中国组织工程研究与临床康复
中國組織工程研究與臨床康複
중국조직공정연구여림상강복
JOURNAL OF CLINICAL REHABILITATIVE TISSUE ENGINEERING RESEARCH
2008年
30期
5985-5988
,共4页
应变%股骨头假体%聚醚醚酮%复合材料%植入体
應變%股骨頭假體%聚醚醚酮%複閤材料%植入體
응변%고골두가체%취미미동%복합재료%식입체
背景:人工关节无菌性松动的力学因素是传统金属假体的弹性模量远远超过骨的弹性模量,组合后产生应力遮挡,引起骨吸收、骨萎缩.目的:体外测试自制的碳纤维增强聚醚醚酮(CF/PEEK)假体置换后股骨的应变,并与国产AML假体进行比较,探讨复合材料在全髋股骨头假体中的应用前景.设计、时间及地点:对比分析实验,于2002-09/2004-03在苏州大学第一附属医院骨科实验室和上海大学生物力学工程研究所完成.材料:CF/PEEK假体为自行设计,内层采用长CF/PEEK复合材料,模量为100 GPa;外层采用短CF/PEEK复合材料,模量为 20 GPa;在应力集中区,适当加强铺层密度;几何形态与相关尺寸同国产仿AML型钴合金假体.AML假体为北京华杰豪公司生产.标本为5对新鲜成人尸体股骨10具.方法:5 对人体新鲜尸体股骨平均分成左右两组,一组行钴铬钼合金股骨头假体置换术,另一组行CF/PEEK假体置换术.在假体和近端股骨表面粘贴应变片,模拟单肢站立施加载荷.主要观察指标:①正常股骨表面和两种假体置换后的股骨表面的应变分布.②两种假体置换后股骨-假体界面剪切应变分布. 结果:股骨应变在假体植入后,从近端到远端逐渐增加,变化形式与完整股骨的应变形式相似,并且在假体远端最大.两种假体植入后,股骨内外侧表面的应变皆减少;但CF/PEEK假体组产生的应变形式和大小比钴铬钼合金假体组更接近正常股骨. 结论:CF/PEEK复合材料假体的力学性能与骨组织相近,加载时两者的应变量一致,因此能提供术后即刻稳定性和良好的近端载荷传递.
揹景:人工關節無菌性鬆動的力學因素是傳統金屬假體的彈性模量遠遠超過骨的彈性模量,組閤後產生應力遮擋,引起骨吸收、骨萎縮.目的:體外測試自製的碳纖維增彊聚醚醚酮(CF/PEEK)假體置換後股骨的應變,併與國產AML假體進行比較,探討複閤材料在全髖股骨頭假體中的應用前景.設計、時間及地點:對比分析實驗,于2002-09/2004-03在囌州大學第一附屬醫院骨科實驗室和上海大學生物力學工程研究所完成.材料:CF/PEEK假體為自行設計,內層採用長CF/PEEK複閤材料,模量為100 GPa;外層採用短CF/PEEK複閤材料,模量為 20 GPa;在應力集中區,適噹加彊鋪層密度;幾何形態與相關呎吋同國產倣AML型鈷閤金假體.AML假體為北京華傑豪公司生產.標本為5對新鮮成人尸體股骨10具.方法:5 對人體新鮮尸體股骨平均分成左右兩組,一組行鈷鉻鉬閤金股骨頭假體置換術,另一組行CF/PEEK假體置換術.在假體和近耑股骨錶麵粘貼應變片,模擬單肢站立施加載荷.主要觀察指標:①正常股骨錶麵和兩種假體置換後的股骨錶麵的應變分佈.②兩種假體置換後股骨-假體界麵剪切應變分佈. 結果:股骨應變在假體植入後,從近耑到遠耑逐漸增加,變化形式與完整股骨的應變形式相似,併且在假體遠耑最大.兩種假體植入後,股骨內外側錶麵的應變皆減少;但CF/PEEK假體組產生的應變形式和大小比鈷鉻鉬閤金假體組更接近正常股骨. 結論:CF/PEEK複閤材料假體的力學性能與骨組織相近,加載時兩者的應變量一緻,因此能提供術後即刻穩定性和良好的近耑載荷傳遞.
배경:인공관절무균성송동적역학인소시전통금속가체적탄성모량원원초과골적탄성모량,조합후산생응력차당,인기골흡수、골위축.목적:체외측시자제적탄섬유증강취미미동(CF/PEEK)가체치환후고골적응변,병여국산AML가체진행비교,탐토복합재료재전관고골두가체중적응용전경.설계、시간급지점:대비분석실험,우2002-09/2004-03재소주대학제일부속의원골과실험실화상해대학생물역학공정연구소완성.재료:CF/PEEK가체위자행설계,내층채용장CF/PEEK복합재료,모량위100 GPa;외층채용단CF/PEEK복합재료,모량위 20 GPa;재응력집중구,괄당가강포층밀도;궤하형태여상관척촌동국산방AML형고합금가체.AML가체위북경화걸호공사생산.표본위5대신선성인시체고골10구.방법:5 대인체신선시체고골평균분성좌우량조,일조행고락목합금고골두가체치환술,령일조행CF/PEEK가체치환술.재가체화근단고골표면점첩응변편,모의단지참립시가재하.주요관찰지표:①정상고골표면화량충가체치환후적고골표면적응변분포.②량충가체치환후고골-가체계면전절응변분포. 결과:고골응변재가체식입후,종근단도원단축점증가,변화형식여완정고골적응변형식상사,병차재가체원단최대.량충가체식입후,고골내외측표면적응변개감소;단CF/PEEK가체조산생적응변형식화대소비고락목합금가체조경접근정상고골. 결론:CF/PEEK복합재료가체적역학성능여골조직상근,가재시량자적응변량일치,인차능제공술후즉각은정성화량호적근단재하전체.
BACKGROUND: Greatly higher elastic modulus of traditional metal prosthesis than bone elastic modulus is mechanical factor for aseptic loosening of artificial joint, resulting in stress shielding, bone resorption and bone atrophy.OBJECTIVE: To measure femoral stress after prosthetic replacement made of carbon fiber reinforced poly-ether-ether-ketone (CF/PEEK), and compare with domestic AML prosthesis, so as to explore the application prospect of compound material in total hip femoral head prosthesis. DESIGN, TIME AND SETTING: Comparative analysis was performed at Orthopedics Laboratory, First Hospital of Soochow University and Institute of Biomechanical Engineering of Shanghai University from September 2002 to March 2004.MATERIALS: CF/PEEK prosthesis was designed by the authors, composed of long CF/PEEK compound material as inner layer, 100 Gpa and short CF/PEEK compound material as outer layer, 20 Gpa; the layer intensity at stress center was strengthened, and the appearance and size of the CF/PEEK prosthesis simulated domestic AML cobalt alloy prosthesis (Beijing Huajiehao Company). Five pairs (10 femurs) of femurs were from fresh adult cadavers. METHODS: Five pairs of human cadaveric femora were divided equally into left and right groups: one group received a cobalt-chrome molybdenum alloy (CoCrMo) implant and the other received CF/PEEK implant. Strain-gauge rosettes were attached to external surface of each implant and proximal femora. The loading condition simulated single-limb stance. MAIN OUTCOME MEASURES: strains distribution on the normal femur and femoral surface after replacement with two kinds of prostheses; shearing strain at femur-prosthesis interface of two groups.RESULTS: Following prosthesis implantation, the strains exhibited a progressive proximal-to-distal increase, which was similar to that in the intact femur, and the strain was maximum near the distal prosthesis. The strains on the medial and lateral surface of the femur were reduced after implantation of both types of implants. The pattern and magnitude of the strains, however, were closer to those in the intact femur after insertion of CF/PEEK prosthesis than in the CoCrMo one. CONCLUSION: Mechanical performance of CF/PEEK compound prosthesis is similar to bone tissue, and can provide similar strain under loading condition. Therefore, it can provide immediate postoperative stability and proximal loading transfer.
