Three-dimensional (3D) Printed Hemodialysis Vascular Model
- Conditions
- Hemodialysis Access Failure
- Interventions
- Device: The three-dimensional (3D) printed hemodialysis vascular model
- Registration Number
- NCT05096416
- Lead Sponsor
- Brigham and Women's Hospital
- Brief Summary
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.
- Detailed Description
Hemodialysis is the most common treatment for End Stage Renal Disease (ESRD). For an optimal renal replacement therapy, a patent vascular access (VA) is essential. The importance of good vascular access maintenance has been strongly supported by the guidelines (1). Various hinderances render this goal unachievable. A well-known cause of VA failure is access infiltration, which is usually overlooked in clinical practices (2). The calculated economic burden attributable to VA complication is between $16,864 -US$20,961 and more than 50% is due to access infiltration alone (3). Imaging has a pivotal pre- and post-operative role in evaluating vascular access complications. Imaging modalities such as ultrasound (US), Digital Subtraction Angiography (DSA) and Magnetic Resonance Angiography (MRA) are available but their use is limited due to the limited view of plane available for visualization of vessel anatomy(4) and because of the deleterious side effects of the contrast agents used (5,6). Contrast enhanced Magnetic Resonance Angiography (MRA) provides an excellent means of imaging the vasculature (7) which can be reconstructed in a three- dimensional(3D) print. The skill set of dialysis technician nurses play a considerable role in achieving successful cannulation of the fistula. Due oftentimes to complicated vascular anatomy, cannulation based on cutaneous anatomic landmarks and physical examination can be deceiving. Even a minor error in cannulation can impair access longevity(3). The 3D image reconstruction provides a practical solution to generate a 3D VA model which can be used by the procedurists to cannulate the patients, reducing the complications and rate of re admissions. Overall, a significant reduction in the health care cost can be achieved
Recruitment & Eligibility
- Status
- NOT_YET_RECRUITING
- Sex
- All
- Target Recruitment
- 20
- Patients with a surgically placed hemodialysis access which has been used in the last 90 days or is being prepared for use in the next 90 days
- Patients with only failed hemodialysis surgical access(es) that has/have not been used for >90 days.
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Arm && Interventions
Group Intervention Description Intervention arm The three-dimensional (3D) printed hemodialysis vascular model Patients in this arm will have a three-dimensional (3D) printed vascular access model to assist the dialysis technician and nurse in cannulation.
- Primary Outcome Measures
Name Time Method Quantify the number of dialysis treatments completed 12 month
- Secondary Outcome Measures
Name Time Method Quantify annual hospitalization rate compared to controls 12 month Quantify the number of vascular access interventions over a 12-month period compared to controls 12 month
Trial Locations
- Locations (1)
Brigham and Women's Hospital
🇺🇸Boston, Massachusetts, United States