| 人工可吸收颈椎融合器组织相容性的实验研究 |
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| 引用本文: | 于博,靳安民,吴广森,田京,周初松,童斌辉,张辉,郭琳琅.人工可吸收颈椎融合器组织相容性的实验研究[J].中国组织工程研究与临床康复,2003,7(6):908-909. |
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| 作者姓名: | 于博 靳安民 吴广森 田京 周初松 童斌辉 张辉 郭琳琅 |
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| 作者单位: | 1. 解放军第一军医大学附属珠江医院脊柱骨病科,广东省广州市,510282
2. 解放军第一军医大学附属珠江医院病理科,广东省广州市,510282 |
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| 基金项目: | 广东省自然科学基金重点攻关课题(2001A302020205) |
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| 摘 要: | 目的:近10年颈椎融合器正逐渐成为颈椎病的治疗的首选融合手段。评价一种可降解的生物复合材料制成的颈椎融合器的毒性及组织相容性。方法:将复合材料分别植入12只新西兰大白兔背部皮下及筋膜下,分别于4,8,12,16,20,24周取材,对其周围组织进行组织病理学切片。结果:所有植入材料未发现过敏、动物死亡等并发症,材料周围组织炎症反应较轻,可以使组织细胞快速长入。结论:HA/PLLA复合材料具有良好的生物相容性,较适宜的降解性及较高的机械强度,降解后力学丢失少,是一种有前途的颈椎融合器材料。
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| 关 键 词: | 脊柱融合术/仪器和设备 颈椎病/外科学 生物相容性材料 羟基磷灰石类 乳酸盐类 |
| 文章编号: | 1671-5926(2003)06-0908-02 |
| 修稿时间: | 2002年7月16日 |
Histocompatibility behavior of bioresorbable composite of HA/PLLA cage in vivo |
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| Yu Bo,Jin Anmin,Wu Guangsen,Tian Jing,Zhou Chusong,Tong Binhui,Zhang Hui,Guo Linlang Yu Bo,Jin Anmin,Wu Guangsen,Tian jing,Zhou Chusong,Tong binhui,Zhang Hui,Guo Linlang.Histocompatibility behavior of bioresorbable composite of HA/PLLA cage in vivo[J].Journal of Clinical Rehabilitative Tissue Engineering Research,2003,7(6):908-909. |
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| Authors: | Yu Bo Jin Anmin Wu Guangsen Tian Jing Zhou Chusong Tong Binhui Zhang Hui Guo Linlang Yu Bo Jin Anmin Wu Guangsen Tian jing Zhou Chusong Tong binhui Zhang Hui Guo Linlang |
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| Institution: | Yu Bo,Jin Anmin,Wu Guangsen,Tian Jing,Zhou Chusong,Tong Binhui,Zhang Hui,Guo Linlang Yu Bo1,Jin Anmin1,Wu Guangsen1,Tian jing1,Zhou Chusong1,Tong binhui1,Zhang Hui1,Guo Linlang2,1Department of Spine Osteopathy,2Department of Pathology,Zhujiang Hospital,First Military Medical University,Guangzhou 510282,Guangdong Province,China |
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| Abstract: | AIM:To study the histocompatibility and the biodegradation behavior of a bioactive and bioresorbable composite of HA/PLLA cage.METHODS: Composite of HA/PLLA was implanted to the subcutaneous and muscles of 12 New Zealand rabbits. After 4,8,12,16,20,24 weeks, the composite and the surrounding tissue was extracted and was made histology ,and the basic mechanical characteristics of HA/PLLA was tested. RESULT: The present results demonstrated that HA/PLLA cage had a mild inflammatory reaction in the early days of grafting, and after 12 weeks the inflammation basically subsided. And it was shown that although the HA/PLLA cage became increasingly fragile as they degraded, they retained 80%of its initial bending strength after four weeks. Bending strength was 75%after 24 weeks in vivo. CONCLUSION:HA/PLLA cage is biodegradable, biocompatible material. It is worth further medical research and surgical application in spinal surgery. |
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| Keywords: | spinal fusion/ instrumentation cervical spondylosis/ surgery biocompatible materials hydroxyapatites lactates |
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