Application situation of degradable coronary stents
10.3969/j.issn.2095-4344.2014.08.020
- VernacularTitle:可降解冠状动脉支架的应用现状
- Author:
Lufeng LI
;
Huanyun LIU
;
Xiaohui ZHAO
- Publication Type:Journal Article
- Keywords:
biocompatible materials;
stents;
coronary stenosis;
review
- From:
Chinese Journal of Tissue Engineering Research
2014;(8):1270-1276
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:The appearance of biodigradable stents brings a new dawn for the fourth coronary intervention revolution. They not only can solve the problem of postoperative acute occlusion of blood vessels, but also can be completely absorbed after a certain time.
OBJECTIVE: To summarize the application status of biodegradable coronary stents.
METHODS:PubMed, CBM and embase were searched for articles related to biodegradable intravascular stents.
RESULTS AND CONCLUSION:Biodegradable polymer stents, biodegradable magnesium stents and biodegradable iron stents are currently the three major research biodegradable stent systems. Numerous clinical trials have demonstrated the long-term safety and reliability of the biological degradation stents, and in the near future they wil replace the existing drug-eluting stents as the primary means of percutaneous coronary intervention. Biodegradable stents currently stil have their limitations, which are reflected in the relationship between mechanical properties and degradation rate and cannot be applied to complicated coronary patients temporarily. It takes 6-12 months to restore normal physiological function of blood vessels, and it can be considered reasonable that degradation of stents is completed in 12-24 months. Poly(lactic-co-glycolic) produced by polylactic acid and polyglycolic acid is currently widely recognized as the stent’s framework. We can get a more appropriate balance between the mechanical properties of the stent and the degradation rate by adjusting the ratio of polylactic acid and polyglycolic acid. This stent not only has good mechanical properties, but also can be completely biodegradable after the restoration of normal function of blood vessels, which has a broad research space.
