Abstract 3143: Computational Modeling Of Non-homeostatic Changes Within An Arterial-venous Fistula System Using In Vivo Validation To Understand Mechanical Causes Of Fistula Failure
Varsanik M, Thaxton C, Li W, Dardik A, Pocivavsek L. Abstract 3143: Computational Modeling Of Non-homeostatic Changes Within An Arterial-venous Fistula System Using In Vivo Validation To Understand Mechanical Causes Of Fistula Failure. Arteriosclerosis Thrombosis And Vascular Biology 2024, 44: a3143-a3143. DOI: 10.1161/atvb.44.suppl_1.3143.Peer-Reviewed Original ResearchArteriovenous fistulaFistula failureNeointimal hyperplasiaLong-term dialysis accessFistula systemClinical problemEnd stage renal patientsPresence of arteriovenous fistulaStatic pressureArteriovenous fistula failureCT angiography scansMurine AVF modelStenotic veinsVenous stenosisAngiography scansStatic pressure peakDialysis accessFistulaAnesthetized miceRenal patientsVenous velocityFistula modelIn vivo validationHigh static pressureNative veins