中国骨与关节外科
中國骨與關節外科
중국골여관절외과
CHINESE BONE AND JOINT SURGERY
2014年
1期
52-55
,共4页
余建%朱建民%张银网%陈云
餘建%硃建民%張銀網%陳雲
여건%주건민%장은망%진운
上胫腓关节%有限元%生物力学%脱位
上脛腓關節%有限元%生物力學%脫位
상경비관절%유한원%생물역학%탈위
Proximal tibiofibular joint%Finite element%Biomechanics%Dislocation
背景:上胫腓关节是一个容易让人忽视的关节,临床上许多膝部的顽疾是由上胫腓关节的外伤或病变引起,研究其生物力学很重要。目前,新型高效的有限元研究方法尚未应用于上胫腓关节脱位的生物力学研究中。<br> 目的:通过正常人的上胫腓关节CT扫描图像,建立两型(水平型和倾斜型)上胫腓关节的三维有限元模型,分析躯体受到由远端向近端的纵向作用力下,上胫腓关节处的应力分布,提供对活体上胫腓关节评估的新方法。<br> 方法:选择2名(水平型和倾斜型各1名)均无上胫腓关节及膝关节外伤史的正常健康志愿者,进行64排CT扫描其上胫腓关节,运用逆向工程原理,通过三维有限元建模软件建立两型三维有限元模型。以上胫腓关节最常受力--沿纵轴受力,分别在两型三维有限元模型上进行力学加载,研究上胫腓关节处的应力分布,记录胫骨和腓骨出现明显相对位移(脱位)的作用力大小。<br> 结果:成功建立了两型上胫腓关节的三维有限元模型,其加载后的应力主要分布于两型上胫腓关节的腓骨内侧部分及腓骨头中部偏外上的区域,沿纵轴作用力引起两型关节脱位的作用力为:倾斜型关节1250 N,水平型关节1850 N。<br> 结论:倾斜型上胫腓关节较水平型上胫腓关节更易发生脱位,与文献的结果相一致。研究所用的两型上胫腓关节的三维有限元模型具有有效性,可作为力学分析的基础模型。
揹景:上脛腓關節是一箇容易讓人忽視的關節,臨床上許多膝部的頑疾是由上脛腓關節的外傷或病變引起,研究其生物力學很重要。目前,新型高效的有限元研究方法尚未應用于上脛腓關節脫位的生物力學研究中。<br> 目的:通過正常人的上脛腓關節CT掃描圖像,建立兩型(水平型和傾斜型)上脛腓關節的三維有限元模型,分析軀體受到由遠耑嚮近耑的縱嚮作用力下,上脛腓關節處的應力分佈,提供對活體上脛腓關節評估的新方法。<br> 方法:選擇2名(水平型和傾斜型各1名)均無上脛腓關節及膝關節外傷史的正常健康誌願者,進行64排CT掃描其上脛腓關節,運用逆嚮工程原理,通過三維有限元建模軟件建立兩型三維有限元模型。以上脛腓關節最常受力--沿縱軸受力,分彆在兩型三維有限元模型上進行力學加載,研究上脛腓關節處的應力分佈,記錄脛骨和腓骨齣現明顯相對位移(脫位)的作用力大小。<br> 結果:成功建立瞭兩型上脛腓關節的三維有限元模型,其加載後的應力主要分佈于兩型上脛腓關節的腓骨內側部分及腓骨頭中部偏外上的區域,沿縱軸作用力引起兩型關節脫位的作用力為:傾斜型關節1250 N,水平型關節1850 N。<br> 結論:傾斜型上脛腓關節較水平型上脛腓關節更易髮生脫位,與文獻的結果相一緻。研究所用的兩型上脛腓關節的三維有限元模型具有有效性,可作為力學分析的基礎模型。
배경:상경비관절시일개용역양인홀시적관절,림상상허다슬부적완질시유상경비관절적외상혹병변인기,연구기생물역학흔중요。목전,신형고효적유한원연구방법상미응용우상경비관절탈위적생물역학연구중。<br> 목적:통과정상인적상경비관절CT소묘도상,건립량형(수평형화경사형)상경비관절적삼유유한원모형,분석구체수도유원단향근단적종향작용력하,상경비관절처적응력분포,제공대활체상경비관절평고적신방법。<br> 방법:선택2명(수평형화경사형각1명)균무상경비관절급슬관절외상사적정상건강지원자,진행64배CT소묘기상경비관절,운용역향공정원리,통과삼유유한원건모연건건립량형삼유유한원모형。이상경비관절최상수력--연종축수력,분별재량형삼유유한원모형상진행역학가재,연구상경비관절처적응력분포,기록경골화비골출현명현상대위이(탈위)적작용력대소。<br> 결과:성공건립료량형상경비관절적삼유유한원모형,기가재후적응력주요분포우량형상경비관절적비골내측부분급비골두중부편외상적구역,연종축작용력인기량형관절탈위적작용력위:경사형관절1250 N,수평형관절1850 N。<br> 결론:경사형상경비관절교수평형상경비관절경역발생탈위,여문헌적결과상일치。연구소용적량형상경비관절적삼유유한원모형구유유효성,가작위역학분석적기출모형。
Background:Proximal tibiofibular joint is easily ignored. Many knee problems, in fact, are related to the trauma or disease of the proximal tibiofibular joint. As a new fashioned and high-efficiency method, the finite element, so far, has not been used in the biomechanical study of proximal tibiofibular joint dislocation. <br> Objective: Through the proximal tibiofibular joint CT scanning images of normal people, two types of (horizontal and oblique) three dimensional finite element models of proximal tibiofibular joint were established. Stress distribution was eval-uated when longitudinal force was applied from the distal to the proximal end of tibiofibular joint so as to provide a new method to evaluate proximal tibiofibular joint in vivo. <br> Methods:Two (1 horizontal and 1 oblique type) healthy volunteers who did not have trauma of proximal tibiofibular joint or knee joint received 64-slice CT scanning of tibiofibular joint. According to the principle of reverse engineering, three-dimen-sional finite element models were established by finite element modeling software. The most common force affected on proximal tibiofibular joint (along the longitudinal axis) was applied in the two types of three-dimensional finite element model, and the stress distribution was observed. The force leading to dislocation was recorded. <br> Results:Both horizontal and oblique finite element models of proximal tibiofibular joint were established. Stresses were main-ly distributed in the medial part of the fibula and outside the central region of the fibular head. The dislocation of oblique joint occurred when longitudinal force was 1250 N and the dislocation of horizontal joint appeared under 1850 N longitudinal force. <br> Conclusions: Oblique proximal tibiofibular joint is more prone to dislocation than horizontal one in finite element models, which is consistent with the literature. The models established in the study are effective and can be used for mechanical analysis.
