The effect of porosity and mechanical property of a synthetic polymer scaffold on repair of osteochondral defects.

Ikeda R; Fujioka H; Nagura I

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The effect of porosity and mechanical property of a synthetic polymer scaffold on repair of osteochondral defects.

机译：合成聚合物支架的孔隙率和机械性能对骨软骨缺损修复的影响。

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We have made three types of poly (DL-lactide-co-glycolide) (PLG) scaffolds (porosity: scaffold I 80 +/- 0.9%, II 85 +/- 0.8%, III 92 +/- 0.7%; compression module determined with 10% strain: scaffold I 0.26 MPa, II 0.091 MPa, III 0.0047 MPa). Osteochondral defects made in the femoral condyle of rabbits were treated with these scaffolds and the possibilities of cartilage repair were investigated histologically. At post-operative weeks 6 and 12, histological scores in the groups of scaffolds II and III were significantly higher than the score in the group of scaffold I. Scaffolds II and III, which have higher porosity than scaffold I, allow better migration of bone marrow cells and better replacement of the scaffold with bone and cartilage than scaffold I. This study suggests that higher porosity allowing bone marrow cells to migrate to the scaffold is important in repairing osteochondral defects.

机译：我们已经制作了三种类型的聚（DL-丙交酯-乙交酯）（PLG）支架（孔隙度：支架I 80 +/- 0.9％，II 85 +/- 0.8％，III 92 +/- 0.7％;压缩模块在10％应变下测定：支架I（0.26 MPa，II（0.091 MPa），III（0.0047 MPa）。用这些支架治疗兔股骨dy中的软骨软骨缺损，并通过组织学研究软骨修复的可能性。术后第6周和第12周，支架II和III组的组织学评分显着高于支架I组的得分。孔隙度II和III高于支架I的支架II和III使骨骼更好地迁移骨髓细胞以及比支架I更好的用骨骼和软骨替代支架。这项研究表明，更高的孔隙度允许骨髓细胞迁移到支架上对于修复骨软骨缺损很重要。

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《International Orthopaedics》 |2009年第3期|共8页
作者
Ikeda R; Fujioka H; Nagura I;
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正文语种 eng
中图分类骨科学（运动系疾病、矫形外科学）;
关键词
Animals; Biocompatible Materials; Biomechanics; Bone Marrow Cells; Cartilage; Articular; Cell Movement; Cell Transplantation; Cells; Cultured; Disease Models; Animal; Female; Femur; Lactic Acid; Materials Testing; Osseointegration; Polyglycolic Acid; Porosity; Rabbits; Tissue Engineering; Wound Healing;

机译：动物;生物相容性材料;生物力学;骨髓细胞;软骨;关节;细胞运动;细胞移植;细胞;培养;疾病模型;动物;雌性;股骨;乳酸;材料测试;骨整合;聚乙醇酸;孔隙度;兔;组织工程;伤口愈合;

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专利

1. The effect of porosity and mechanical property of a synthetic polymer scaffold on repair of osteochondral defects. [J] . Ikeda R, Fujioka H, Nagura I International Orthopaedics . 2009,第3期

机译：合成聚合物支架的孔隙率和机械性能对骨软骨缺损修复的影响。
2. PEOT/PBT based scaffolds with low mechanical properties improve cartilage repair tissue formation in osteochondral defects. [J] . Jansen EJ, Pieper J, Gijbels MJ, Journal of biomedical materials research, Part A . 2009,第2期

机译：具有低机械性能的PEOT / PBT基支架可改善骨软骨缺损中的软骨修复组织形成。
3. A new bioabsorbable cotton-textured synthetic polymer scaffold for osteochondral repair [J] . Ryosuke Sakata, Takeshi Kokubu, Yutaka Mifune, International Orthopaedics . 2014,第11期

机译：一种新型的可生物吸收的棉质合成聚合物支架，用于骨软骨修复
4. Ad-HGF Gene Transduced-MSCs Combined Double-lay polymer scaffold to repair osteochondral defects simultaneously [C] . SUN Mingxue, ZHANG Dong, LU Shibi, World Congress for Chinese Biomedical Engineers . 2004

机译：Ad-HGF基因转导的MSCs结合双层高分子支架同时修复骨软骨缺损
5. Additives to control mechanical properties and drug delivery of injectable polymeric scaffolds. [D] . Fisher, Paul Daniel. 2014

机译：用于控制可注射聚合物支架的机械性能和药物输送的添加剂。
6. The effect of porosity and mechanical property of a synthetic polymer scaffold on repair of osteochondral defects [O] . Risa Ikeda, Hiroyuki Fujioka, Issei Nagura, 2009

机译：合成聚合物支架的孔隙率和力学性能对骨软骨缺损修复的影响
7. The effect of porosity and mechanical property of a synthetic polymer scaffold on repair of osteochondral defects [O] . Ikeda, Risa, Fujioka, Hiroyuki, Nagura, Issei, 2008

机译：合成聚合物支架的孔隙率和力学性能对骨软骨缺损修复的影响

The effect of porosity and mechanical property of a synthetic polymer scaffold on repair of osteochondral defects.

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