中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2013年
38期
6709-6716
,共8页
傅荣%游晓波%钟振东%李焰
傅榮%遊曉波%鐘振東%李燄
부영%유효파%종진동%리염
生物材料%组织工程骨材料%骨折愈合%植入体%羟基磷灰石%聚乳酸螺钉%犬股骨外髁骨折模型%省级基金
生物材料%組織工程骨材料%骨摺愈閤%植入體%羥基燐灰石%聚乳痠螺釘%犬股骨外髁骨摺模型%省級基金
생물재료%조직공정골재료%골절유합%식입체%간기린회석%취유산라정%견고골외과골절모형%성급기금
背景:将聚乳酸与羟基磷灰石复合可提升植入体的力学性能、理化性能。<br> 目的:应用犬股骨外髁骨折内固定模型,观察羟基磷灰石复合聚乳酸骨折内固定螺钉修复股骨外髁松质骨骨折的效果。<br> 方法:手术制备42只比格犬双侧股骨外髁骨折模型,左侧采用羟基磷灰石复合聚乳酸可吸收螺钉内固定作为实验组,右侧采用单纯聚乳酸螺钉内固定作为对照组。置入后2,4,8,12,24,36,48周获取标本,X射线观察骨折恢复情况,取股骨和螺钉标本进行病理组织学观察,检测螺钉质量、抗弯强度和重均分子质量,计算生物吸收率、强度衰减率和生物降解率。<br> 结果与结论:置入后2-48周,双侧骨折区内固定良好,新骨生长良好,实验组螺钉生物吸收率低于对照组(P ≤0.01)。实验组置入后2,4周螺钉抗弯强度高于对照组(P ≤0.05),置入后2-48周螺钉生物降解率低于对照组(P ≤0.05或P ≤0.01)。两组标本病理变化相似,置入后48周,骨折均愈合,骨组织重建良好。表明羟基磷灰石复合聚乳酸可吸收螺钉具备良好的内固定疗效和生物相容性,其力学性能和生物降解性能优于单纯聚乳酸螺钉。
揹景:將聚乳痠與羥基燐灰石複閤可提升植入體的力學性能、理化性能。<br> 目的:應用犬股骨外髁骨摺內固定模型,觀察羥基燐灰石複閤聚乳痠骨摺內固定螺釘脩複股骨外髁鬆質骨骨摺的效果。<br> 方法:手術製備42隻比格犬雙側股骨外髁骨摺模型,左側採用羥基燐灰石複閤聚乳痠可吸收螺釘內固定作為實驗組,右側採用單純聚乳痠螺釘內固定作為對照組。置入後2,4,8,12,24,36,48週穫取標本,X射線觀察骨摺恢複情況,取股骨和螺釘標本進行病理組織學觀察,檢測螺釘質量、抗彎彊度和重均分子質量,計算生物吸收率、彊度衰減率和生物降解率。<br> 結果與結論:置入後2-48週,雙側骨摺區內固定良好,新骨生長良好,實驗組螺釘生物吸收率低于對照組(P ≤0.01)。實驗組置入後2,4週螺釘抗彎彊度高于對照組(P ≤0.05),置入後2-48週螺釘生物降解率低于對照組(P ≤0.05或P ≤0.01)。兩組標本病理變化相似,置入後48週,骨摺均愈閤,骨組織重建良好。錶明羥基燐灰石複閤聚乳痠可吸收螺釘具備良好的內固定療效和生物相容性,其力學性能和生物降解性能優于單純聚乳痠螺釘。
배경:장취유산여간기린회석복합가제승식입체적역학성능、이화성능。<br> 목적:응용견고골외과골절내고정모형,관찰간기린회석복합취유산골절내고정라정수복고골외과송질골골절적효과。<br> 방법:수술제비42지비격견쌍측고골외과골절모형,좌측채용간기린회석복합취유산가흡수라정내고정작위실험조,우측채용단순취유산라정내고정작위대조조。치입후2,4,8,12,24,36,48주획취표본,X사선관찰골절회복정황,취고골화라정표본진행병리조직학관찰,검측라정질량、항만강도화중균분자질량,계산생물흡수솔、강도쇠감솔화생물강해솔。<br> 결과여결론:치입후2-48주,쌍측골절구내고정량호,신골생장량호,실험조라정생물흡수솔저우대조조(P ≤0.01)。실험조치입후2,4주라정항만강도고우대조조(P ≤0.05),치입후2-48주라정생물강해솔저우대조조(P ≤0.05혹P ≤0.01)。량조표본병리변화상사,치입후48주,골절균유합,골조직중건량호。표명간기린회석복합취유산가흡수라정구비량호적내고정료효화생물상용성,기역학성능화생물강해성능우우단순취유산라정。
BACKGROUND:Through compounding hydroxyapatite and poly-DL-lactide, the mechanical properties, physical and chemical properties of the implants can be enhanced. <br> OBJECTIVE:To detect the effect of hydroxyapatite/poly-DL-lactide composite internal fixation screws in canine femoral condyle cancel ous bone fracture repair. <br> METHODS:Forty-two beagle dogs were operated to bilateral femoral condyle fracture models. The left side was fixed using hydroxyapatite/poly-DL-lactide screws as experimental group;while the right side was fixed with pure poly-DL-lactide screws as control group. After 2, 4, 8, 12, 24, 36 and 48 weeks, conditions of fracture were observed using X-ray, femoral and screw specimens were observed histopathological y, and the bending strength and the average molecular weight were detected. The biological absorption rate, intensity decay rate and biodegradation rate were calculated. <br> RESULTS AND CONCLUSION:After 2-48 weeks, bilateral fractures were fixed wel and new bone grew wel , but the biological absorption rate of the screws in the experimental group was lower than that in the control group (P ≤0.01). In the first 2, 4 weeks, the bending strength of the experimental screws was higher than that of the control screw (P ≤0.05), but the biodegradable speed was slower in the former one (P ≤ 0.05 or P ≤ 0.01). The pathological changes were similar in the two groups. After 48 weeks, the fractures were healed and bone tissue reconstruction was completed. Compared with the pure poly-DL-lactide screws, the hydroxyapatite/poly-DL-lactide composite internal fixation screws have better fixation effects, biocompatibility, mechanical properties and biodegradability.
