髓内钉动力化治疗股骨干骨折延迟愈合(2)
[3] Wu CC. The effect of dynamization on slowing the healing of femur shaft fractures after interlocking nailing. J Trauma. 1997, 43:263-267
[4] Canadian Orthopaedic Trauma Society. Nonunion following intramedullary nailing of the femur with and without reaming. Results of a multicenter randomized clinical trial. J Bone Joint Surg Am. 2003, 85: 2093-2096
[5] Qi Li, Bingfang Zeng, Congfeng Luo, et al. Backstroke technique: an effective way to improve the healing of tibia fracture. Int Orthop, 2006(5): 329-332
[6] 季鸣,顾云五,刘杰文. 骨外膜剥离对实验性骨折愈合的影响-超微结构研究. 中华骨科杂志, 1999, 19:498-501
[7] Yu CW, Wu CC, Chen WJ. Aseptic nonunion of a femoral shaft treated using exchange nailing. Chang Gung Med J. 2002, 25:591-598
[8] Megas P, Panagiotoulos E, Skriviilottskis S, et al. Intramedullary nailing in the treatment of aseptic tibial nonunion. Injury, 2001, 32: 233-239
[9] Claes LE, Heigele CA. Magnitudes of local stress and strain along bony surfaces predict the course and types of fracture healing. J Biomech, 1999, 32:255~266
[10] Larsson S, Kim W, Caja VT, at al. Effect of early dynamization on tibial bone healing: a study in dogs. Clin Orthop Relat Res, 2001, 388: 240-251
[11] Tigani D, Fravisini M, Stagni C, et al. Interlocking nail for shaft fractures: is damization always necessary? Int Orthop, 2005, 29:101-104
[12] Hente R, Cordey J, Rahn BA, et al. Fracture healing of the sheep tibia treated using a unilateral external fixator. Comparison of static and dynamic fixation. Injury, 1999, 30:44-51
[13] Brumback RJ. Design concepts and early utilization of a new femoral interlocking nail. Am J Orthop. 2003, 32:5-9
[14] Utvag SE, Rindal DB, Reikeras O. Effects of torsional rigidity on fracture healing: strength and mineralization in rat femora. J Orthop Trauma. 1999, 13: 212-219
[15] Larson JE, Chao EY, Fitzgerald RH. Bypassing femoral cortical defects with cemented intramedullary stems. J Orthop Res. 1991, 9:414-421, 百拇医药(刘俊)
[4] Canadian Orthopaedic Trauma Society. Nonunion following intramedullary nailing of the femur with and without reaming. Results of a multicenter randomized clinical trial. J Bone Joint Surg Am. 2003, 85: 2093-2096
[5] Qi Li, Bingfang Zeng, Congfeng Luo, et al. Backstroke technique: an effective way to improve the healing of tibia fracture. Int Orthop, 2006(5): 329-332
[6] 季鸣,顾云五,刘杰文. 骨外膜剥离对实验性骨折愈合的影响-超微结构研究. 中华骨科杂志, 1999, 19:498-501
[7] Yu CW, Wu CC, Chen WJ. Aseptic nonunion of a femoral shaft treated using exchange nailing. Chang Gung Med J. 2002, 25:591-598
[8] Megas P, Panagiotoulos E, Skriviilottskis S, et al. Intramedullary nailing in the treatment of aseptic tibial nonunion. Injury, 2001, 32: 233-239
[9] Claes LE, Heigele CA. Magnitudes of local stress and strain along bony surfaces predict the course and types of fracture healing. J Biomech, 1999, 32:255~266
[10] Larsson S, Kim W, Caja VT, at al. Effect of early dynamization on tibial bone healing: a study in dogs. Clin Orthop Relat Res, 2001, 388: 240-251
[11] Tigani D, Fravisini M, Stagni C, et al. Interlocking nail for shaft fractures: is damization always necessary? Int Orthop, 2005, 29:101-104
[12] Hente R, Cordey J, Rahn BA, et al. Fracture healing of the sheep tibia treated using a unilateral external fixator. Comparison of static and dynamic fixation. Injury, 1999, 30:44-51
[13] Brumback RJ. Design concepts and early utilization of a new femoral interlocking nail. Am J Orthop. 2003, 32:5-9
[14] Utvag SE, Rindal DB, Reikeras O. Effects of torsional rigidity on fracture healing: strength and mineralization in rat femora. J Orthop Trauma. 1999, 13: 212-219
[15] Larson JE, Chao EY, Fitzgerald RH. Bypassing femoral cortical defects with cemented intramedullary stems. J Orthop Res. 1991, 9:414-421, 百拇医药(刘俊)