中国临床康复
中國臨床康複
중국림상강복
CHINESE JOURNAL OF CLINICAL REHABILITATION
2005年
46期
166-167
,共2页
肱骨%生物力学%计算机模拟
肱骨%生物力學%計算機模擬
굉골%생물역학%계산궤모의
背景:肱骨外侧髁骨折是最易发生的肘部损伤之一,属关节内骨骺骨折,临床上对其骨折发生和其治疗的力学机制并不完善.目的:从生物力学角度研究肱骨外侧髁在不同体位加载下的应力分布规律,探讨其骨折发生治疗机制.设计:计算机模拟应力研究.单位:福州大学实验力学教研室和北京大学第三医院骨科.材料:实验于2000-01/2002-12在福州大学福建实验力学专业委员会完成,选择6岁儿童尸体肱骨标本(福建中医学院解剖教研室提供),使用仪器包括计算机,SUPER-SAP93软件,材料切割机,骨角度测量仪等.方法:模拟伸屈肘及前臂旋前、中立、旋后等多种体位加载在三维有限元模型上,计算分析相应部位的应力分布状况.主要观察指标:肱骨外髁和肱骨滑车部位的平均Mises应力值.结果:半屈肘位时肱骨外侧髁区平均应力值最大,而伸肘时的伸肌腱作用节点应力值大于外侧髁区.结论:半屈肘位时肱骨外侧髁骨折的发生以尺桡骨撞击力与重力的上下剪切作用为主;伸肘位时以伸肌腱牵拉为主的弯力偶矩可拉脱外侧髁形成骨折.肱骨外侧髁骨折的复位可利用伸肌腱的牵拉作用,而固定则尽量避免伸肌腱的牵拉.
揹景:肱骨外側髁骨摺是最易髮生的肘部損傷之一,屬關節內骨骺骨摺,臨床上對其骨摺髮生和其治療的力學機製併不完善.目的:從生物力學角度研究肱骨外側髁在不同體位加載下的應力分佈規律,探討其骨摺髮生治療機製.設計:計算機模擬應力研究.單位:福州大學實驗力學教研室和北京大學第三醫院骨科.材料:實驗于2000-01/2002-12在福州大學福建實驗力學專業委員會完成,選擇6歲兒童尸體肱骨標本(福建中醫學院解剖教研室提供),使用儀器包括計算機,SUPER-SAP93軟件,材料切割機,骨角度測量儀等.方法:模擬伸屈肘及前臂鏇前、中立、鏇後等多種體位加載在三維有限元模型上,計算分析相應部位的應力分佈狀況.主要觀察指標:肱骨外髁和肱骨滑車部位的平均Mises應力值.結果:半屈肘位時肱骨外側髁區平均應力值最大,而伸肘時的伸肌腱作用節點應力值大于外側髁區.結論:半屈肘位時肱骨外側髁骨摺的髮生以呎橈骨撞擊力與重力的上下剪切作用為主;伸肘位時以伸肌腱牽拉為主的彎力偶矩可拉脫外側髁形成骨摺.肱骨外側髁骨摺的複位可利用伸肌腱的牽拉作用,而固定則儘量避免伸肌腱的牽拉.
배경:굉골외측과골절시최역발생적주부손상지일,속관절내골후골절,림상상대기골절발생화기치료적역학궤제병불완선.목적:종생물역학각도연구굉골외측과재불동체위가재하적응력분포규률,탐토기골절발생치료궤제.설계:계산궤모의응력연구.단위:복주대학실험역학교연실화북경대학제삼의원골과.재료:실험우2000-01/2002-12재복주대학복건실험역학전업위원회완성,선택6세인동시체굉골표본(복건중의학원해부교연실제공),사용의기포괄계산궤,SUPER-SAP93연건,재료절할궤,골각도측량의등.방법:모의신굴주급전비선전、중립、선후등다충체위가재재삼유유한원모형상,계산분석상응부위적응력분포상황.주요관찰지표:굉골외과화굉골활차부위적평균Mises응력치.결과:반굴주위시굉골외측과구평균응력치최대,이신주시적신기건작용절점응력치대우외측과구.결론:반굴주위시굉골외측과골절적발생이척뇨골당격력여중력적상하전절작용위주;신주위시이신기건견랍위주적만력우구가랍탈외측과형성골절.굉골외측과골절적복위가이용신기건적견랍작용,이고정칙진량피면신기건적견랍.
BACKGROUND: Fracture of humeral ectocondyle is a kind of articular epiphyseal fracture. It is one of the most prevalent disorder of cubital articulation. The occurrence of fracture and the mechanical mechanism of treatment is not very well cognized in clinic.OBJECTIVE: To analyze the stress distribution of the humeral ectocondyle in different postures so as to investigate the treatment mechanism of the humeral ectocondyle fracture.DESIGN: Computer simulation study on stress.SETTING: Department of Experimental Mechanics, Fuzhou University, and Department of Orthopedics, Third Affiliated Hospital of Peking University.MATERIALS: This experiment was conducted in the Fujian Experimental Mechanic Committee of Fuzhou University between January 2000 and December 2002. Humerus from a 6-year-old. corpse (Provided by the Department of Anatomy of Fujian College of Traditional Chinese Medicine). Instruments were computer, SUPER-SAP93 software, material sickle and measuring instrument and so on.METHODS: 9 kinds of loading conditions were simulated and added on three dimensional finite elemental model of humerus in SUPER-SAP93software, and then the stress distribution was filed out and analyzed.MAIN OUTCOME MEASURES: The average Mises stress of lateral condylar area and humeral trochlea area.RESULTS: At flection posture of elbow, the average Mises stress of lateral condylar area was the largest while at extension posture the stresses of nodes affected by extensor tendon were larger than those of lateral condyle.CONCLUSION: At the flection posture of elbow, the fracture of lateral condyle of humerus was resulted from c9llision occurring when radius and ulna struck humerus while at extension posture, it was chiefly due to extensor tractive force. We can use extensor tractive force to reduce the fracture of lateral condyle and avoid extensor tractive force to fix it.
