Posterior Glenoid Bone Grafting in the Setting of Excessive Glenoid Retroversion Does Not Provide Adequate Stability in a Cadaveric Posterior Instability Model.

Lukas Ernstbrunner,Alexander Paszicsnyek,Andrew M Ker,Manuel Waltenspül,Elias Bachmann,Karl Wieser,Samy Bouaicha,Paul Borbas
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Abstract

BACKGROUND Excessive glenoid retroversion is a known risk factor for posterior shoulder instability and failure after soft tissue stabilization procedures. Whether excessive glenoid retroversion is a risk factor for failure after posterior glenoid bone grafting is unknown. PURPOSE To evaluate the biomechanical effectiveness of posterior iliac crest bone grafting (ICBG) for posterior shoulder instability with increasing glenoid retroversion. STUDY DESIGN Controlled laboratory study. METHODS Six fresh-frozen cadaveric shoulders had a posterior glenoid osteotomy allowing the glenoid retroversion to be set at 0°, 10°, and 20°. At these 3 preset angles, 4 conditions were simulated consecutively on the same specimen: (1) intact glenohumeral joint, (2) posterior Bankart lesion, (3) 20% posterior glenoid bone defect, and (4) posterior ICBG. Stability was evaluated in the jerk position (60° of glenohumeral anteflexion, 60° of internal rotation) by measuring (A) posterior humeral head (HH) translation (in mm) and (B) peak translational force (in N) necessary for translation of the HH over 25% of glenoid width. RESULTS At 0° of retroversion, the ICBG restored posterior HH translation and peak translational force to values comparable with those of the intact condition (P = .649 and P = .979, respectively). At 10° of retroversion, the ICBG restored the peak translational force to a value comparable with that of the intact condition (22.3 vs 24.7 N, respectively; P = .418) but showed a significant difference in posterior HH translation in comparison to the intact condition (4.5 vs 2.0 mm, respectively; P = .026). There was a significant increase in posterior HH translation and significant decrease in peak translational force with the ICBG at 20° of glenoid retroversion compared with the intact condition (posterior HH translation: 7.9 vs 2.0 mm, respectively; P < .006; peak translational force: 15.3 vs 24.7 N, respectively; P = .014). CONCLUSION In this cadaveric study, posterior ICBG was able to restore stability to a level comparable to that of the native condition at 0° and to some extent at 10° of retroversion. However, posterior ICBG was not able to provide adequate stability at 20° of glenoid retroversion. CLINICAL RELEVANCE Posterior glenoid bone grafting with ICBG should be used with caution when performed in isolation in the setting of posterior instability associated with glenoid bone loss and combined glenoid retroversion of >10°.
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在尸体后方不稳定性模型中,在釉质过度后倾的情况下进行釉质后方骨移植并不能提供足够的稳定性。
背景:过度的盂后凸是已知的肩关节后方不稳定和软组织稳定术后失败的风险因素。目的评估后髂嵴植骨术(ICBG)在治疗肩关节后方不稳定时的生物力学效果。方法对六具新鲜冷冻的尸体肩部进行盂后截骨术,将盂后角分别设置为 0°、10° 和 20°。在这 3 个预设角度下,在同一标本上连续模拟了 4 种情况:(1)完整的盂肱关节;(2)后方 Bankart 病变;(3)20% 后方盂骨缺损;(4)后方 ICBG。通过测量 (A) 后肱骨头 (HH) 平移(单位:毫米)和 (B) HH 平移超过盂宽 25% 所需的峰值平移力(单位:牛顿)来评估挺举位(盂肱关节前屈 60°,内旋 60°)的稳定性。结果在后翻 0°时,ICBG 使后 HH 平移和峰值平移力恢复到与完好状态下相当的值(分别为 P = .649 和 P = .979)。在后倾 10° 时,ICBG 使峰值平移力恢复到与完好状态相当的值(分别为 22.3 牛顿和 24.7 牛顿;P = .418),但与完好状态相比,HH 后方平移有显著差异(分别为 4.5 毫米和 2.0 毫米;P = .026)。在盂后翻 20° 时,ICBG 使 HH 后方平移明显增加,平移力峰值明显降低(HH 后方平移:7.9 mm vs 2.0 mm):结论在这项尸体研究中,后方 ICBG 能够在 0° 时将稳定性恢复到与原生状态相当的水平,并在一定程度上在后翻 10° 时将稳定性恢复到与原生状态相当的水平。临床意义对于盂骨缺失导致的后方不稳定以及盂骨后移大于 10°的情况,单独使用 ICBG 进行盂后植骨时应慎重。
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