Impact of the COVID-19 pandemic on cardiology fellow echocardiography education at a large academic center.

BACKGROUND: In response to COVID-19 pandemic state restrictions, our institution deferred elective procedures from 3/15/2020 to 6/13/2020, and removed cardiology fellows from the echocardiography rotation to staff clinical services. We assessed the impact of the COVID-19 pandemic on fellow education and echocardiography volumes. METHODS: Our institutional database was used to examine volumes of transthoracic (TTE), stress (SE), and transesophageal echocardiograms (TEE) from 7/1/2018 to 10/10/2020. Study volumes were compared in three intervals: pre-pandemic (7/1/2018- 3/14/2020), pandemic (3/15/2020-6/13/2020), and pandemic recovery (6/14/2020-10/10/2020). We examined weekly number of TTEs performed or interpreted by cardiology fellows during the study period, and compared these to the two previous academic years. RESULTS: Weekly TTE volume declined by 54% during the pandemic, and increased by 99% during pandemic recovery, (p < 0.05). SE and TEE revealed similar trends. A strong correlation between weekly TTE volume and inpatient admissions was observed during the study period (rs=0.67, p < 0.05). Weekly fellow TTE scans declined by 78% during the pandemic, with a 380% increase during pandemic recovery (p < 0.05). Weekly fellow TTE interpretations declined by 56% during the pandemic, with a 76% increase during pandemic recovery (p < 0.05). CONCLUSION: COVID restrictions between 3/15/2020- 6/14/2020 coincided with a marked decline in TTE, SE, and TEE volumes, with an increase similar to near pre-pandemic volumes during the pandemic recovery period. A similar decline with the onset of COVID restrictions, and increase to pre-restriction volumes thereafter was observed with fellow scans and interpretations, but total academic year fellow training volumes remained depressed. With the ongoing COVID-19 pandemic and rise of multiple variants, training programs may need to adjust fellows' clinical responsibilities so as to support achievement of echocardiography training certification.

Pulmonary hypertension and long-term mortality in aortic and mitral regurgitation.

BACKGROUND: Outcomes data in patients with aortic regurgitation or mitral regurgitation have been limited to small series with generally <10 years of follow-up. The quantitative impact of pulmonary artery hypertension has not been well described. The purpose of this study was to describe the 15-year mortality of aortic regurgitation and mitral regurgitation. METHODS: Our institution's electronic echocardiography database was queried to identify those patients examined in 1992 and reported to have at least mild aortic regurgitation or mitral regurgitation. Patients were classified by semi-quantitative degree of regurgitation. Pulmonary artery systolic pressure was categorized as normal, borderline, mild, or moderate or greater hypertension (pulmonary artery systolic pressure >40 mm Hg). Age-stratified Cox proportional hazards models compared survival among groups and adjusted for sex, depressed left ventricular ejection fraction, and pulmonary artery systolic pressure. Mortality data were obtained from the 2008 Social Security Death Index. RESULTS: Of 4984 echocardiograms performed in 4050 patients, 1156 patients (28%; aged 72±14 years) had at least mild aortic regurgitation and 1971 patients (49%; aged 69±16 years) had at least mild mitral regurgitation. Overall 15-year mortality in patients with aortic regurgitation was 74% and similar for all grades of aortic regurgitation. Overall 15-year mortality in patients with mitral regurgitation was 71% and got progressively worse with increasing severity grade of mitral regurgitation (63% for mild to 81% for at least moderate-to-severe). For both aortic and mitral regurgitation, moderate or greater pulmonary artery systolic hypertension was associated with increased mortality (in patients with aortic regurgitation, hazard ratio [HR], 1.94; 95% confidence interval [CI], 1.58-2.41, and in mitral regurgitation patients, HR, 1.48; 95% CI, 1.26-1.75). CONCLUSION: Long-term (15-year) survival of patients with aortic regurgitation is poor and is independent of regurgitation severity. In contrast, long-term survival of patients with mitral regurgitation correlates with regurgitation severity. For both groups, moderate or greater pulmonary artery systolic hypertension identified those at highest risk.

Transesophageal echocardiographic assessment of right atrial appendage anatomy and function: comparison with the left atrial appendage and implications for local thrombus formation.

OBJECTIVES: We sought to define right atrial appendage (RAA) anatomic and functional parameters in a consecutive series of participants and to compare these measures with left atrial appendage (LAA) indices among patients with in sinus rhythm and atrial fibrillation (AF). BACKGROUND: With AF, both atria are fibrillating, yet the vast majority of thrombi are located within the LAA. Transesophageal echocardiography provides anatomic and functional information regarding both the LAA and the RAA. METHODS: In a consecutive series of 92 patients (48 men; age 61 +/- 17 years) referred for transesophageal echocardiography, RAA and LAA anatomy (width, length, area) and ejection velocity were measured at two orientations (RAA, 90 and 135 degrees; LAA, 0 and 90 degrees). RESULTS: RAA anatomic measures were similar for both imaging planes, whereas LAA area was larger at 90 degrees. There was a modest correlation between RAA and LAA anatomic measures (area: r = 0.58, P = .001). RAA neck width was substantially greater than LAA neck width (P < .0001) whereas appendage area was similar (P = not significant) and RAA neck width/area was greater than LAA neck width/area (P < .0001). AF was associated with approximately 50% decline in ejection velocity for both the LAA and the RAA with an increase in LAA area (P = .006 vs sinus), but similar anatomic remodeling was not found for the RAA (P = not significant vs sinus). CONCLUSION: In this consecutive series of patients undergoing transesophageal echocardiography, RAA anatomic and functional parameters were found to be independent of imaging plane, with anatomic measures demonstrating a correlation with LAA measures. Although AF is associated with depressed RAA and LAA ejection velocities, anatomic RAA remodeling appears to be absent. The larger RAA width and lack of anatomic remodeling may partially explain the substantially lower prevalence of RAA thrombus found among patients with AF.