锁定加压钢板革新之处为一种内植物接合了两种完全不同的内固定技术。
The revolutionary new aspect of the locking compression plate (LCP) is the combination of two completely different anchorage technologies in one implant.
目的应用锁定加压钢板(LCP)治疗桡骨远端粉碎性骨折并评估其疗效。
Objective To evaluate the effectiveness of locking compression plate (LCP) in treatment of comminuted fractures of distal end of radius.
目的探讨锁定加压钢板治疗骶骨不稳定骨折的生物力学性能,提供科学依据。
Objective to explore the biomechanical properties of locking compression plate for treating unstable sacral fractures and therefore to provide scientific foundation for clinic application.
经皮微创锁定加压钢板技术具有明显的优势,降低了术后膝关节疼痛发生率。
The percutaneous minimally invasive locking compression plate technology has obvious advantages, and the incidence rate of the arthralgia after the operation is reduced.
方法对12例四肢长管状骨骨折不愈合患者,采用锁定加压钢板内固定方法治疗。
Method Locking compression plate fixation was conducted on 12 cases of limb long bone fracture nonunion.
目的:比较锁定加压钢板和动力加压钢板治疗肱骨中下段骨折的疗效及其应用选择。
Objective: To compare the curative effect of dynamic compression plate(DCP) and locking compression plate(LCP) in curing fractures of middle-inferior humerus and application.
目的探讨锁定加压钢板(LCP)治疗胫腓骨骨折术后护理,如何促进患者早日康复。
Objective to study the postoperative nursing for patient with fracture of tibias and fibula treated by LCP, and how to promote the patient recover early.
目的评估利用“AO”LCP(锁定加压钢板)治疗桡骨远端不稳定性骨折的临床疗效。
Objective To evaluate the clinical effect on treatment of instable fracture in the distal aspect of radius by using AO LCP .
本研究的目的在于比较肱骨远端锁定加压钢板(LCP)和传统的三分之一管式板重建的疗效。
The purpose of our study is the comparison of the effectiveness between distal humeral locking compression plates (LCP) and conventional reconstruction and one third tubular plates.
锁定加压钢板治疗肱骨近端骨折的内固定术:跟踪72位患者至少一年的有代表性的回顾性评价。
Internal fixation of proximal humeral fractures with a locking compression plate: a retrospective evaluation of 72 patients followed for a minimum of 1 year.
钢钉被改进成为带有锁钉技术的,而简单的钢板也被改进为接骨板、加压接骨板以及现在的锁定钢板。
Nails were improved with locking technology, while simple plates were transformed into blade plates, compression plates, and now locking plates.
非锁定钢板通过螺钉导致的钢板和骨质之间的加压出现的摩擦力来抵抗畸形的力量从而未定骨折碎片。
Nonlocking plates stabilize bone fragments against deforming forces by the use of friction between the plate and bone, generated by screws that compress the two surfaces together.
非锁定钢板通过螺钉导致的钢板和骨质之间的加压出现的摩擦力来抵抗畸形的力量从而未定骨折碎片。
Nonlocking plates stabilize bone fragments against deforming forces by the use of friction between the plate and bone, generated by screws that compress the two surfaces together.
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