Anti-Reflux Ureteral Stent with Polymeric Flap Valve Using Three-Dimensional Printing: An In Vitro Study

Overview

Journal J Endourol

Publisher Mary Ann Liebert

Specialties Gastroenterology
Urology

Date 2015 Mar 27

PMID 25811682

Citations 18

Authors

Chang-Ju Park

Hyeon-Woo Kim

Sangdo Jeong

Seungwan Seo

Yangkyu Park

Hong Sang Moon

Jong-Hyun Lee

Affiliations

Soon will be listed here.

Abstract

Purpose: This article aims to describe the design of an anti-reflux ureteral stent with a polymeric flap valve and the fabrication methods using three-dimensional (3D) printing. The stent effectively prevents backward flow with a negligible reduction in forward flow. Fabrication of miniaturized valves was easy with high precision and rapid prototyping.

Materials And Methods: The proposed stent comprised a 7F Double-J (DJ) stent and a polymeric flap valve. The valve was made of Tango Plus FLX980 and was fabricated using a 3D printer. Two types of stent were prepared for in vitro tests: DJ stents with (1) an uncoated valve (UCV) stent and (2) a parylene C coated valve (PCV) stent for enhanced biocompatibility. The flow characteristics of each stent were evaluated considering flow direction, parylene coating, and stent side holes, and were compared to the intact DJ stent.

Results: The forward flow rate for the distal portion of the UCV and PCV stents was 9.8 mL/min and 7.8 mL/min at applied pressure of 15 cm H2O (normal anterograde pressure in patients with stents), respectively. Backward flow rate for the distal portion of the UCV and PCV stents was decreased by 28 times and 8 times at applied pressure of 50 cm H2O (maximum bladder pressure), respectively, compared with the distal portion of the intact DJ stent. Forward flow rates of whole stents were 22.2 mL/min (UCV stent) and 20.0 mL/min (PCV stent) at applied pressure of 15 cm H2O, and backward flow rates of whole UCV and PCV stents were decreased by 8.3 times and 4.0 times at applied pressure of 50 cm H2O, respectively, compared with the intact DJ stent.

Conclusions: The anti-reflux ureteral stent was successfully designed and fabricated using a 3D printer. In vitro studies showed that the stent effectively prevented backward flow while minimizing reduction in forward flow.

Citing Articles

Foley catheter after ureteroscopy and JJ stent placement: a randomised prospective European Association of Urology Section of Urolithiasis-Young Academic Urologists (EULIS-YAU) endourology study.

Sener T, Ozgur G, Cetin M, Pietropaolo A, Tzelves L, Esperto F BJU Int. 2024; 135(1):95-102.

PMID: 39129326 PMC: 11628925. DOI: 10.1111/bju.16504.

Novel anti-reflux ureteral skirt: proof of concept in a Yorkshire-Landrace pig model.

Lu Y, Tay J, Lim K, Ng L World J Urol. 2024; 42(1):437.

PMID: 39046550 DOI: 10.1007/s00345-024-05157-0.

Antireflux Ureteral Stents Prevent Stent-Related Symptoms: A Meta-Analysis of Randomized Controlled Trials.

Adhoni M, Homsi A, Ali Z, Almushatat A Cureus. 2023; 15(11):e49375.

PMID: 38146582 PMC: 10749409. DOI: 10.7759/cureus.49375.

Three-Dimensional Printing and Bioprinting in Renal Transplantation and Regenerative Medicine: Current Perspectives.

Christou C, Vasileiadou S, Sotiroudis G, Tsoulfas G J Clin Med. 2023; 12(20).

PMID: 37892658 PMC: 10607284. DOI: 10.3390/jcm12206520.

Comprehensive overview of ureteral stents based on clinical aspects, material and design.

Bernasconi V, Tozzi M, Pietropaolo A, De Coninck V, Somani B, Tailly T Cent European J Urol. 2023; 76(1):49-56.

PMID: 37064263 PMC: 10091895. DOI: 10.5173/ceju.2023.218.