Steadman Hawkins Clinic of the Carolinas, Prisma Health-Upstate, Greenville, SC, USA.
Steadman Hawkins Clinic of the Carolinas, Prisma Health-Upstate, Greenville, SC, USA; ATI Physical Therapy, Greenville, SC, USA.
J Shoulder Elbow Surg. 2021 Jul;30(7S):S140-S144. doi: 10.1016/j.jse.2021.04.006. Epub 2021 Apr 22.
There is a trend toward increased surgical treatment of displaced clavicle fractures in the adolescent population presumably because of extrapolation of adult-derived best practice guidelines. The purpose of this study was to compare return to sport between nonoperative and operative treatment of clavicle fractures in high school athletes.
A retrospective review of clavicle fractures sustained in scholastic athletes participating in school-sponsored athletics in the upstate South Carolina was performed from 2015 to 2019. Injury circumstances, demographics, radiographs, treatment, and return to sport data were documented for all patients. Radiographs were evaluated for fracture location, comminution, displacement, shortening, and angulation. Patients were followed until complete return to sport, and results were compared based on sport participation, injury mechanism, fracture morphology, treatment type, and time to return to sport.
Forty-seven patients (44 were male; average age 15.6 years) were included who all returned to sport within the original or subsequent season. Thirty-six patients (73%) were managed conservatively (30 middle third fractures, 4 medial third fractures, 2 distal third fractures), whereas 11 were managed surgically (11 middle third fractures). Eighty-one percent of fractures occured in collision athletes (55% in football). There was no difference in time loss based on participating in collision vs. noncontact sports (P = .4). Conservatively managed fractures returned to sport faster (61 ± 38 days vs. 100 ± 49 days; P = .008) compared with surgically managed patients. Fracture displacement ≥100% (100 ± 51 days vs. 54 ± 27 days; P = .001), greater comminution (128 ± 50 days vs. 59 ± 31 days; P = .001), and angulation (86 ± 52 days vs. 54 ± 22 days; P = .001) all were statistically significant for slower return to sport. Athletes presenting with clavicular shortening <2 cm returned to sport within a similar time frame as athletes with ≥2 cm (P = 0.1).
Our results show that adolescent athletes with clavicular fractures predictably return to athletics, including collision sports. Athletes conservatively managed returned 40% faster than those with surgery. However, this appears to be associated with the severity and complexity of fractures treated surgically. This study provides evidence to counsel adolescent athletes following clavicular fractures on return to sport expectations.
由于成人最佳实践指南的推断,青少年人群中锁骨骨折的手术治疗呈增加趋势。本研究的目的是比较青少年运动员锁骨骨折的非手术和手术治疗的重返运动情况。
对 2015 年至 2019 年期间参加南卡罗来纳州北部学校赞助的体育活动的学校运动员中发生的锁骨骨折进行回顾性研究。记录所有患者的受伤情况、人口统计学、影像学、治疗和重返运动数据。对影像学进行骨折部位、粉碎程度、移位、缩短和成角评估。患者随访至完全重返运动,并根据运动参与、损伤机制、骨折形态、治疗类型和重返运动时间进行结果比较。
共纳入 47 例患者(44 例男性;平均年龄 15.6 岁),所有患者均在原赛季或后续赛季内重返运动。36 例(73%)患者接受保守治疗(30 例中段骨折,4 例内侧段骨折,2 例远端段骨折),11 例患者接受手术治疗(11 例中段骨折)。81%的骨折发生在碰撞运动员中(55%发生在足球中)。参与碰撞运动与非接触运动的失时时间无差异(P=0.4)。与手术治疗相比,保守治疗的骨折更快地重返运动(61±38 天比 100±49 天;P=0.008)。骨折移位≥100%(100±51 天比 54±27 天;P=0.001)、粉碎程度更高(128±50 天比 59±31 天;P=0.001)和成角(86±52 天比 54±22 天;P=0.001)均与重返运动的时间延长相关。锁骨缩短<2cm 的运动员和缩短≥2cm 的运动员重返运动的时间相似(P=0.1)。
我们的研究结果表明,青少年锁骨骨折运动员可预期地重返体育运动,包括碰撞运动。接受保守治疗的运动员比接受手术治疗的运动员快 40%重返运动。然而,这似乎与手术治疗的骨折严重程度和复杂性有关。本研究为青少年锁骨骨折运动员提供了有关重返运动期望的循证依据。
