Brooke Army Medical Center, Fort Sam Houston, TX, USA.
Clin Orthop Relat Res. 2022 Nov 1;480(11):2174-2179. doi: 10.1097/CORR.0000000000002204. Epub 2022 Mar 30.
When the symptoms of hallux valgus persist despite nonoperative management, surgical intervention may be considered to improve pain and restore function. Although most patients return to full or near-full activity after surgery, this is not always the case in higher-demand populations. In fact, little is known about the likelihood of a military servicemember returning to running or military duty, which is analogous to a recreationally active adult, after hallux valgus correction.
QUESTIONS/PURPOSES: (1) What percentage of military servicemembers are able to return to full duty, including the ability to run 1.5 to 2 miles, 1 year after hallux valgus surgery? (2) What demographic, radiographic, and surgical variables are associated with an increased likelihood of return to full duty?
This was a retrospective study of all military servicemembers who underwent surgical correction of hallux valgus deformities at a single tertiary institution from January 2005 to December 2016. We considered military servicemembers who were treated by four fellowship-trained foot and ankle orthopaedic surgeons and who had at least 1 year time-in-service remaining as potentially eligible. A total of 229 people underwent hallux valgus correction during this timeframe, but only 28% (64 of 229) of patients remained eligible: 41% (93 of 229) were excluded because they were not military members, 28% (64 of 229) were ineligible because they had less than 1 year remaining in service, 2% (4 of 229) were excluded because of prior surgery on the ipsilateral extremity, and 2% (4 of 2292) had an incomplete dataset. Interventions included a modified McBride procedure (9% [6 of 64]), distal metatarsal osteotomies (51% [33 of 64]), proximal metatarsal osteotomies (13% [8 of 64]), and Lapidus procedures (27% [17 of 64]). No bilateral procedures were performed. The mean age of our patients was 40 ± 10 years, and the mean BMI was 28 ± 9 kg/m 2 . In addition, 23% (15 of 64) of patients were nicotine users, 38% (24 of 64) were officers, and 45% (29 of 64) were women. The indication for surgery was functionally limiting pain that persisted despite 4 to 6 months of activity modifications, accommodative footwear, and orthotics. Cosmesis was not an indication for surgery. Before surgery, all patients were unable to complete a 1.5- to 2-mile timed run due to pain. The primary outcome measure was the proportion of patients who returned to full duty, which was defined as the ability to complete a 1.5-mile to 2-mile run for a military fitness test in a fixed time allotment, which varies by age and gender, and the ability to perform military-specific physical tasks at 1 year postoperatively. A secondary analysis according to demographic, radiographic, and surgical variables sought to determine any differences between those who did and did not return to full duty; this was assessed using univariable statistical comparisons at a p value of less than 0.01.
A total of 28% (18 of 64) of patients who underwent surgery returned to full duty by 1 year after surgery as determined by the ability to complete a time-allotted 1.5- to 2-mile fitness test run. Of the factors we explored, we did not identify any variables associated with return to full duty. We note that our analysis may have been underpowered to detect differences among factors that could be clinically important, like BMI, age, and comparisons of officers versus enlisted servicemembers.
Although this study analyzed the functional outcomes of a group of military servicemembers after hallux valgus correction, we believe our findings may also apply to recreationally active adults in the general population. Only a minority of military servicemembers (28% [18 of 64]) returned to duty 1 year after hallux valgus correction, as determined by the ability to complete a timed 1.5- to 2-mile run. We believe surgeons can use the findings of this study to set realistic expectations for recreationally active adults, particularly runners, after hallux valgus correction.
Level III, therapeutic study.
当拇外翻的症状尽管经过非手术治疗仍持续存在时,可能需要考虑手术干预以改善疼痛并恢复功能。尽管大多数患者在手术后能够完全或接近完全恢复活动,但在高需求人群中并非总是如此。实际上,对于拇外翻矫正后,军人是否能够恢复跑步或军事任务,类似于积极参与休闲活动的成年人,知之甚少。
问题/目的:(1)拇外翻手术后 1 年,有多少军人能够完全恢复工作,包括能够进行 1.5 至 2 英里的跑步?(2)哪些人口统计学、影像学和手术变量与更高的恢复完全工作的可能性相关?
这是一项对在单一三级机构接受手术矫正拇外翻畸形的所有军人的回顾性研究,研究时间为 2005 年 1 月至 2016 年 12 月。我们考虑了由四位足部和踝关节矫形外科 fellowship培训的医生治疗的军人,并且有至少 1 年的现役时间,这些军人可能有资格入选。在此期间,共有 229 人接受了拇外翻矫正,但只有 28%(229 人中有 64 人)符合条件:41%(229 人中有 93 人)因不是军人而被排除在外,28%(229 人中有 64 人)因服役时间不足 1 年而被排除在外,2%(229 人中有 4 人)因同侧肢体先前手术而被排除在外,2%(229 人中有 4 人)因数据集不完整而被排除在外。干预措施包括改良 McBride 手术(9%[6/64])、远端跖骨截骨术(51%[33/64])、近端跖骨截骨术(13%[8/64])和 Lapidus 手术(27%[17/64])。没有进行双侧手术。我们患者的平均年龄为 40±10 岁,平均 BMI 为 28±9kg/m 2 。此外,23%(15/64)的患者是尼古丁使用者,38%(24/64)是军官,45%(29/64)是女性。手术的指征是功能受限的疼痛,尽管经过 4 至 6 个月的活动调整、适应性鞋类和矫形器治疗,但仍持续存在。美容不是手术的指征。手术前,所有患者都因疼痛而无法完成 1.5 至 2 英里的定时跑步。主要观察指标是恢复完全工作的患者比例,定义为能够在固定时间分配内完成 1.5 至 2 英里的军事体能测试跑步,时间分配因年龄和性别而异,并且能够在术后 1 年完成特定于军事的身体任务。根据人口统计学、影像学和手术变量的二次分析旨在确定那些恢复和未恢复完全工作的患者之间的任何差异;这是通过小于 0.01 的 p 值进行单变量统计比较来评估的。
28%(18/64)的手术患者在手术后 1 年能够完成规定时间的 1.5 至 2 英里体能测试跑步,从而恢复完全工作。在我们探索的因素中,我们没有发现任何与恢复完全工作相关的变量。我们注意到,我们的分析可能没有足够的能力来检测到可能具有临床重要性的因素之间的差异,例如 BMI、年龄和军官与入伍军人的比较。
尽管这项研究分析了一组军人在拇外翻矫正后的功能结果,但我们认为我们的发现也可能适用于一般人群中积极参与休闲活动的成年人。只有少数军人(28%[18/64])在拇外翻矫正后 1 年能够恢复工作,这是通过完成规定时间的 1.5 至 2 英里跑步来确定的。我们相信,外科医生可以利用这项研究的结果,为积极参与休闲活动的成年人,特别是跑步者,在拇外翻矫正后设定现实的期望。
III 级,治疗性研究。