The Application of Advanced Bone Imaging Technologies in Sports Medicine

IF 2.2 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Samuel S. Tadros, Scott Epsley, S. Mehta, Brandon C. Jones, Hiran I. Rajapakse, Rashad Madi, Austin Alecxih, Daniel C. Kargilis, C. Rajapakse
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Abstract

Until recently, the evaluation of bone health and fracture risk through imaging has been limited to dual-energy X-ray absorptiometry (DXA) and plain radiographs, with a limited application in the athletic population. Several novel imaging technologies are now available for the clinical assessment of bone health, including bone injury risk and healing progression, with a potential for use in sports medicine. Among these imaging modalities is high-resolution peripheral quantitative computed tomography (HR-pQCT) which is a promising technology that has been developed to examine the bone microarchitecture in both cortical and trabecular bone at peripheral anatomical sites. Technologies that do not expose patients to ionizing radiation are optimal, particularly for athletes who may require frequent imaging. One such alternative is diagnostic ultrasound, which is preferable due to its low cost and lack of radiation exposure. Furthermore, ultrasound, which has not been a common imaging modality for monitoring fracture healing, has been shown to potentially demonstrate earlier signs of union compared to conventional radiographs, including callus mineralization and density at the healing site. Through the use of conventional magnetic resonance imaging (MRI), finite element analysis (FEA) can be used to simulate the structural and mechanical properties of bone. On the other hand, the ultrashort echo time (UTE) MRI can evaluate cortical bone quality by detecting water bound to the organic bone matrix and free water, providing important information about bone porosity. Several novel bone imaging techniques originally developed for osteoporosis assessment have great potential to be utilized to improve the standard of care in bone fracture risk assessment and healing in sports medicine with much greater precision and less adverse radiation exposure.
先进骨成像技术在运动医学中的应用
直到最近,通过成像评估骨骼健康和骨折风险的方法仅限于双能x线吸收仪(DXA)和x线平片,在运动人群中的应用有限。现在有几种新的成像技术可用于骨健康的临床评估,包括骨损伤风险和愈合进展,并有可能用于运动医学。在这些成像方式中,高分辨率外周定量计算机断层扫描(HR-pQCT)是一项很有前途的技术,已发展用于检查骨皮质和骨小梁周围解剖部位的骨微结构。不使患者暴露于电离辐射的技术是最佳的,特别是对于可能需要频繁成像的运动员。其中一种替代方法是诊断超声,由于其成本低且没有辐射暴露,因此更受欢迎。此外,超声还不是监测骨折愈合的常用成像方式,但与传统x线片相比,它有可能显示更早的愈合迹象,包括愈合部位的骨痂矿化和密度。通过使用传统的磁共振成像(MRI),有限元分析(FEA)可以用来模拟骨的结构和力学性能。另一方面,超短回波时间(UTE) MRI可以通过检测与有机骨基质结合的水和游离水来评估皮质骨质量,提供有关骨孔隙度的重要信息。一些最初用于骨质疏松评估的新型骨成像技术具有很大的潜力,可用于提高运动医学中骨折风险评估和愈合的护理标准,具有更高的精度和更少的不良辐射暴露。
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来源期刊
Radiology Research and Practice
Radiology Research and Practice RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
自引率
0.00%
发文量
17
审稿时长
17 weeks
期刊介绍: Radiology Research and Practice is a peer-reviewed, Open Access journal that publishes articles on all areas of medical imaging. The journal promotes evidence-based radiology practice though the publication of original research, reviews, and clinical studies for a multidisciplinary audience. Radiology Research and Practice is archived in Portico, which provides permanent archiving for electronic scholarly journals, as well as via the LOCKSS initiative. It operates a fully open access publishing model which allows open global access to its published content. This model is supported through Article Processing Charges. For more information on Article Processing charges in gen
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