中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2014年
25期
3937-3941
,共5页
张喜海%黄树华%李森%鲁晓波
張喜海%黃樹華%李森%魯曉波
장희해%황수화%리삼%로효파
生物材料%骨生物材料%自固化磷酸钙人工骨Ⅱ%肩袖腱-骨界面%生物力学%修复
生物材料%骨生物材料%自固化燐痠鈣人工骨Ⅱ%肩袖腱-骨界麵%生物力學%脩複
생물재료%골생물재료%자고화린산개인공골Ⅱ%견수건-골계면%생물역학%수복
calcium phosphates%biomechanics%bone morphogenetic proteins
背景:磷酸钙人工骨与重组人骨形态发生蛋白2在实验中均有成骨诱导作用,有修复腱骨界面损伤的可能。目的:评估自固化磷酸钙人工骨Ⅱ(含重组人骨形态发生蛋白2)修复兔肩袖腱-骨界面损伤后的生物力学变化。方法:取27只成年健康家兔,其中3只直接取双侧肩关节腱-骨界面标本作为正常组,余下的24只家兔双侧肩关节接受兔肩袖急性断裂腱-骨止点重建手术,术中实验组12只填塞自固化磷酸钙人工骨Ⅱ,对照组12只不填塞任何药物。分别于术后2,4,8周采集标本行生物力学测试。结果与结论:实验组各时间点肩袖腱-骨界面最大抗拉强度均高于对照组(P <0.001),但低于正常组(P <0.001);实验组术后8周肩袖腱-骨界面刚度高于对照组(P <0.001),但低于正常组(P <0.001)。表明自固化磷酸钙人工骨Ⅱ可以在术后早期提高兔腱-骨界面的最大抗拉强度和刚度,增强腱-骨界面结合力,促进腱骨界面愈合。
揹景:燐痠鈣人工骨與重組人骨形態髮生蛋白2在實驗中均有成骨誘導作用,有脩複腱骨界麵損傷的可能。目的:評估自固化燐痠鈣人工骨Ⅱ(含重組人骨形態髮生蛋白2)脩複兔肩袖腱-骨界麵損傷後的生物力學變化。方法:取27隻成年健康傢兔,其中3隻直接取雙側肩關節腱-骨界麵標本作為正常組,餘下的24隻傢兔雙側肩關節接受兔肩袖急性斷裂腱-骨止點重建手術,術中實驗組12隻填塞自固化燐痠鈣人工骨Ⅱ,對照組12隻不填塞任何藥物。分彆于術後2,4,8週採集標本行生物力學測試。結果與結論:實驗組各時間點肩袖腱-骨界麵最大抗拉彊度均高于對照組(P <0.001),但低于正常組(P <0.001);實驗組術後8週肩袖腱-骨界麵剛度高于對照組(P <0.001),但低于正常組(P <0.001)。錶明自固化燐痠鈣人工骨Ⅱ可以在術後早期提高兔腱-骨界麵的最大抗拉彊度和剛度,增彊腱-骨界麵結閤力,促進腱骨界麵愈閤。
배경:린산개인공골여중조인골형태발생단백2재실험중균유성골유도작용,유수복건골계면손상적가능。목적:평고자고화린산개인공골Ⅱ(함중조인골형태발생단백2)수복토견수건-골계면손상후적생물역학변화。방법:취27지성년건강가토,기중3지직접취쌍측견관절건-골계면표본작위정상조,여하적24지가토쌍측견관절접수토견수급성단렬건-골지점중건수술,술중실험조12지전새자고화린산개인공골Ⅱ,대조조12지불전새임하약물。분별우술후2,4,8주채집표본행생물역학측시。결과여결론:실험조각시간점견수건-골계면최대항랍강도균고우대조조(P <0.001),단저우정상조(P <0.001);실험조술후8주견수건-골계면강도고우대조조(P <0.001),단저우정상조(P <0.001)。표명자고화린산개인공골Ⅱ가이재술후조기제고토건-골계면적최대항랍강도화강도,증강건-골계면결합력,촉진건골계면유합。
BACKGROUND:Calcium phosphate cement and recombinant human bone morphogenetic protein-2 both have bone osteoinductivity. Maybe both of them could promote repair of tendon-to-bone interface damage. OBJECTIVE:To evaluate the effect of calcium phosphate cement-II containing recombinant human bone morphogenetic protein-2 on tendon-to-bone interface healing after rotator cuff injury . METHODS: Twenty-seven adult healthy rabbits were enroled in the study. The tendon-to-bone interface of the bilateral shoulder joints was taken from three rabbits as normal group, and the bilateral shoulder joints of the other 24 rabbits were subjected to acute rupture of the rotator cuff and tendon-to-bone reconstructive surgery as experimental group (n=12) and control group (n=12). Rabbits in the experimental group were treated with calcium phosphate cement-II, while those in the control group treated with nothing. Specimens were colected at 2, 4, 8 postoperative weeks for biomechanical test. RESULTS AND CONCLUSION:The maximum tensile strength of the rotator cuff in the experimental group was higher than that in the control group (P < 0.001), but lower than that in the normal group (P < 0.001). At postoperative 8 weeks, the rigidity of rotator cuff of the experiment group was higher than the control group (P < 0.001) but lower than the normal group (P < 0.001). These findings indicate that calcium phosphate cement-II can improve the maximum tensile strength and rigidity of rabbit tendon-to-bone interface in the early postoperative period, enhance tendon-to-bone interface binding force, and promote tendon-to-bone interface healing.
