Fabrication of an optimal urethral graft using collagen-sponge tubes reinforced with Copoly(L-lactide/epsilon-caprolactone) fabric.

Isao Kanatani, Akihiro Kanematsu, Yasuyuki Inatsugu, Masaaki Imamura, Hiromitsu Negoro, Noriyuki Ito, Shingo Yamamoto, Yasuhiko Tabata, Yoshito Ikada, Osamu Ogawa
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引用次数: 27

Abstract

An ideal biomaterial for urethral reconstruction has not been developed. To create a urethral graft biomaterial with optimal biodegradability and biocompatibility, a copoly(L-lactide/epsilon-caprolactone) [P(LA/CL)] fabric tube was combined with a type I collagen sponge. The P(LA/CL) fibers were knitted into a vascular stent style (Type 1) or weaved into a mesh style (Type 2) to prepare P(LA/CL) tubes. The tubes were dipped in aqueous collagen solution and lyophilyzed to prepare the P(LA/CL)-collagen sponge graft. The grafts were applied to a 1.5-cm rabbit urethral defect (n = 14 for each condition), and tissue repair was evaluated using urethrographical, urethroscopical, and histological examination 1, 3, and 6 months after surgery. Although epithelialization was observed after 1 month in all Type 1 grafts, stenoses, fistulae, or stone formation was seen in 7 of the rabbits. In some cases, P(LA/CL) fibers prolapsed into the urethral lumen, causing stone formation. Only 3 rabbits survived for 6 months, and 2 of these had stenoses. For the Type 2 graft, all urethras were patent, without fistulae or stenoses, over the entire observation period. Histologically, urethral structure was disorganized for the Type 1 graft, whereas the urethral tissue on the Type 2 graft was slightly fibrotic but completely epithelialized and supported by a regenerated smooth muscle layer at 6 months. These findings suggest that creation of a scaffold suitable for urethral tissue regeneration will depend not only on the biomaterial composition, but also on the fabrication technique.

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用胶原-海绵管和共聚(l -丙交酯/epsilon-己内酯)织物增强的尿道移植物的制备。
目前还没有一种理想的尿道重建生物材料。为了制备具有最佳生物可降解性和生物相容性的尿道移植生物材料,我们将l -丙交酯/epsilon-己内酯共聚物[P(LA/CL)]织物管与I型胶原海绵结合。将P(LA/CL)纤维编织成血管支架型(1型)或编织成网状型(2型),制备P(LA/CL)管。将试管浸泡在胶原水溶液中,冷冻干燥,制备P(LA/CL)-胶原海绵移植物。将移植物应用于1.5 cm的兔尿道缺损(每种情况14例),术后1、3、6个月通过尿道造影、尿道镜检查和组织学检查评估组织修复情况。尽管1个月后,所有1型移植兔均出现上皮化,但其中7只兔出现狭窄、瘘管或结石形成。在某些情况下,P(LA/CL)纤维脱垂到尿道腔内,引起结石形成。仅3只存活6个月,其中2只出现狭窄。2型移植物在整个观察期内尿道均通畅,无瘘管或狭窄。组织学上,1型移植物尿道结构紊乱,而2型移植物尿道组织轻微纤维化,但在6个月时完全上皮化并由再生的平滑肌层支撑。这些发现表明,制造适合尿道组织再生的支架不仅取决于生物材料的组成,而且取决于制造技术。
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Tissue engineering
Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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