Physical Properties of a New Type of Self-expandable Nitinol Stent.
10.3348/jkrs.1999.41.2.275
- Author:
SangSoo PARK
1
;
Tae Hyung KIM
;
Sang Woo SONG
;
Seong Gwon KANG
;
Soo Jin HUH
;
Eun Sang KIM
;
Cheol Saeng KIM
;
Ho Young SONG
Author Information
1. Department of Biomedical Engineering, Asan Medical Center, University of Ulsan College of Medicine, Korea.
- Publication Type:Original Article
- Keywords:
Stents and prostheses
- MeSH:
Pliability;
Stents*;
Wind;
Wounds and Injuries
- From:Journal of the Korean Radiological Society
1999;41(2):275-280
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
PURPOSE: To study the physical properties including hoop strength and flexibility of a newly developed nitinol stent. MATERIALS AND METHODS: The new stent was made of a single nitinol wire 0.15 -0 . 25 mm in diameter. This was wound around a cylindrical metallic jig with a constant angle to the longitudinal direction, and stents which varied with regard to wire thickness, number of wires at a lateral cut surface, and number of longitudinal windings were constructed. Hoop strength of the stents was measured with a spring gauge and compared with that of Wallstent and Hanaro stents. The flexibility of the new stent was evaluated on the basis of changes in s-tent diameter when bent in the direction of 180 degrees. RESULTS: Hoop strength of the new nitinol stent was proportional to 3.8(+/-0.3)-th power of the wire thickness. A greater number of wires on a lateral cut surface or a greater number of longitudinal windings also resulted in increased strength. However, the former caused an increase in total wire area and the latter resulted increased stent length when compressed. Hoop strength of the new nitinol stent was superior to that of Wallstent and Hanaro stents, and stent diameter did not decrease when the stent was bent in the direction of 180 degrees. CONCLUSIONS: Hoop strength of the new nitinol stent was most significantly affected by wire thickness. The s-tent was very flexible and thus seemed suitable for an angled lumen.