Robertson Greg A J, Sinha Amit, Hodkinson Thomas, Koç Togay
Department of Orthopaedic Surgery, Queen Alexandra Hospital, Portsmouth PO6 3LY, United Kingdom.
Department of Trauma and Orthopaedic Surgery, Wales Deanery, Cardiff CF15 7QQ, United Kingdom.
World J Orthop. 2023 Jun 18;14(6):471-484. doi: 10.5312/wjo.v14.i6.471.
Evidence-based guidance on return to sport following toe phalanx fractures is limited.
To systemically review all studies recording return to sport following toe phalanx fractures (both acute fractures and stress fractures), and to collate information on return rates to sport (RRS) and mean return times (RTS) to the sport.
A systematic search of PubMed, MEDLINE, EMBASE, CINAHL, Cochrane Library, Physiotherapy Evidence Database, and Google Scholar was performed in December 2022 using the keywords 'Toe', 'Phalanx', 'Fracture', 'injury', 'athletes', 'sports', 'non-operative', 'conservative', 'operative', 'return to sport'. All studies which recorded RRS and RTS following toe phalanx fractures were included.
Thirteen studies were included: one retrospective cohort study and twelve case series. Seven studies reported on acute fractures. Six studies reported on stress fractures. For the acute fractures ( = 156), 63 were treated with primary conservative management (PCM), 6 with primary surgical management (PSM) (all displaced intra-articular (physeal) fractures of the great toe base of the proximal phalanx), 1 with secondary surgical management (SSM) and 87 did not specify treatment modality. For the stress fractures ( = 26), 23 were treated with PCM, 3 with PSM, and 6 with SSM. For acute fractures, RRS with PCM ranged from 0 to 100%, and RTS with PCM ranged from 1.2 to 24 wk. For acute fractures, RRS with PSM were all 100%, and RTS with PSM ranged from 12 to 24 wk. One case of an undisplaced intra-articular (physeal) fracture treated conservatively required conversion to SSM on refracture with a return to sport. For stress fractures, RRS with PCM ranged from 0% to 100%, and RTS with PCM ranged from 5 to 10 wk. For stress fractures, RRS with PSM were all 100%, and RTS with surgical management ranged from 10 to 16 wk. Six cases of conservatively-managed stress fractures required conversion to SSM. Two of these cases were associated with a prolonged delay to diagnosis (1 year, 2 years) and four cases with an underlying deformity [hallux valgus ( = 3), claw toe ( = 1)]. All six cases returned to the sport after SSM.
The majority of sport-related toe phalanx fractures (acute and stress) are managed conservatively with overall satisfactory RRS and RTS. For acute fractures, surgical management is indicated for displaced, intra-articular (physeal) fractures, which offers satisfactory RRS and RTS. For stress fractures, surgical management is indicated for cases with delayed diagnosis and established non-union at presentation, or with significant underlying deformity: both can expect satisfactory RRS and RTS.
关于趾骨骨折后恢复运动的循证指南有限。
系统回顾所有记录趾骨骨折(包括急性骨折和应力性骨折)后恢复运动情况的研究,并整理恢复运动率(RRS)和恢复运动平均时间(RTS)的相关信息。
2022年12月,使用关键词“趾”“趾骨”“骨折”“损伤”“运动员”“运动”“非手术”“保守治疗”“手术”“恢复运动”对PubMed、MEDLINE、EMBASE、CINAHL、Cochrane图书馆、物理治疗证据数据库和谷歌学术进行了系统检索。纳入所有记录趾骨骨折后RRS和RTS的研究。
纳入13项研究:1项回顾性队列研究和12个病例系列。7项研究报告了急性骨折情况。6项研究报告了应力性骨折情况。对于急性骨折(n = 156),63例采用初始保守治疗(PCM),6例采用初始手术治疗(PSM)(均为近端趾骨基底的拇趾关节内(骨骺)移位骨折),1例采用二期手术治疗(SSM),87例未明确治疗方式。对于应力性骨折(n = 26),23例采用PCM,3例采用PSM,6例采用SSM。对于急性骨折,PCM的RRS范围为0%至100%,PCM的RTS范围为1.2至24周。对于急性骨折,PSM的RRS均为100%,PSM的RTS范围为12至24周。1例保守治疗的无移位关节内(骨骺)骨折在再次骨折后转为SSM并恢复运动。对于应力性骨折,PCM的RRS范围为0%至100%,PCM的RTS范围为5至10周。对于应力性骨折,PSM的RRS均为100%,手术治疗的RTS范围为10至16周。6例保守治疗的应力性骨折需要转为SSM。其中2例与诊断延迟时间延长(1年、2年)有关,4例与潜在畸形有关[拇外翻(n = 3)、爪形趾(n = 1)]。所有6例在接受SSM后均恢复了运动。
大多数与运动相关的趾骨骨折(急性和应力性)采用保守治疗,RRS和RTS总体令人满意。对于急性骨折,移位的关节内(骨骺)骨折需进行手术治疗,其RRS和RTS令人满意。对于应力性骨折,对于就诊时诊断延迟且已形成骨不连或存在明显潜在畸形的病例,建议进行手术治疗:两者的RRS和RTS均可预期令人满意。
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