Shaha James S, Cook Jay B, Song Daniel J, Rowles Douglas J, Bottoni Craig R, Shaha Steven H, Tokish John M
Tripler Army Medical Center, Honolulu, Hawaii, USA
Tripler Army Medical Center, Honolulu, Hawaii, USA.
Am J Sports Med. 2015 Jul;43(7):1719-25. doi: 10.1177/0363546515578250. Epub 2015 Apr 16.
Glenoid bone loss is a common finding in association with anterior shoulder instability. This loss has been identified as a predictor of failure after operative stabilization procedures. Historically, 20% to 25% has been accepted as the "critical" cutoff where glenoid bone loss should be addressed in a primary procedure. Few data are available, however, on lesser, "subcritical" amounts of bone loss (below the 20%-25% range) on functional outcomes and failure rates after primary arthroscopic stabilization for shoulder instability.
To evaluate the effect of glenoid bone loss, especially in subcritical bone loss (below the 20%-25% range), on outcomes assessments and redislocation rates after an isolated arthroscopic Bankart repair for anterior shoulder instability.
Cohort study; Level of evidence, 3.
Subjects were 72 consecutive anterior instability patients (73 shoulders) who underwent isolated anterior arthroscopic labral repair at a single military institution by 1 of 3 sports medicine fellowship-trained orthopaedic surgeons. Data were collected on demographics, the Western Ontario Shoulder Instability (WOSI) score, Single Assessment Numeric Evaluation (SANE) score, and failure rates. Failure was defined as recurrent dislocation. Glenoid bone loss was calculated via a standardized technique on preoperative imaging. The average bone loss across the group was calculated, and patients were divided into quartiles based on the percentage of glenoid bone loss. Outcomes were analyzed for the entire cohort, between the quartiles, and within each quartile. Outcomes were then further stratified between those sustaining a recurrence versus those who remained stable.
The mean age at surgery was 26.3 years (range, 20-42 years), and the mean follow-up was 48.3 months (range, 23-58 months). The cohort was divided into quartiles based on bone loss. Quartile 1 (n = 18) had a mean bone loss of 2.8% (range, 0%-7.1%), quartile 2 (n = 19) had 10.4% (range, 7.3%-13.5%), quartile 3 (n = 18) had 16.1% (range, 13.5%-19.8%), and quartile 4 (n = 18) had 24.5% (range, 20.0%-35.5%). The overall mean WOSI score was 756.8 (range, 0-2097). The mean WOSI score correlated with SANE scores and worsened as bone loss increased in each quartile. There were significant differences (P < .05) between quartile 1 (mean WOSI/SANE, 383.3/62.1) and quartile 2 (mean, 594.0/65.2), between quartile 2 and quartile 3 (mean, 839.5/52.0), and between quartile 3 and quartile 4 (mean, 1187.6/46.1). Additionally, between quartiles 2 and 3 (bone loss, 13.5%), the WOSI score increased to rates consistent with a poor clinical outcome. There was an overall failure rate of 12.3%. The percentage of glenoid bone loss was significantly higher among those repairs that failed versus those that remained stable (24.7% vs 12.8%, P < .01). There was no significant difference in failure rate between quartiles 1, 2, and 3, but there was a significant increase in failure (P < .05) between quartiles 1, 2, and 3 (7.3%) when compared with quartile 4 (27.8%). Notably, even when only those patients who did not sustain a recurrent dislocation were compared, bone loss was predictive of outcome as assessed by the WOSI score, with each quartile's increasing bone loss predictive of a worse functional outcome.
While critical bone loss has yet to be defined for arthroscopic Bankart reconstruction, our data indicate that "critical" bone loss should be lower than the 20% to 25% threshold often cited. In our population with a high level of mandatory activity, bone loss above 13.5% led to a clinically significant decrease in WOSI scores consistent with an unacceptable outcome, even in patients who did not sustain a recurrence of their instability.
肩胛盂骨质流失是与肩关节前脱位相关的常见表现。这种骨质流失已被确定为手术稳定修复术后失败的一个预测因素。从历史上看,20%至25%被认为是“临界”阈值,即原发性手术中应处理肩胛盂骨质流失的界限。然而,关于较少的“亚临界”骨质流失量(低于20%-25%范围)对原发性关节镜下肩关节不稳修复术后功能结果和失败率的影响,相关数据较少。
评估肩胛盂骨质流失,尤其是亚临界骨质流失(低于20%-25%范围)对单纯关节镜下Bankart修复治疗肩关节前脱位术后结果评估和再脱位率的影响。
队列研究;证据等级,3级。
研究对象为72例连续的肩关节前脱位患者(73个肩关节),他们在一家军事机构由3名接受过运动医学专科培训的骨科医生中的1名进行了单纯关节镜下盂唇修复手术。收集了人口统计学数据、西安大略肩关节不稳定(WOSI)评分、单项评估数字评价(SANE)评分和失败率。失败定义为复发性脱位。通过标准化技术在术前影像学上计算肩胛盂骨质流失情况。计算该组的平均骨质流失量,并根据肩胛盂骨质流失百分比将患者分为四分位数。对整个队列、四分位数之间以及每个四分位数内的结果进行分析。然后,将结果进一步分层为发生复发的患者和保持稳定的患者。
手术时的平均年龄为26.3岁(范围20-42岁),平均随访时间为48.3个月(范围23-58个月)。根据骨质流失情况将队列分为四分位数。第一四分位数(n = 18)的平均骨质流失为2.8%(范围0%-7.1%),第二四分位数(n = 19)为10.4%(范围7.3%-13.5%),第三四分位数(n = 18)为16.1%(范围13.5%-19.8%),第四四分位数(n = 18)为24.5%(范围20.0%-35.5%)。总体平均WOSI评分为756.8(范围0-2097)。平均WOSI评分与SANE评分相关,并且在每个四分位数中随着骨质流失增加而恶化。第一四分位数(平均WOSI/SANE,383.3/62.)与第二四分位数(平均,594.0/65.2)之间、第二四分位数与第三四分位数(平均,839.5/52.0)之间以及第三四分位数与第四四分位数(平均,1187.6/46.1)之间存在显著差异(P <.05)。此外,在第二和第三四分位数之间(骨质流失13.5%),WOSI评分增加到与临床结果较差一致的水平。总体失败率为12.3%。失败的修复中肩胛盂骨质流失百分比显著高于保持稳定的修复(24.7%对12.8%,P <.01)。第一、第二和第三四分位数之间的失败率没有显著差异,但与第四四分位数(27.8%)相比,第一、第二和第三四分位数之间的失败率有显著增加(P <.05)(7.3%)。值得注意的是,即使仅比较那些没有发生复发性脱位的患者,骨质流失也可通过WOSI评分预测结果,每个四分位数中骨质流失增加预示着功能结果更差。
虽然关节镜下Bankart重建的临界骨质流失尚未明确,但我们的数据表明,“临界”骨质流失应低于经常引用的20%至25%阈值。在我们这个有大量强制性活动的人群中,骨质流失超过13.5%会导致WOSI评分出现临床上显著下降,与不可接受的结果一致,即使在那些没有出现不稳定复发的患者中也是如此。
