23 research outputs found

    Ultrasound-determined diameter measurements are more accurate than axial computed tomography after endovascular aortic aneurysm repair

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    ObjectiveThis study evaluated the correlation of ultrasound (US)-derived aortic aneurysm diameter measurements with centerline, three-dimensional (3-D) reconstruction computed tomography (CT) measurements after endovascular aortic aneurysm repair (EVAR).MethodsConcurrent CT and US examinations from 82 patients undergoing post-EVAR surveillance were reviewed. The aortic aneurysm diameter was defined as the major axis on the centerline images of 3-D CT reconstruction. This was compared with US-derived minor and major axis measurements, as well as with the minor axis measurement on the conventional axial CT images. Correlation was evaluated with linear regression analyses. Agreement between different imaging modalities and measurements was assessed with Bland-Altman plots.ResultsThe correlation coefficients from linear regression analyses were 0.92 between CT centerline major and US minor measurements, 0.94 between CT centerline major and US major measurements, and 0.93 between CT minor and centerline major measurements. Bland-Altman plots showed a mean difference of 0.11 mm between US major and CT centerline measurements compared with 5.38 mm between US minor and CT centerline measurements, and 4.25 mm between axial CT minor and centerline measurements. This suggested that, compared with axial CT and US minor axis measurements, US major axis measurements were in better agreement with CT centerline measurements. Variability between major and minor US and CT centerline diameter measurements was high (standard deviation of difference, 4.27-4.84 mm). However, high variability was also observed between axial CT measurements and centerline CT measurements (standard deviation of difference, 4.36 mm).ConclusionsThe major axis aneurysm diameter measurement obtained by US imaging for surveillance after EVAR correlates well and is in better agreement with centerline 3-D CT reconstruction diameters than axial CT

    Evaluation of Tracheal Imaging by Optical Coherence Tomography

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    Low-profile Zenith Alphaâ„¢ Thoracic Stent Graft Modification Using Preloaded Wires for Urgent Repair of Thoracoabdominal and Pararenal Abdominal Aortic Aneurysms

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    Background: The aim of this study is to describe a modification technique using the low-profile Cook Zenith Alpha™ thoracic stent graft, and addition of a preloaded wire system, for urgent repair of pararenal (PRA) and thoracoabdominal (TAAA) aortic aneurysms. Methods: We analyzed 20 consecutive patients who underwent urgent physician modified endograft repair (PMEG) of PRA and TAAA at 2 institutions. The low-profile Cook Zenith Alpha Thoracic stent graft was modified in accordance with each specific patient anatomic characteristics. End points were technical success, 30-day mortality, and major adverse events (MAEs). Results: Technical success was achieved in all patients (100%). A total of 76 renal-mesenteric arteries were incorporated by fenestrations (70%) or directional branches (30%) with an average of 3.7 ± 0.6 vessels per patient. There were 6 different types of stent configuration. The most common design consisted of 4 fenestrations (9 patients, 45%). The average of modification time was 110 ± 27 minutes. Total procedure time (including the time for open component) was 242 ± 75 minutes. There was no death within the first 30 days or hospital stay. MAEs occurred in 10 patients (50%). The most common MAEs were acute kidney injury (by Risk, Injury, and Failure; and Loss; and End-stage kidney disease criteria) in 6 patients (30%), estimated blood loss >1 L, respiratory failure requiring reintubation in 2 patients (10%) each, and paraplegia and ischemic colitis in 1 patient (5%) each. One patient (5%) required temporary, new-onset dialysis. Conclusions: PMEG using low-profile Zenith Alpha thoracic stent graft was safe with no early mortality and acceptable early morbidity. Copyright © 2020 Elsevier Inc. All rights reserved

    Physician-Modified Fenestrated Endovascular Repair for Iatrogenic Innominate Vein Injury

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    Iatrogenic innominate vein injuries are rare complications associated with internal jugular venous catheters. These complications are accompanied by high morbidity and mortality rates in patients with severe underlying medical conditions. Without proper treatment, emergency surgery may be needed due to acute cardiac tamponade or hemothorax. Endovascular repair can be advantageous for patients with significant medical comorbidities. Herein, we report the case of a 62-year-old female with an iatrogenic injury to the innominate vein at the subclavian vein and internal jugular confluence due to a malpositioned left internal jugular catheter. A customized fenestrated endograft was positioned with fenestration oriented to the internal jugular vein and a new tunneled catheter was inserted across the fenestration into the superior vena cava upon removal of the malpositioned catheter. In addition, a brachio-basilic arteriovenous fistula was created. At one month follow-up, the patient had a palpable thrill over the arteriovenous fistula and a functioning tunneled catheter

    Near-wall hemodynamic changes in subclavian artery perfusion induced by retrograde inner branched thoracic endograft implantation

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    Objective: Left subclavian artery (LSA)-branched endografts with retrograde inner branch configuration (thoracic branch endoprosthesis [TBE]) offer a complete endovascular solution when LSA preservation is required during zone 2 thoracic endovascular aortic repair. However, the hemodynamic consequences of the TBE have not been well-investigated. We compared near-wall hemodynamic parameters before and after the TBE implantation using computational fluid dynamic simulations. Methods: Eleven patients who had undergone TBE implantation were included. Three-dimensional aortic arch geometries were constructed from the pre- and post-TBE implantation computed tomography images. The resulting 22 three-dimensional aortic arch geometries were then discretized into finite element meshes for computational fluid dynamic simulations. Inflow boundary conditions were prescribed using normal physiological pulsatile circulation. Outlet boundary conditions consisted of Windkessel models with previously published values. Blood flow, modeled as Newtonian fluid, simulations were performed with rigid wall assumptions using SimVascular's incompressible Navier-Stokes solver. We compared well-established hemodynamic descriptors: pressure, flow rate, time-averaged wall shear stress (TAWSS), the oscillatory shear index (OSI), and percent area with an OSI of >0.2. Data were presented on the stented portion of the LSA. Results: TBE implantation was associated with a small decrease in peak LSA pressure (153 mm Hg; interquartile range [IQR], 151-154 mm Hg vs 159 mm Hg; IQR, 158-160 mm Hg; P = .005). No difference was observed in peak LSA flow rates before and after implantation: 40.4 cm3/ (IQR, 39.5-41.6 cm3/s) vs 41.3 cm3/s (IQR, 37.2-44.8 cm3/s; P = .59). There was a significant postimplantation increase in TAWSS (15.2 dynes/cm2 [IQR, 12.2-17.7 dynes/cm2] vs 6.2 dynes/cm2 [IQR, 5.7-10.3 dynes/cm2]; P = .003), leading to decreases in both the OSI (0.088 [IQR, 0.063 to –0.099] vs 0.1 [IQR, 0.096-0.16]; P = .03) and percentage of area with an OSI of >0.2 (10.4 [IQR, 5.8-15.8] vs 15.7 [IQR, 10.7-31.9]; P = .13). Neither LSA side branch angulation (median, 81°, IQR, 77°-109°) nor moderate compression (16%-58%) seemed to have an impact on the pressure, flow rate, TAWSS, or percentage of area with an OSI of >0.2 in the stented LSA. Conclusions: The implantation of TBE produces modest hemodynamic disturbances that are unlikely to result in clinically relevant changes

    Sandwich thoracic branch endoprosthesis technique for endovascular repair of thoracic aortic aneurysm with aberrant right subclavian artery

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    Subclavian artery coverage is frequently required to achieve an adequate proximal seal during thoracic endovascular aortic repair. The thoracic branch endoprosthesis (TBE; W.L. Gore & Associates) is the first U.S. Food and Drug Administration–approved branched device for thoracic endovascular aortic repair, designed for left subclavian artery incorporation. However, anatomic suitability of the TBE has been shown to be limited. In the present report, we describe a novel technique using the TBE in a sandwich periscope configuration to allow for emergent repair of a ruptured thoracic aortic aneurysm with a highly angulated proximal seal zone and aberrant right subclavian artery
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