中华骨科杂志
中華骨科雜誌
중화골과잡지
CHINESE JOURNAL OF ORTHOPAEDICS
2001年
2期
93-96
,共4页
樊仕才%朱青安%王柏川%赵卫东%周燕莉%金大地%刘大庸
樊仕纔%硃青安%王柏川%趙衛東%週燕莉%金大地%劉大庸
번사재%주청안%왕백천%조위동%주연리%금대지%류대용
骨质疏松%骨螺丝%生物力学
骨質疏鬆%骨螺絲%生物力學
골질소송%골라사%생물역학
目的探讨聚甲基丙烯酸甲酯(polymethylmethacrylate,PMMA)骨水泥强化椎弓根螺钉的方法和评价PMMA强化骨质疏松椎弓根螺钉后的生物力学性质。方法6具新鲜老年女性胸腰段骨质疏松脊柱标本(T10~L5),使用双能X线骨密度吸收仪测试每个椎体的骨密度,随机取16个椎体(32侧椎弓根),一侧椎弓根拧入CCD螺钉,测量最大旋入力偶矩后拔出螺钉作为正常对照组,用PMMA骨水泥强化椎弓根螺钉作为修复固定组,行螺钉拔出试验;另一侧经导孔直接强化椎弓根螺钉后拔出作为强化固定组,记录三组螺钉的最大轴向拔出力。结果椎体平均骨密度为(0.445±0.019)g/cm2;螺钉最大旋入力偶矩为(0.525±0.104)Nm;正常对照组螺钉最大轴向拔出力为(271.5±57.3)N;修复固定组为(765.9±130.7)N;强化固定组为(845.7±105.0)N。PMMA骨水泥强化或修复骨质疏松椎弓根螺钉后最大抗压力明显高于强化前,差异有非常显著性意义(P<0.01)结论:PMMA骨水泥强化骨质疏松椎弓根螺钉能显著增加螺钉在椎体内的稳固性
目的探討聚甲基丙烯痠甲酯(polymethylmethacrylate,PMMA)骨水泥彊化椎弓根螺釘的方法和評價PMMA彊化骨質疏鬆椎弓根螺釘後的生物力學性質。方法6具新鮮老年女性胸腰段骨質疏鬆脊柱標本(T10~L5),使用雙能X線骨密度吸收儀測試每箇椎體的骨密度,隨機取16箇椎體(32側椎弓根),一側椎弓根擰入CCD螺釘,測量最大鏇入力偶矩後拔齣螺釘作為正常對照組,用PMMA骨水泥彊化椎弓根螺釘作為脩複固定組,行螺釘拔齣試驗;另一側經導孔直接彊化椎弓根螺釘後拔齣作為彊化固定組,記錄三組螺釘的最大軸嚮拔齣力。結果椎體平均骨密度為(0.445±0.019)g/cm2;螺釘最大鏇入力偶矩為(0.525±0.104)Nm;正常對照組螺釘最大軸嚮拔齣力為(271.5±57.3)N;脩複固定組為(765.9±130.7)N;彊化固定組為(845.7±105.0)N。PMMA骨水泥彊化或脩複骨質疏鬆椎弓根螺釘後最大抗壓力明顯高于彊化前,差異有非常顯著性意義(P<0.01)結論:PMMA骨水泥彊化骨質疏鬆椎弓根螺釘能顯著增加螺釘在椎體內的穩固性
목적탐토취갑기병희산갑지(polymethylmethacrylate,PMMA)골수니강화추궁근라정적방법화평개PMMA강화골질소송추궁근라정후적생물역학성질。방법6구신선노년녀성흉요단골질소송척주표본(T10~L5),사용쌍능X선골밀도흡수의측시매개추체적골밀도,수궤취16개추체(32측추궁근),일측추궁근녕입CCD라정,측량최대선입력우구후발출라정작위정상대조조,용PMMA골수니강화추궁근라정작위수복고정조,행라정발출시험;령일측경도공직접강화추궁근라정후발출작위강화고정조,기록삼조라정적최대축향발출력。결과추체평균골밀도위(0.445±0.019)g/cm2;라정최대선입력우구위(0.525±0.104)Nm;정상대조조라정최대축향발출력위(271.5±57.3)N;수복고정조위(765.9±130.7)N;강화고정조위(845.7±105.0)N。PMMA골수니강화혹수복골질소송추궁근라정후최대항압력명현고우강화전,차이유비상현저성의의(P<0.01)결론:PMMA골수니강화골질소송추궁근라정능현저증가라정재추체내적은고성
Objective To ascertain whether augmentation with polymethylmethacrylate(PMMA) bone cement can enhance pedicle screw fixation in the osteoporotic spine. Methods Sixteen cadaveric thoracolumbar vertebral bodies were obtained from 6 fresh frozen old females spines(T10- L5)at random and BMD were evaluated using DEXA. One pedicle screw of 6mm diameter (CCD) was implanted (one side). The maximum torque force was measured using torque wrench. The screws were pulled out from the vertebrae at 5 mm/min. A pedicle pilot hole was created using 3.5mm drill (the other side) and vertebral body was augmented with PMMA bone cement. Two CCD screws were implanted bilaterally. The screws were pulled out two hours later and pull out force were recorded. Results Average BMD was (0.445± 0.019)g/cm2 and the maximum torque force was (0.525± 0.104)Nm. The pull out strength of pedicle screw fixation following augmentation and restoration with PMMA averaged 310% greater than that of not augmented. Conclusion Augmentation or restoration with PMMA offered a significantly increase of strength for pedicle screw fixation in the osteoporotic spine, people with osteoporosis who must use pedicle screw fixation should augment pedicle screw with PMMA bone cement.
