Analysis of factors influencing optimal humeral-sided reconstruction in anatomic total shoulder arthroplasty

Q2 Medicine

JSES International Pub Date : 2025-03-01 DOI:10.1016/j.jseint.2024.10.005

Kevin Salomon BS , Raúl Roura BA , Giovanni Ayala MD , Lauren Wilder MS , Logan Kolakowski MD , Peter Simon PhD , Mark A. Frankle MD

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Abstract

Background

The introduction of different humeral implants for the treatment of osteoarthritis was intended to improve the ability to anatomically reconstruct the proximal humerus. New technology should ideally lead to improvements in optimal reconstruction. The primary aim of this study was to compare three humeral implant types (long stem, short stem, and stemless) to replicate the proximal humeral anatomy and assess the impact of transitions across each stem type, including initial learning curves.

Methods

This was a retrospective review of 298 patients (175 males and 123 females) who underwent anatomic total shoulder arthroplasty utilizing three following stem types: 145 long stem, 102 short stem, and 51 stemless implants. An AP radiograph which met a criterion of optimal/orthogonal view of the humeral head and stem was selected for every included patient. A best fit circle, an articular surface circle and postoperative measure of neck-shaft angle (NSA) was measured by two independent observers. The distance between the centers of two circles (center of rotation [COR] shift) and NSA were then compared for each stem type. In order to assess transitions in technology, two sets of patients in the stemmed groups were selected: initial year (79 long stem, 62 short stem) and final year (66 long, 40 short) of utilization. A cumulative sum control chart analysis was used to assess the learning curves of each of the stem types by the initial year of utilization according to the radiographic measurement of COR shift.

Results

The stemless implant showed best reconstruction with a mean COR shift of 3.0 ± 1.6 mm and NSA of 137 ± 6° (P < .001). The transition from long stem to short stem utilization showed significantly worse COR shift and NSA, 3.3 ± 2.1 mm to 4.1 ± 1.9 mm and 138.5 ± 4.4° to 141.0 ± 4.4° (max P = .032), respectively. The impact of transitions to newer technology demonstrated an increased operative time (100 to 128 and 135 min). The cumulative sum control char learning curves demonstrated a completion of the learning phases at 12 cases for both the long and short stem designs, but there was no identifiable learning phase for the stemless implant, suggesting an immediate entry to the consolidation phase.

Conclusion

When assessing reconstruction of the premorbid shoulder joint, the stemless implant had the greatest efficacy and shortest learning curve. Stemless anatomic humeral reconstruction is more replicable in recreating the anatomic shape of the humerus and is quicker to master compared to standard or short stemmed implants but did have a greater initial operative time.

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背景为治疗骨关节炎而引入不同的肱骨植入物，旨在提高肱骨近端解剖重建的能力。理想情况下，新技术应能改善最佳重建效果。本研究的主要目的是比较三种肱骨植入物类型（长杆、短杆和无杆），以复制肱骨近端解剖结构，并评估每种杆类型的过渡所产生的影响，包括最初的学习曲线：145例长柄植入物、102例短柄植入物和51例无柄植入物。每名患者都选择了一张符合肱骨头和柄的最佳/正交视图标准的 AP X 光片。由两名独立观察者测量最佳拟合圆、关节面圆和术后颈轴角（NSA）。然后比较每种骨干类型的两个圆中心之间的距离（旋转中心偏移）和NSA。为了评估技术的转变，在有柄组中选择了两组患者：使用的最初一年（长柄79例，短柄62例）和最后一年（长柄66例，短柄40例）。根据COR移位的放射学测量结果，采用累积总和控制图分析法评估每种牙茎类型在使用最初一年的学习曲线。结果无牙茎植入体显示出最佳重建效果，平均COR移位为3.0 ± 1.6 mm，NSA为137 ± 6°（P <.001）。从使用长茎过渡到使用短茎时，COR移位和NSA明显降低，分别为3.3 ± 2.1 mm到4.1 ± 1.9 mm和138.5 ± 4.4°到141.0 ± 4.4°（最大P = .032）。过渡到较新技术的影响表明手术时间增加了（100 分钟到 128 分钟和 135 分钟）。累积总和控制学习曲线显示，长茎和短茎设计都在12个病例时完成了学习阶段，但无茎假体没有可识别的学习阶段，这表明可立即进入巩固阶段。无茎解剖肱骨重建在再现肱骨解剖形状方面更具可复制性，与标准或短有茎植入体相比，掌握起来更快，但初始手术时间更长。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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