中华骨科杂志
中華骨科雜誌
중화골과잡지
Chinese Journal of Orthopaedics
2015年
10期
1048-1054
,共7页
刘扬德%赵宇驰%王维光%张树栋
劉颺德%趙宇馳%王維光%張樹棟
류양덕%조우치%왕유광%장수동
关节成形术,置换,膝%截骨术%外科手术,计算机辅助
關節成形術,置換,膝%截骨術%外科手術,計算機輔助
관절성형술,치환,슬%절골술%외과수술,계산궤보조
Arthroplasty,replacement,knee%Osteotomy%Surgery,computer-assisted
目的 通过计算机导航技术分析下肢动态力线的变化形式及其影响因素.方法 回顾性分析2013年7月至2013年8月接受计算机导航辅助下初次单侧人工全膝关节置换手术的76例膝关节骨关节炎患者病历资料,男46例,女30例;年龄64~78岁,平均71岁.手术均由同一名熟练掌握计算机导航技术的关节外科医生主刀完成.术中应用后稳定型旋转平台膝关节假体(RP,Depuy,强生公司,美国);计算机导航系统应用美国Stryker(R) Navigation SystemⅡ-Cart.术前运用CT扫描测量股骨远端髁间轴线(intraoperative transepicondylar axis,TEA)与后髁线(posterior condyle axis,PCA)间的夹角,即外旋角(external rotation angle,ERA);术中参考CT测量的ERA、计算机导航系统测量的TEA及Whiteside线进行股骨远端外旋截骨,假体骨水泥固定后记录膝关节在被动、无张力情况下屈曲活动过程中的髋-膝-踝(hip-knee-ankle,HKA)变化,即下肢动态力线的变化数据,并利用回归分析评价其影响因素.结果 与术前CT测量的ERA比较,术中分别以胫骨的前后轴线(股骨滑车最低点与髁间窝最高点之间的连线,AP线)、TEA及AP线与TEA均值(分别以TEA及AP线为参考进行股骨远端外旋截骨所得到ERA的平均值)为参考,由导航系统测量的ERA分别为5.54°±2.86°,5.21°±2.60°,5.34°±2.38 °;几种测量方法得到的结果并无统计学差异.TKA术中膝关节由伸直0°至屈曲90°的过程中下肢动态力线的变化与股骨远端外旋截骨密切相关.根据股骨远端外旋截骨角度的不同,下肢动态力线呈现出内翻、外翻及中立位波动三种变化趋势.结论 膝关节在屈伸过程中下肢力线发生变化;TKA术中股骨远端外旋截骨影响下肢动态力线的变化,其数学模型为反正弦三角函数.
目的 通過計算機導航技術分析下肢動態力線的變化形式及其影響因素.方法 迴顧性分析2013年7月至2013年8月接受計算機導航輔助下初次單側人工全膝關節置換手術的76例膝關節骨關節炎患者病歷資料,男46例,女30例;年齡64~78歲,平均71歲.手術均由同一名熟練掌握計算機導航技術的關節外科醫生主刀完成.術中應用後穩定型鏇轉平檯膝關節假體(RP,Depuy,彊生公司,美國);計算機導航繫統應用美國Stryker(R) Navigation SystemⅡ-Cart.術前運用CT掃描測量股骨遠耑髁間軸線(intraoperative transepicondylar axis,TEA)與後髁線(posterior condyle axis,PCA)間的夾角,即外鏇角(external rotation angle,ERA);術中參攷CT測量的ERA、計算機導航繫統測量的TEA及Whiteside線進行股骨遠耑外鏇截骨,假體骨水泥固定後記錄膝關節在被動、無張力情況下屈麯活動過程中的髖-膝-踝(hip-knee-ankle,HKA)變化,即下肢動態力線的變化數據,併利用迴歸分析評價其影響因素.結果 與術前CT測量的ERA比較,術中分彆以脛骨的前後軸線(股骨滑車最低點與髁間窩最高點之間的連線,AP線)、TEA及AP線與TEA均值(分彆以TEA及AP線為參攷進行股骨遠耑外鏇截骨所得到ERA的平均值)為參攷,由導航繫統測量的ERA分彆為5.54°±2.86°,5.21°±2.60°,5.34°±2.38 °;幾種測量方法得到的結果併無統計學差異.TKA術中膝關節由伸直0°至屈麯90°的過程中下肢動態力線的變化與股骨遠耑外鏇截骨密切相關.根據股骨遠耑外鏇截骨角度的不同,下肢動態力線呈現齣內翻、外翻及中立位波動三種變化趨勢.結論 膝關節在屈伸過程中下肢力線髮生變化;TKA術中股骨遠耑外鏇截骨影響下肢動態力線的變化,其數學模型為反正絃三角函數.
목적 통과계산궤도항기술분석하지동태력선적변화형식급기영향인소.방법 회고성분석2013년7월지2013년8월접수계산궤도항보조하초차단측인공전슬관절치환수술적76례슬관절골관절염환자병력자료,남46례,녀30례;년령64~78세,평균71세.수술균유동일명숙련장악계산궤도항기술적관절외과의생주도완성.술중응용후은정형선전평태슬관절가체(RP,Depuy,강생공사,미국);계산궤도항계통응용미국Stryker(R) Navigation SystemⅡ-Cart.술전운용CT소묘측량고골원단과간축선(intraoperative transepicondylar axis,TEA)여후과선(posterior condyle axis,PCA)간적협각,즉외선각(external rotation angle,ERA);술중삼고CT측량적ERA、계산궤도항계통측량적TEA급Whiteside선진행고골원단외선절골,가체골수니고정후기록슬관절재피동、무장력정황하굴곡활동과정중적관-슬-과(hip-knee-ankle,HKA)변화,즉하지동태력선적변화수거,병이용회귀분석평개기영향인소.결과 여술전CT측량적ERA비교,술중분별이경골적전후축선(고골활차최저점여과간와최고점지간적련선,AP선)、TEA급AP선여TEA균치(분별이TEA급AP선위삼고진행고골원단외선절골소득도ERA적평균치)위삼고,유도항계통측량적ERA분별위5.54°±2.86°,5.21°±2.60°,5.34°±2.38 °;궤충측량방법득도적결과병무통계학차이.TKA술중슬관절유신직0°지굴곡90°적과정중하지동태력선적변화여고골원단외선절골밀절상관.근거고골원단외선절골각도적불동,하지동태력선정현출내번、외번급중립위파동삼충변화추세.결론 슬관절재굴신과정중하지력선발생변화;TKA술중고골원단외선절골영향하지동태력선적변화,기수학모형위반정현삼각함수.
Objective To evaluate the influences of femoral rotation on dynamic alignment of the lower extremity in TKA by computer assisted surgical technology.Methods From July 2013 to August 2013,76 consecutive patients with knee osteoarthritis undergone primary-single TKA in our hospital were enrolled,including 46 males and 30 females,aged from 64 to 78 years (average,71 years).All surgeries were completed by the same professional doctor.The PFC (fixed-bearing posterior stabilized) Sigma rotating-platform was selected for all patients,and computer navigation system (Stryker(R) Navigation System Ⅱ-Cart (Stryker corporation,Kalamazoo,Michigan,USA) was used.External rotation osteotomy of the distal femur during TKA was completed according to the pre-operative external rotation angle (ERA),intraoperative transepicondylar axis (TEA) and anteroposterior (AP) line.Passive dynamic alignment of the lower extremity during knee flexion was recorded.The variation trend of hip-knee-ankle (HKA) alignment and the influences of femoral external rotation osteotomy were analysed.Results ERA calculated by the computer navigation system according to Whiteside line,TEA and the mean of Whiteside line and TEA was 5.54°±2.86°,5.21°±2.60° and 5.34°±2.38°.Compared with the ERA measured by CT,no method was better than the other two.Postoperative deviation of HKA alignment from 0° to 90° flexion was associated with the rotational alignment of the femoral component.Trend of HKA alignment during knee flexion tended to be varus,valgus or neutral according to different angles of external rotation osteotomy of the distal femur.Conclusion The HKA alignment changes during the knee flexions.External rotation osteotomy of the distal femur played a crucial role in determining dynamic HKA alignment in TKA.