دانلود رایگان مقاله استنت اورترال زیست تجزیه پذیر مبتنی بر ژلاتین با خواص مکانیکی

عنوان فارسی
استنت اورترال زیست تجزیه پذیر مبتنی بر ژلاتین با خواص مکانیکی بهبود یافته
عنوان انگلیسی
Gelatin-based biodegradable ureteral stents with enhanced mechanical properties
صفحات مقاله فارسی
0
صفحات مقاله انگلیسی
10
سال انتشار
2016
نشریه
الزویر - Elsevier
فرمت مقاله انگلیسی
PDF
کد محصول
E260
رشته های مرتبط با این مقاله
مهندسی مواد و پزشکی
گرایش های مرتبط با این مقاله
خوردگی و حفاطت از مواد و بهداشت حرفه ای
مجله
مواد کاربردی امروز
دانشگاه
موسسه بهداشت علوم تحقیقات (ICVS)، دانشکده علوم بهداشت، دانشگاه مینهو، پرتغال
کلمات کلیدی
زیست تجزیه پذیر، استنت اورترال، مبتنی بر ژلاتین، هیدروژل، ویژگی های مکانیکی
۰.۰ (بدون امتیاز)
امتیاز دهید
چکیده

Abstract


A first generation of biodegradable ureteral stents based on natural origin polymers developed in a previous work has proven to be an interesting alternative to conventional stents, but it has however demonstrated to fail upon the first in vivo validation in a pig model. In this work, with the objective to overcome the low mechanical performance encountered and to make the biodegradable ureteral stents by origin polymers a success in vivo, four formulations with different concentrations of gelatin and alginate and different concentrations of crosslinking agent were tested in order to obtain higher mechanical properties. Bismuth was added to confer radiopaque properties to the stent. Not only a new formulation was developed but also the processing method to fabricate the stents was optimized. The biodegradable ureteral stents were coated with a biodegradable polymer. X-ray scan demonstrated the radiopacity of this second generation of biodegradable stents. The degradation of the biodegradable ureteral stents was assessed in artificial urine solution and it was observed that the degradation of the materials occurs in vitro between 9 and 15 days. Degradation was followed by weight loss of the samples and by chemical analysis of the solutions both by inductive couple plasma (ICP) and gel permeation chromatography (GPC). Formulation with highest amount of gelatin has shown good mechanical performance in terms of tensile properties when compared with the commercial stent (Biosoft® duo, Porges, Coloplast), and the crosslinking concentration has shown not to have a great influence on the mechanical behavior of the stents. The in vivo performance of this second-generation of the ureteral stents was herein validated. The biodegradable ureteral stents were placed in the ureters of a female pig, following the normal surgical procedure. The animals remained asymptomatic, with normal urine flow, the stents remain intact during the first 3 days and after 10 days the ureteral stents were totally degraded. This new formulation combined with a new production process overcomes the problems verified with the first generation of natural-based biodegradable stents.

نتیجه گیری

4. Conclusions


The results obtained from the experiments performed demonstrate that different mixtures of alginate and gelatin and different concentrations of crosslinking agent can be used to obtain a biodegradable ureteral stent from natural origin polymers which may be used for the treatment of urological disorders. In this work we show thatthis second-generation of stents, presents radiopaque properties even in the wet state. Furthermore, we demonstrate that in vitro a higher concentration of gelatin in the biodegradable stent resulted in higher mechanical properties, and a higher concentration of alginate slows the degradation in vitro. The leachables and the degradation products have shown to be non-cytotoxic and the degradation of the stent has shown to be homogenous as the degradation occurs by erosion of the material. The secondgeneration of biodegradable ureteral stents herein developed could be implanted following the conventional surgical procedure performed daily in the clinical practice. The ureteral stent remains intact during the first 3 days and starting to degrade after that. Full degradation is achieved after 10 days, without any presence of stent remaining inside the ureter. The stents developed was demonstrated to be safe and fulfilled the function of keeping the flow of urine from kidney to bladder while implanted in the ureter.


بدون دیدگاه