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3
Expected Time to Return to Athletic Participation After Stress Fracture in Division I Collegiate Athletes.I 级大学生运动员应力性骨折后重返竞技运动的预期时间。
Sports Health. 2018 Jul-Aug;10(4):340-344. doi: 10.1177/1941738117747868. Epub 2017 Dec 14.
4
ACR Appropriateness Criteria Stress (Fatigue/Insufficiency) Fracture, Including Sacrum, Excluding Other Vertebrae.ACR 适宜性标准 应激(疲劳/衰竭)骨折,包括骶骨,但不包括其他椎体。
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回顾性分析 MRI 阳性的青少年运动员胫骨骨应力性损伤的影像学表现:一项对比研究。

Retrospective Review of Radiographic Imaging of Tibial Bony Stress Injuries in Adolescent Athletes With Positive MRI Findings: A Comparative Study.

机构信息

Department of Orthopaedic Surgery, Rutgers, Robert Wood Johnson Medical School, New Brunswick, New Jersey.

Department of Radiology, Rutgers, Robert Wood Johnson Medical School, New Brunswick, New Jersey.

出版信息

Sports Health. 2023 Mar-Apr;15(2):244-249. doi: 10.1177/19417381221109537. Epub 2022 Aug 2.

DOI:10.1177/19417381221109537
PMID:35918903
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9950998/
Abstract

BACKGROUND

It is difficult to diagnose and grade bony stress injury (BSI) in the athletic adolescent population without advanced imaging. Radiographs are recommended as a first imaging modality, but have limited sensitivity and, even when findings are present, advanced imaging is often recommended.

HYPOTHESIS

It was hypothesized that the significance of radiographs is underestimated for BSI in the adolescent with positive clinical examination and history findings.

STUDY DESIGN

Case series.

LEVEL OF EVIDENCE

Level 4.

METHODS

A total of 80 adolescent athletes with a history of shin pain underwent clinical examination by an orthopaedic surgeon. On the day of clinical examination, full-length bilateral tibial radiographs and magnetic resonance imaging (MRI) scans were obtained. MRI scans were reviewed using Fredericson grading for BSI. At the completion of the study, radiographic images were re-evaluated by 2 musculoskeletal (MSK) radiologists, blinded to MRI and clinical examination results, who reviewed the radiographs for evidence of BSI. Radiographic results were compared with clinical examination and MRI findings. Sensitivity, specificity, negative predictive value, and positive predictive value were calculated based on comparison with MRI.

RESULTS

All radiographs were originally read as normal. Of the tibia studied, 80% (127 of 160) showed evidence of BSI on MRI. None of the original radiographs demonstrated a fracture line on initial review by the orthopaedic surgeons. Retrospective review by 2 MSK radiologists identified 27% of radiographs (34 of 127) with evidence of abnormality, which correlated with clinical examination and significant findings on MRI. Review of radiographs found evidence of new bone on 0 of 28 Fredericson grade 0, 0 of 19 Fredericson grade I, 11 of 80 (13.7%) Fredericson grade II, 18 of 28 (64%) Fredericson grade III, and 5 of 5 (100%) Fredericson grade IV. Sensitivity of radiographs showed evidence of new bone on 27% (34 of 127) of initial radiographs, with presence more common with greater degree of BSI, as 23 of 33 (70%) were higher-grade injuries (III of IV) of BSI. Specificity and positive predictive value were 100%, while negative predictive value was 17%.

CONCLUSION

These findings highlight the importance of initial radiographs in identifying high-grade BSI. As radiographs are readily available in most office settings of sports medicine physicians, this information can influence the management of adolescent athletic BSI without the need to delay treatment to obtain an MRI.

CLINICAL RELEVANCE

Adolescent athletes with radiographic evidence of BSI should be treated in a timely and more conservative manner, given the likelihood of higher-grade BSI. In addition, clinicians knowledgeable of the radiographic findings of high-grade BSI should feel more confident that a negative initial radiograph is not likely to be a high-grade BSI and can modify their treatment plans accordingly.

摘要

背景

在没有先进影像学检查的情况下,很难对运动青少年人群中的骨应力损伤(BSI)进行诊断和分级。放射摄影被推荐作为首选的影像学检查方法,但它的敏感性有限,即使影像学检查结果阳性,通常也推荐进行高级影像学检查。

假设

对于临床检查和病史阳性的青少年,放射摄影对 BSI 的重要性被低估了。

研究设计

病例系列研究。

证据水平

4 级。

方法

共有 80 名有胫骨疼痛病史的青少年运动员接受了骨科医生的临床检查。在临床检查当天,获得了双侧胫骨全长的放射摄影和磁共振成像(MRI)扫描。使用 Fredericson 分级对 BSI 进行 MRI 扫描评估。研究结束时,由 2 名肌肉骨骼(MSK)放射科医生对放射摄影图像进行重新评估,他们对 MRI 和临床检查结果不知情,对放射摄影图像进行评估,以确定是否存在 BSI。将放射摄影结果与临床检查和 MRI 结果进行比较。根据与 MRI 的比较,计算了敏感性、特异性、阴性预测值和阳性预测值。

结果

所有的放射摄影最初都被解读为正常。在研究的胫骨中,80%(160 个中的 127 个)在 MRI 上显示有 BSI 的证据。最初,在接受骨科医生检查时,没有一个放射摄影显示出骨折线。由 2 名 MSK 放射科医生进行的回顾性分析发现,27%(127 个中的 34 个)的放射摄影有异常表现,与临床检查和 MRI 的显著结果相符。放射摄影检查发现,0 个 Fredericson 0 级(28 个中的 0 个)、0 个 Fredericson I 级(19 个中的 0 个)、11 个 Fredericson II 级(80 个中的 13.7%)、18 个 Fredericson III 级(28 个中的 64%)和 5 个 Fredericson IV 级(5 个中的 100%)有新骨形成的证据。放射摄影显示新骨形成的敏感性为 27%(127 个中的 34 个),随着 BSI 程度的增加,其存在的可能性也越大,因为 23 个(33 个中的 70%)为更高级别的(III 级或 IV 级)BSI。特异性和阳性预测值为 100%,而阴性预测值为 17%。

结论

这些发现强调了初始放射摄影在识别高级别 BSI 中的重要性。由于放射摄影在大多数运动医学医生的办公室中都很容易获得,因此这些信息可以影响青少年运动员 BSI 的治疗,而无需延迟治疗以获得 MRI。

临床相关性

有 BSI 放射摄影证据的青少年运动员应及时进行更保守的治疗,因为他们更有可能出现高级别的 BSI。此外,了解高级别 BSI 放射摄影表现的临床医生应该更有信心,认为初始放射摄影阴性不太可能是高级别 BSI,可以相应地修改他们的治疗计划。