近节指间关节背侧骨折脱位治疗中半钩骨重建与掌板置换术的生物力学特性
Biomechanical characteristics of hemi-hamate reconstruction versus volar plate arthroplasty in the treatment of dorsal fracture dislocations of the proximal interphalangeal joint.
作者信息
Tyser Andrew R, Tsai Michael A, Parks Brent G, Means Kenneth R
机构信息
The Curtis National Hand Center, MedStar Union Memorial Hospital, Baltimore, MD.
The Curtis National Hand Center, MedStar Union Memorial Hospital, Baltimore, MD.
出版信息
J Hand Surg Am. 2015 Feb;40(2):329-32. doi: 10.1016/j.jhsa.2014.10.061. Epub 2014 Dec 24.
PURPOSE
To compare stability and range of motion after hemi-hamate reconstruction versus volar plate arthroplasty in a biomechanical proximal interphalangeal (PIP) joint fracture-dislocation model.
METHODS
Eighteen digits from 6 cadaver hands were tested. We created defects of 40%, 60%, and 80% in the palmar base of each digit's middle phalanx, simulating an acute PIP joint fracture-dislocation. Each defect scenario was reconstructed with a hemi-hamate arthroplasty followed by a volar plate arthroplasty. A computer-controlled mechanism was used to bring each digit's PIP joint from full extension to full flexion via the digital tendons in each testing state, and in the intact state. During each testing scenario we collected PIP joint cinedata in a true lateral projection using mini-fluoroscopy. A digital radiography program was used to measure the amount of middle phalanx dorsal translation (subluxation) in full PIP joint extension. We recorded the angle at which subluxation, if present, occurred during each testing scenario.
RESULTS
Average dorsal displacement of the middle phalanx in relation to the proximal phalanx was 0.01 mm for the hemi-hamate reconstructed joints and -0.03 mm for the volar plate arthroplasty, compared with the intact state. Flexion contractures were noted in each of the specimens reconstructed with volar plate arthroplasty. Degree of contracture was directly correlated with defect size, averaging 20° for 40% defects, 35° for 60% defects, and 60° for 80% defects. We observed no flexion contractures in the hemi-hamate reconstructions.
CONCLUSIONS
Surgeons can use both hemi-hamate and volar plate arthroplasty to restore PIP joint stability following a fracture dislocation with a large middle phalanx palmar base defect. Use of volar plate arthroplasty led to an increasing flexion contracture as the middle phalanx palmar base defect increased.
CLINICAL RELEVANCE
Clinicians can use the information from this study to help with surgical decision-making and patient education.
目的
在生物力学近端指间(PIP)关节骨折脱位模型中,比较半钩骨重建与掌板置换术后的稳定性和活动范围。
方法
对6具尸体手部的18个手指进行测试。我们在每个手指中节指骨掌侧基部制造40%、60%和80%的缺损,模拟急性PIP关节骨折脱位。每种缺损情况先用半钩骨置换术重建,然后行掌板置换术。使用计算机控制的装置,通过每个测试状态及完整状态下的指肌腱,将每个手指的PIP关节从完全伸展位带到完全屈曲位。在每个测试场景中,我们使用微型荧光透视在真正的侧位投影下收集PIP关节的动态数据。使用数字放射成像程序测量PIP关节完全伸展时中节指骨背侧移位(半脱位)的量。我们记录了每个测试场景中半脱位(如果存在)发生时的角度。
结果
与完整状态相比,半钩骨重建关节中节指骨相对于近节指骨的平均背侧移位为0.01mm,掌板置换术为-0.03mm。在用掌板置换术重建的每个标本中均发现屈曲挛缩。挛缩程度与缺损大小直接相关,40%缺损时平均为20°,60%缺损时为35°,80%缺损时为60°。我们在半钩骨重建中未观察到屈曲挛缩。
结论
对于伴有中节指骨掌侧基部大缺损的骨折脱位,外科医生可以使用半钩骨和掌板置换术来恢复PIP关节的稳定性。随着中节指骨掌侧基部缺损增加,掌板置换术的使用导致屈曲挛缩增加。
临床意义
临床医生可以利用本研究的信息来辅助手术决策和患者教育。
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