中华创伤骨科杂志
中華創傷骨科雜誌
중화창상골과잡지
CHINESE JOURNAL OF ORTHOPAEDIC TRAUMA
2015年
6期
532-535
,共4页
踝关节%韧带%生物力学%下胫腓韧带
踝關節%韌帶%生物力學%下脛腓韌帶
과관절%인대%생물역학%하경비인대
Ankle joint%Ligaments%Biomechanics%Anterior lower tibiofibular ligament
目的 探究踝关节下胫腓联合前韧带断裂和全部断裂对踝关节生物力学的影响. 方法 选用6具成年健康新鲜踝关节,建立3组模型:A组:踝关节内、外侧韧带及下胫腓联合完好作为正常组;B组:把A组下胫腓联合前韧带切断,作为下胫腓联合部分损伤组;C组:把B组标本下胫腓联合完全切断;作为下胫腓联合完全断裂组;把6具踝关节按A→C顺序分别入组并置入电子压力传感器,置于生物力学机上分别在背伸10°、内翻20°、外翻20°、跖屈20°、中立位5种状态下加载,记录和比较各组标本踝关节的峰值压力,以及峰值压力主要部位. 结果 在各种状态下应力A组<B组<C组,三组间两两比较差异均有统计学意义(P<0.05).B、C组在中立位、背伸10°位、跖屈20°位主要受力位置较A组有向外增大趋势,C组较B组更为明显. 结论 下胫腓联合前韧带断裂和下胫腓联合完全韧带断裂会增加踝关节应力,后者增加更为明显;而且两种情况下受力主要位置有向外增大趋势,后者增大更明显.
目的 探究踝關節下脛腓聯閤前韌帶斷裂和全部斷裂對踝關節生物力學的影響. 方法 選用6具成年健康新鮮踝關節,建立3組模型:A組:踝關節內、外側韌帶及下脛腓聯閤完好作為正常組;B組:把A組下脛腓聯閤前韌帶切斷,作為下脛腓聯閤部分損傷組;C組:把B組標本下脛腓聯閤完全切斷;作為下脛腓聯閤完全斷裂組;把6具踝關節按A→C順序分彆入組併置入電子壓力傳感器,置于生物力學機上分彆在揹伸10°、內翻20°、外翻20°、蹠屈20°、中立位5種狀態下加載,記錄和比較各組標本踝關節的峰值壓力,以及峰值壓力主要部位. 結果 在各種狀態下應力A組<B組<C組,三組間兩兩比較差異均有統計學意義(P<0.05).B、C組在中立位、揹伸10°位、蹠屈20°位主要受力位置較A組有嚮外增大趨勢,C組較B組更為明顯. 結論 下脛腓聯閤前韌帶斷裂和下脛腓聯閤完全韌帶斷裂會增加踝關節應力,後者增加更為明顯;而且兩種情況下受力主要位置有嚮外增大趨勢,後者增大更明顯.
목적 탐구과관절하경비연합전인대단렬화전부단렬대과관절생물역학적영향. 방법 선용6구성년건강신선과관절,건립3조모형:A조:과관절내、외측인대급하경비연합완호작위정상조;B조:파A조하경비연합전인대절단,작위하경비연합부분손상조;C조:파B조표본하경비연합완전절단;작위하경비연합완전단렬조;파6구과관절안A→C순서분별입조병치입전자압력전감기,치우생물역학궤상분별재배신10°、내번20°、외번20°、척굴20°、중립위5충상태하가재,기록화비교각조표본과관절적봉치압력,이급봉치압력주요부위. 결과 재각충상태하응력A조<B조<C조,삼조간량량비교차이균유통계학의의(P<0.05).B、C조재중립위、배신10°위、척굴20°위주요수력위치교A조유향외증대추세,C조교B조경위명현. 결론 하경비연합전인대단렬화하경비연합완전인대단렬회증가과관절응력,후자증가경위명현;이차량충정황하수력주요위치유향외증대추세,후자증대경명현.
Objective To explore the impact of partial or complete rupture of the tibiofibular syndesmosis on the biomechanical properties of the ankle joint.Methods Six fresh cadaveric specimens of adult ankle were used for creation of 3 models of tibiofibular syndesmosis.In model A,the medial and lateral ligaments of the ankle joint and the tibiofihular syndesmosis were intact.In model B,only the anterior lower tibiofibular ligament was broken.In model C,all inferior tibiofibular ligaments were broken.The 3 models were tested with an electronic pressure sensor in a BOSE material testing machine respectively at 5 positions:10° dorsal extension,20° inversion,20° eversion,20° plantar flexion,and neutral position.The peak values and locations of the compressive stresses of the 3 models at 5 positions were recorded.All the data were collected and analyzed using IBM SPSS 22.0 statistical software.Results Model A exhibited the smallest average stress at all the 5 positions,followed by model B and model C,with significant differences between groups (P < 0.05).The locations of main compressive stress at the neutral position,10° dorsal extension,and 20° plantar flexion in model B and model C tended to expand outwards compared with model A,especially in model C.Conclusions Rupture of the anterior lower tibiofibular ligament and inferior tibiofibular ligaments may increase the compressive stress on the ankle joint,especially rupture of the inferior tibiofibular ligaments.The location of main compressive stress tends to expand outwards when the anterior lower tibiofibular ligament and inferior tibiofihular ligaments are broken,especially the inferior tibiofibular ligaments.
