Trends in annual open abdominal aortic surgical volumes for vascular trainees compared with annual national volumes in the endovascular era.
Academic Article
Overview
abstract
OBJECTIVE: A prior analysis predicted a shortfall in open abdominal aortic repair (OAR) experience for vascular trainees resulting from the rapid adoption, and increased anatomic suitability, of endovascular aortic aneurysm repair (EVAR) technology. We explored how EVAR has transformed contemporary open aortic surgical education for vascular trainees. METHODS: We examined the Accreditation Council for Graduate Medical Education case volumes of open abdominal aortic aneurysm (AAA) repair and reconstruction for aortoiliac occlusive disease via aortoiliac or femoral bypass (AFB) from integrated vascular surgery residents (VSRs) and fellows (VSFs) graduating from 2006 to 2017 and compared them to the national estimates of total OAR (open AAA repair plus AFB) in the Agency for Healthcare Research and Quality National Inpatient Sample using the International Classification of Diseases, 9th and 10th revision, procedural codes. Changes over time were assessed using the χ2 test, Student's t test, and linear regression. RESULTS: During the 12-year study period, the national annual total OAR and open AAA repair estimates had decreased: total OAR by 72.5% (estimate ± standard error: 2006, 24,255 ± 1185; vs 2017, 6690 ± 274; P < .001) and open AAA repair by 84.7% (estimate ± standard error: 2006, 18,619 ± 924; vs 2017, 2850 ± 168; P < .001). The AFB estimates had decreased by 33.0% (P < .001). The percentage of total OAR, open AAA repair, and AFB performed at teaching hospitals had significantly increased, from ∼55% to 80% (P < .001 for all). A 40.9% decrease was found for open AAA repairs performed by graduating VSFs (mean, 18.6 vs 11) but only a 6.9% decrease in total OAR cases (mean, 27.6 vs 25.7) owing to increasing AFB volumes (mean, 9.0 vs 14.7). The VSR graduates had consistently logged an average of ∼10 open AAA repairs, with a 31.0% increase in total OARs (mean, 23.2 vs 30.4), again secondary to increasing AFB volumes (mean, 11.4 vs 17.5). Although an absolute decrease was found in open aortic experience for VSFs, the rate of decline for the total OAR case volumes was not significantly different after VSR programs had been established (P = .40). CONCLUSIONS: As the incidence has decreased nationally, the use of OAR has been shifting toward teaching hospitals. Although open AAA procedures for trainees have been declining with the increased use of EVAR, open aortic reconstruction for aortoiliac occlusive disease has been increasing, playing an important role in ensuring that vascular trainees continue to have satisfactory OAR experience sufficient for meeting minimum graduation requirements. Strategies to maintain and maximize the education and experience from these cases should be the top priority for vascular surgery program directors.
