Overview
Patients with ESRD are able to maintain life by undergoing renal replacement therapy, including hemodialysis (HD), peritoneal dialysis (PD) or kidney transplantation. HD continues to be the primary option. Arteriovenous fistula (AVF) and arteriovenous graft (AVG) are the common access sites for hemodialysis (HD) patients. AVF is the best access for dialysis , which is known as the lifeline of hemodialysis patients, but requires 6 to 8 weeks to maturate. Long-term use of an AVF for dialysis requires the ability of the dialysis staff to cannulate it successfully with large-bore needles thrice weekly. With increasing AVF prevalence as well as aging and more obese populations in the developed world, increasing numbers of difficult-to-cannulate AVFs are being encountered in practice.
Traditionally, after maturation, cannulation of new AVF/AVG was performed by trained renal nurses through physical examination, namely listening to bruits and feeling for thrills to guide needle placement, known as "blind" cannulatio. However, physical examination is not reliable for first and difficult access cannulation (e.g., small or partial stenosis, deep-seated AVF/AVG, presence of clots, after multiple failed attempts with hematoma /swelling, and/or immature access with small vessel caliber), rendered higher rate of cannulation failure and lower AVF and AVG survival. Unfortunately, cannulation failure result in access damage, vessel intimal lining damage leading to stenosis, thrombosis, or aneurysm formation contributing to AVF failure, treatment delay and increased requirement for central venous access devices (CVAD). Patients with early AVF failure have much higher mortality risk, particularly if they are older and female. Van Loon et al. revealed that up to 90% of the first cannulation had complications (i.e., infiltration including hematoma formation and missed cannulation). With a high rate of AVF maturation failure (38-60%) in general, cannulation failure may be avoidable if a more in-depth assessment was done before the attempt.
Ultrasound (US) guided cannulation effective in identifying access location and patency. Roshan et al. reported a case study on bedside ultrasonography for AVF cannulation. The study showed decreased cannulation failure, vessel wall damage, thrombosis, and hematoma formation risks also reduced missed cannulation and increased staff confidence in performing cannulation.
Therefore, this study aims to explore the effects of ultrasound technology on arteriovenous access successful cannulation for patients with end-stage kidney disease to provide reliable research integration evidence as the basis for future clinical care.
Eligibility
Inclusion Criteria:
- Those who can undergo the first arteriovenous canal puncture after being evaluated by a physician more than 8 weeks after surgery.
- The puncture has failed more than 2 times, and there are bruises or hematomas around the arteriovenous and venous vessels.
- Arteriovenous and venous ducts Ultrasonic detection of arteriovenous and venous ducts ≧0.4, the depth of blood vessels from the skin is 0.4-0.7 cm.
- The patient has clear consciousness and normal cognitive and communication abilities.
Exclusion Criteria:
- Under 20 years old.
- Complex pathways assessed by physicians as having a high risk of complications (diameter ≤ 0.4 cm or depth of blood vessel from skin ≥ 0.8 cm).