization, but also assure that appropriate outcomes are achieved for patients treated without revascularization. The 2-year outcomes achieved in this cohort provide an estimate of outcomes for nonrevascularized CLTI patients. Although multi-center or prospective studies are needed, we demonstrate that equal, even improved, limb salvage rates are possible.

Society for Vascular Surgery best practice recommendations for use of social media.

The use of social media (SoMe) in medicine has demonstrated the ability to advance networking among clinicians and other healthcare staff, disseminate research, increase access to up-to-date information, and inform and engage medical trainees and the public at-large. With increasing SoMe use by vascular surgeons and other vascular specialists, it is important to uphold core tenets of our commitment to our patients by protecting their privacy, encouraging appropriate consent and use of any patient-related imagery, and disclosing relevant conflicts of interest. Additionally, we recognize the potential for negative interactions online regarding differing opinions on optimal treatment options for patients. The Society for Vascular Surgery (SVS) is committed to supporting appropriate and effective use of SoMe content that is honest, well-informed, and accurate. The Young Surgeons Committee of the SVS convened a diverse writing group of SVS members to help guide novice as well as veteran SoMe users on best practices for advancing medical knowledge-sharing in an online environment. These recommendations are presented here with the goal of elevating patient privacy and physician transparency, while also offering support and resources for infrequent SoMe users to increase their engagement with each other in new, virtual formats.

Improving clinical documentation of evaluation and management care and patient acuity improves reimbursement as well as quality metrics.

OBJECTIVE: Accurate documentation of patient care and acuity is essential to determine appropriate reimbursement as well as accuracy of key publicly reported quality metrics. We sought to investigate the impact of standardized note templates by inpatient advanced practice providers (APPs) on evaluation and management (E/M) charge capture, including outside of the global surgical package (GSP), and quality metrics including case mix index (CMI) and mortality index (MI). We hypothesized this clinical documentation initiative as well as improved coding of E/M services would result in increased reimbursement and quality metrics. METHODS: A documentation and coding initiative on the heart and vascular service line was initiated in 2016 with focus on improving inpatient E/M capture by APPs outside the GSP. Comprehensive training sessions and standardized documentation templates were created and implemented in the electronic medical record. Subsequent hospital care E/M (current procedural terminology codes 99231, 99232, 99233) from the years 2015 to 2017 were audited and analyzed for charge capture rates, collections, work relative value units (wRVUs), and billing complexity. Data were compared over time by standardizing CMS values and reimbursement rates. In addition, overall CMI and MI were calculated each year. RESULTS: One year following the documentation initiative, E/M charges on the vascular surgery service line increased by 78.5% with a corresponding increase in APP charges from 0.4% of billable E/M services to 70.4% when compared with pre-initiative data. The charge capture of E/M services among all inpatients rose from 21.4% to 37.9%. Additionally, reimbursement from CMS increased by 65% as total work relative value units generated from E/M services rose by 78.4% (797 to 1422). The MI decreased over the study period by 25.4%. Additionally, there was a corresponding 5.6% increase in the cohort CMI. Distribution of E/M encounter charges did not vary significantly. Meanwhile, the prevalence of 14 clinical comorbidities in our cohort as well as length of stay (P = .88) remained non-statistically different throughout the study period. CONCLUSIONS: Accurate clinical documentation of E/M care and ultimately inpatient acuity is critical in determining quality metrics that serve as important measures of overall hospital quality for CMS value-based payments and rankings. A system-based documentation initiative and expanded role of inpatient APPs on vascular surgery teams significantly improved charge capture and reimbursement outside the GSP as well as CMI and MI in a consistently complex patient population.

A proposed model for a comprehensive virtual subinternship in vascular surgery.

OBJECTIVE: In the present study, we sought to understand the challenges, advantages, and applications of a vascular surgery virtual subinternship (VSI) curriculum. METHODS: Our institution hosted 25 students for two 4-week VSI rotations, one in July 2020 and one in August 2020. The students participated in a curriculum centered around the use of Zoom and telephone interactions with residents and faculty. The curriculum included selected readings, surgical videos, group didactics, and one-on-one mentorship. Anonymous pre- and postrotation self-assessments were used to ascertain the students' achievement of the learning objectives and the utility of the educational tools implemented during the rotation. The faculty and resident mentors were also surveyed to assess their experience. RESULTS: With the exception of knot-tying techniques (P = .67), the students reported significant improvement in their understanding of vascular surgery concepts after the virtual elective (P < .05). The highest ranked components of the course were interpersonal, including interaction with faculty, mentorship, and learning the program culture. The lowest ranked components of the course were simulation training and research opportunities. The rating of the utility of aspects of the course were consistent with the ranking of the components, with faculty interaction receiving the highest average rating. The ideal amount of time for daily virtual interaction reported by the students ranged from 3 to 6 hours (median, 4 hours). Overall, most of the mentors were satisfied with the virtual course. However, they reported limited ability to assess the students' personality and fit for the program. The time spent per week by the mentors on the virtual vascular surgery rotation ranged from 2 to 7 hours (median, 4 hours). Of the 17 mentors completing the surveys, 14 reported that having a virtual student was a significant addition to their existing workload. CONCLUSIONS: Overall, our student and mentor feedback was positive. Several challenges inherent to the virtual environment still require refinement. However, the goals of a VSI are distinct and should be explored by training programs. With changes to healthcare in the United States on the horizon and the constraints resulting from the severe acute respiratory syndrome coronavirus 2 pandemic, implementing a virtual away rotation could be an acceptable platform in our adaptations of our recruitment strategies.

Development of Quality Indicators for the Management of Acute Type A Aortic Dissection.

In an effort to further improve surgical outcomes in patients with acute type A aortic dissection (ATAD), the Canadian Thoracic Aortic Collaborative (CTAC), with the support of the Canadian Society of Cardiac Surgeons (CSCS), endeavoured to develop quality indicators (QIs) for the management of patients with ATAD. After 2 successive consultations with the CTAC membership, 11 QIs were selected and separated into 5 broad categories: preoperative (time from presentation to diagnosis, time from presentation to the operating room), intraoperative (use of hypothermic circulatory arrest and antegrade cerebral perfusion), 30-day outcomes (30-day rates of all-cause mortality, 30-day rates of new postoperative stroke), 1-year outcomes (1-year rates of follow-up imaging, 1-year rates of all-cause mortality, and 1-year rates of surgical reintervention), and institutional (institutional surgical volumes, individual surgical volumes, and presence of institutional aortic disease teams). The purpose of this article is to describe the process by which QIs for the management of ATAD were developed and the feasibility by which they may be collected using existing clinical and administrative data sources. Furthermore, we demonstrate how they may be used to evaluate success following surgery for repair of ATAD and ultimately improve clinical outcomes.