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
2009年
46期
9097-9100
,共4页
大鼠%骨性关节炎%模型%外侧副韧带%拉伸
大鼠%骨性關節炎%模型%外側副韌帶%拉伸
대서%골성관절염%모형%외측부인대%랍신
背景:了解骨性关节炎时膝关节外侧副韧带的拉伸力学性质,对预防和治疗骨性关节炎非常有必要,但这方面的报道不多.目的:建立骨性关节炎动物模型,比较正常和骨性关节炎动物膝关节外侧副韧带的拉伸力学性能指标,提出骨性关节炎对外侧副韧带拉伸力学性质影响的定性定量化参考数值.设计、时间及地点:随机对照实验,于2008-11-20/30在吉林大学力学实验中心完成.材料:6月龄雄性SD大鼠20只,随机分成正常对照10只,模型组10只.方法:模型组大鼠复制骨性关节炎模型.在日本岛津电子万能试验机上对正常和病态组各10个试样进行拉伸实验.拉伸实验的速度为5mm/min.以多项式用最小二乘法处理实验数据.主要观察指标:拉伸最大载荷、最大位移、最大应力、最大应变、应力-应变曲线.结果:正常对照组最大载荷为(12.754±2.795)N,最大应力为(27.681±5.832)MPa,最大位移为(2.754±0.707)mm,最大应变为(11.679±2.373)%;模型组最大载荷为(7.183±1.817)N,最大应力为(16.162±3.403)MPa,最大位移为(1.827±0.768)mm,最大应变为(8.019±2.811)%.正常对照组各项拉伸性能指标显著大于模型组(P<0.05).结论:骨性关节炎时,可以使膝关节拉伸最大载荷、最大位移、最大应力、最大应变降低、对膝关节外侧副韧带拉伸力学性能及应力松弛性具有一定影响.
揹景:瞭解骨性關節炎時膝關節外側副韌帶的拉伸力學性質,對預防和治療骨性關節炎非常有必要,但這方麵的報道不多.目的:建立骨性關節炎動物模型,比較正常和骨性關節炎動物膝關節外側副韌帶的拉伸力學性能指標,提齣骨性關節炎對外側副韌帶拉伸力學性質影響的定性定量化參攷數值.設計、時間及地點:隨機對照實驗,于2008-11-20/30在吉林大學力學實驗中心完成.材料:6月齡雄性SD大鼠20隻,隨機分成正常對照10隻,模型組10隻.方法:模型組大鼠複製骨性關節炎模型.在日本島津電子萬能試驗機上對正常和病態組各10箇試樣進行拉伸實驗.拉伸實驗的速度為5mm/min.以多項式用最小二乘法處理實驗數據.主要觀察指標:拉伸最大載荷、最大位移、最大應力、最大應變、應力-應變麯線.結果:正常對照組最大載荷為(12.754±2.795)N,最大應力為(27.681±5.832)MPa,最大位移為(2.754±0.707)mm,最大應變為(11.679±2.373)%;模型組最大載荷為(7.183±1.817)N,最大應力為(16.162±3.403)MPa,最大位移為(1.827±0.768)mm,最大應變為(8.019±2.811)%.正常對照組各項拉伸性能指標顯著大于模型組(P<0.05).結論:骨性關節炎時,可以使膝關節拉伸最大載荷、最大位移、最大應力、最大應變降低、對膝關節外側副韌帶拉伸力學性能及應力鬆弛性具有一定影響.
배경:료해골성관절염시슬관절외측부인대적랍신역학성질,대예방화치료골성관절염비상유필요,단저방면적보도불다.목적:건립골성관절염동물모형,비교정상화골성관절염동물슬관절외측부인대적랍신역학성능지표,제출골성관절염대외측부인대랍신역학성질영향적정성정양화삼고수치.설계、시간급지점:수궤대조실험,우2008-11-20/30재길림대학역학실험중심완성.재료:6월령웅성SD대서20지,수궤분성정상대조10지,모형조10지.방법:모형조대서복제골성관절염모형.재일본도진전자만능시험궤상대정상화병태조각10개시양진행랍신실험.랍신실험적속도위5mm/min.이다항식용최소이승법처리실험수거.주요관찰지표:랍신최대재하、최대위이、최대응력、최대응변、응력-응변곡선.결과:정상대조조최대재하위(12.754±2.795)N,최대응력위(27.681±5.832)MPa,최대위이위(2.754±0.707)mm,최대응변위(11.679±2.373)%;모형조최대재하위(7.183±1.817)N,최대응력위(16.162±3.403)MPa,최대위이위(1.827±0.768)mm,최대응변위(8.019±2.811)%.정상대조조각항랍신성능지표현저대우모형조(P<0.05).결론:골성관절염시,가이사슬관절랍신최대재하、최대위이、최대응력、최대응변강저、대슬관절외측부인대랍신역학성능급응력송이성구유일정영향.
BACKGROUND:It is very nscessary for the prevention and treatment of ostaoarthritis(OA)to understand the tensile mechanical properties of lateral collateral ligaments(LCLs)of knee joints with osteoarthritis,while reports on it are still few.OBJECTIVE:To compare the LCL tensile mechanical property indexes of knee joints between normal animals and OA medels established for this purpose,and to provide qualitative and quantitative referential data about effects of OA on the LCL tensile mechanical properties of animal knee joints.DESlGN,TIME AND SETTING:A randomized controlled trial was finished at the Mechanical Expedmental Center of Jilin University from December 20th to 30th in 2008.MATERIALS:A total of 20 male SD rats of 6 months old were divided into a normal control group and a model group,with 10ones in each group.METHOOS:Rats in the model group were copied into OA models.after which test on tensile was performed to each of the ten rats in the two groups at the speed of 5mm/min on Universal Testing Machine,Shimadzu.Data obtained from the test were processed in polynomial though least square method.MAIN OUTCOME MEASURES:Tensile maximum load.maximum displacement,maximum stress,maximum strain and stress-strain curves.RESULTS:The tensile maximum load,maximum stress,maximum displacement and maximum strain in the normal control group and the model group were(12.754±2.795)N,(27.681±5.832)MPa,(2.754±0.707)mm,(11.679±2.373)%and (7.183±1.817)N,(16.162±3.403)MPa,(1.827±0.768)mm,(8.019±2.811)% respectively,from which we could see that each index in the normal control group was greater than that in the model group obviously (P<0.05).CONCLUSION:The tensile maximum load,maximum stress,maximum displacement and maximum strain all decreased after OA,which indicates that osteoarthritis has certain effects on tensile mechanical properties of LCLs of knee joints as well as stress relaxation.
