预防肩部手术中臂丛神经损伤:实时尸体研究。
Preventing brachial plexus injury during shoulder surgery: a real-time cadaveric study.
机构信息
Sports Medicine and Shoulder Service, Department of Orthopaedic Surgery, St George Hospital Campus, University of New South Wales, Sydney, NSW, Australia.
Sports Medicine and Shoulder Service, Department of Orthopaedic Surgery, St George Hospital Campus, University of New South Wales, Sydney, NSW, Australia.
出版信息
J Shoulder Elbow Surg. 2018 May;27(5):912-922. doi: 10.1016/j.jse.2017.11.030. Epub 2018 Jan 19.
BACKGROUND
Brachial plexopathy is not uncommon after shoulder surgery. Although thought to be due to stretch neuropathy, its etiology is poorly understood. This study aimed to identify arm positions and maneuvers that may risk causing brachial plexopathy during shoulder arthroplasty.
METHODS
Tensions in the cords of the brachial plexuses of 6 human cadaveric upper limbs were measured using load cells while each limb was placed in different arm positions and while they underwent shoulder hemiarthroplasty and revision reverse arthroplasty. Arthroplasty procedures in 4 specimens were performed with standard limb positioning (unsupported), and 2 specimens were supported from under the elbow (supported). Each cord then underwent biomechanical testing to identify tension corresponding to 10% strain (the stretch neuropathy threshold in animal models).
RESULTS
Tensions exceeding 15 N, 11 N, and 9 N in the lateral, medial, and posterior cords, respectively, produced 10% strain. Shoulder abduction >70° and combined external rotation >60° with extension >50° increased medial cord tension above the 10% strain threshold. Medial cord tensions (mean ± standard error of the mean) in unsupported specimens increased over baseline during hemiarthroplasty (sounder insertion [4.7 ± 0.6 N, P = .04], prosthesis impaction [6.1 ± 0.8 N, P = .04], and arthroplasty reduction [5.0 ± 0.7 N, P = .04]) and revision reverse arthroplasty (retractor positioning [7.2 ± 0.8 N, P = .02]). Supported specimens experienced lower tensions than unsupported specimens.
CONCLUSIONS
Shoulder abduction >70°, combined external rotation >60° with extension >50°, and downward forces on the humeral shaft may risk causing brachial plexopathy. Retractor placement, sounder insertion, humeral prosthesis impaction, and arthroplasty reduction increase medial cord tensions during shoulder arthroplasty. Supporting the arm from under the elbow protected the brachial plexus in this cadaveric model.
背景
臂丛神经病在肩部手术后并不少见。尽管被认为是由于拉伸性神经病引起的,但它的病因尚不清楚。本研究旨在确定在肩关节置换过程中可能导致臂丛神经病的手臂位置和操作。
方法
使用负载细胞测量 6 具人体上肢臂丛神经束的张力,同时将每条肢体置于不同的手臂位置,并进行肩关节半关节成形术和反向关节成形术修复。4 个标本的关节置换手术采用标准肢体定位(无支撑)进行,2 个标本从肘部下方支撑(支撑)。然后对每个神经束进行生物力学测试,以确定对应于 10%应变的张力(动物模型中的拉伸性神经病阈值)。
结果
外侧、内侧和后侧神经束的张力分别超过 15N、11N 和 9N 时,产生 10%的应变。肩关节外展>70°和外旋>60°与伸展>50°相结合,会增加内侧神经束的张力,使其超过 10%应变的阈值。在无支撑标本中,半关节成形术期间内侧神经束的张力(平均值±平均值的标准误差)高于基线(声音插入[4.7±0.6N,P=0.04],假体撞击[6.1±0.8N,P=0.04],和关节成形术复位[5.0±0.7N,P=0.04])和反向关节成形术修复(牵开器定位[7.2±0.8N,P=0.02])。支撑标本的张力低于无支撑标本。
结论
肩关节外展>70°,外旋>60°与伸展>50°相结合,以及对肱骨干的向下力可能会导致臂丛神经病。在肩关节置换过程中,牵开器的放置、声音的插入、肱骨假体的撞击和关节成形术的复位会增加内侧神经束的张力。从肘部下方支撑手臂可在该尸体模型中保护臂丛神经。
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