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PURPOSE: To describe the concept of aortic elastic deformation (ED) measurement using duplex ultrasonography (DUS) as a tool for detection of high aneurysm sac pressure following endovascular aortic repair (EVAR). TECHNIQUE: High aneurysm sac pressure, with or without proven endoleak, will result in a less compressible aneurysm. Using the dual image function in B-mode of the DUS device and a standardized amount of applied probe pressure, ED can be measured. It is defined as the percentage of deformation of the aneurysm sac on probe pressure application. We hypothesize that less ED of the aneurysm sac can be related with high aneurysm sac pressure and possibly the presence of clinically relevant endoleak. In this note, we describe the technical details of the procedure and report on the applicability and results of ED measurements in the framework of aortic aneurysm and EVAR follow-up in a cohort of 109 patients. CONCLUSION: ED measurement is the first noninvasive pressure-based method in the quest to find a practical and reliable diagnostic tool to exclude high aneurysm sac pressure. In our patient cohort, patients with proven endoleak showed a smaller ED (less compressible), implying the presence of high aneurysm sac pressure. Further research should confirm whether ED measurement using DUS could reliably exclude endoleak after EVAR and further explore its potential for clinical application in EVAR follow-up. CLINICAL IMPACT: For the first time, a simple, fast, and inexpensive diagnostic tool is presented in this study for detecting high sac pressure following EVAR. High sac pressure is typically caused by clinically significant endoleaks, which can have significant consequences. Currently, computed tomography scanning is the most common method used to identify and characterize endoleaks. However, measuring elastic deformation may potentially replace more invasive and expensive modalities, such as the computed tomography in the future.
RESUMO
BACKGROUND: In patients with significant (moderate and severe) tricuspid regurgitation (TR), the decision to intervene is influenced by right ventricular (RV) size and function. RV remodeling in significant secondary TR has been underexplored. The aim of this study was to characterize RV remodeling in patients with significant secondary TR and to investigate its prognostic implications. METHODS: RV remodeling was characterized by transthoracic echocardiography in 1292 patients with significant secondary TR (median age 71 [62-78]; 50% male). Four patterns of RV remodeling were defined according to the presence of RV dilation (tricuspid annulus≥40 mm) and RV systolic dysfunction (tricuspid annulus systolic excursion plane<17 mm): pattern 1, normal RV size and systolic function; pattern 2, dilated RV with preserved systolic function; pattern 3, normal RV size with systolic dysfunction; and pattern 4, dilated RV systolic dysfunction. The primary end point was all-cause mortality and the event rates were compared across the 4 patterns of RV remodeling. RESULTS: A total of 183 (14%) patients showed pattern 1 RV remodeling; 256 (20%) showed pattern 2; 304 (24%) presented with pattern 3; and 549 (43%) had pattern 4 RV remodeling. Patients with pattern 4 RV remodeling were more frequently male; more often had coronary artery disease, worse renal function, and impaired left ventricular ejection fraction; and were more often symptomatic. Only 98 (8%) patients underwent tricuspid valve annuloplasty during follow-up. During a median follow-up of 34 (interquartile range, 0-60) months, 510 (40%) patients died. The 5-year survival rate was significantly worse in patients presenting with patterns 3 and 4 RV remodeling in comparison with pattern 1 (52% and 49% versus 70%; P=0.002 and P<0.001, respectively), and were independently associated with poor outcome on multivariable analysis. CONCLUSIONS: In patients with significant secondary TR, patients with RV systolic dysfunction have worse clinical outcome regardless of the presence of RV dilation.