View clinical trials related to Hemodialysis Access Failure.
Filter by:Infiltration of a surgically-placed hemodialysis vascular access (HVA) is recognized as a major contributor to the high hospital re-admission rate in dialysis-dependent patients. Three dimensional modeling has been demonstrated as a critical tool for procedurists in preparation for surgical interventions but no such modeling is yet available for dialysis specialists to avoid the common complication of HVA infiltration. Contrast enhanced magnetic resonance angiography (MRA) can be used to generate a three dimensional image data that could render a three dimensional resin-based model of a vascular access.
Chronic Kidney disease (CKD) is a worldwide public health problem that classified into five stages (1). End stage renal disease (CDK stage 5) patients require a well-functioning vascular access (VA) for successful hemodialysis treatment (2). Types of VA include arteriovenous fistulae (AVFs) and arteriovenous grafts (AVGs). A vascular access is liable to early or late complications, and ultimately access failure. A meta-analysis showed that a 17% mean early access failure However recent studies have shown higher failure rates of up to 46%, with one year patencies between 52% to 83% (3). Low VA flow, thrombosis and loss of patency may result in under-dialysis that leads to increased morbidity, mortality and healthcare expenditure (4). In the majority of VAs, stenoses develop over variable intervals causing VA thrombosis and failure (5). If early detected and corrected, VA function and patency can be preserved and under-dialysis can be minimized or avoided. The aim of this study is to find out the role of periodic surveillance of VA in the detection of VA dysfunction and correctable lesions that may necessitate pre-emptive interventions to maintain VA patency and prevent VA loss