| 股骨远端粉碎性骨折双板固定的生物力学研究 |
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| 引用本文: | 林昂如,高道海,胡罢生,任高宏. 股骨远端粉碎性骨折双板固定的生物力学研究[J]. 南方医科大学学报, 2002, 22(2): 148-150 |
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| 作者姓名: | 林昂如 高道海 胡罢生 任高宏 |
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| 作者单位: | 第一军医大学南方医院创伤骨科,广东广州510515;第一军医大学南方医院创伤骨科,广东广州510515;第一军医大学南方医院创伤骨科,广东广州510515;第一军医大学南方医院创伤骨科,广东广州510515 |
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| 基金项目: | 广东省卫生厅基金(A1998336) |
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| 摘 要: | 目的探讨治疗股骨远端粉碎性骨折的新方法。方法应用10件成人鲜尸股骨,造成股骨远端髁间、髁上粉碎性骨折,内侧采用聚乙烯板、外侧采用钢板双向固定,分别作压缩、弯曲、扭转等生物力学实验研究。另取10件标本进行单向外侧钢板固定作为对照。结果双向固定组抗弯曲、扭转能力显著增强(P<0.01),抗压缩能力也较单侧固定组强(P<0.05)。结论双向固定治疗股骨远端粉碎性骨折有明显的应用价值。
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| 关 键 词: | 股骨骨折 骨折 粉碎性 骨折固定术 内 生物力学 扭转 应力 物理 |
| 文章编号: | 1000-2588(2002)02-0148-03 |
| 修稿时间: | 2001-09-13 |
Biomechanical study of double-plate fixation for comminuted fractures of the distal femur |
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| LINAng-ru,GAODao-hai,HUBa-sheng,RENGao-hong Departmentof OrthopaedicsandTraumatology,NanfangHospital,FirstMilitaryMedicalUniversity,Guangzhou,China. Biomechanical study of double-plate fixation for comminuted fractures of the distal femur[J]. Journal of Southern Medical University, 2002, 22(2): 148-150 |
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| Authors: | LINAng-ru GAODao-hai HUBa-sheng RENGao-hong Departmentof OrthopaedicsandTraumatology NanfangHospital FirstMilitaryMedicalUniversity Guangzhou China |
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| Affiliation: | LINAng-ru,GAODao-hai,HUBa-sheng,RENGao-hong Departmentof OrthopaedicsandTraumatology,NanfangHospital,FirstMilitaryMedicalUniversity,Guangzhou510515,China |
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| Abstract: | Objective To explorethenewtreatmentapproachfor comminutedfracturesof thedistalfemur.Methods Supra-andintercondylarcomminutedfractureswereinducedinthefemursof20freshadultcadavers,10of whichreceivedfixation withlateralsteelplatesandmedialpolyethylenesplateswhiletherestwithsingleplateinthelateralonly.Biomechanicaltests of bending,torsionandcompressionwereperformed.Results Biomechanicaltestdemonstratedthatdouble-platefixation providedbetterresistanceto compression(P<0.05)as wellas bendingandtorsion(P<0.01)thansingle-platefixationdid.Conclusion Double-platefixationis effectiveandmay havepotentialclinicalvaluein treatingcomminutedfracturesof the distalfemur. |
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| Keywords: | femoralfractures fractures comminuted fractruefixation internal biomechanics torsion stress mechanical |
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