Schreiner Markus M, Mlynarik Vladimir, Zbýň Štefan, Szomolanyi Pavol, Apprich Sebastian, Windhager Reinhard, Trattnig Siegfried
Department of Orthopaedic Surgery, Medical University of Vienna, Vienna, Austria; High Field MR Centre, Department of Biomedical Imaging and Image-Guided Therapy, Medical University of Vienna, Vienna, Austria.
High Field MR Centre, Department of Biomedical Imaging and Image-Guided Therapy, Medical University of Vienna, Vienna, Austria.
Cartilage. 2017 Jan;8(1):31-41. doi: 10.1177/1947603516632848. Epub 2016 Mar 3.
The incidence of osteochondral lesions, as well as osteoarthritis of the ankle joint following osteochondritis dissecans and trauma, has been reappraised in recent years. Consequently, an increasing number of surgical interventions using different cartilage repair techniques is performed in the ankle joint, which has resulted in a growing demand for repetitive and objective assessment of cartilage tissue and its repair. While morphological imaging does enable monitoring of macroscopic changes with increasing precision, it fails to provide information about the ultrastructural composition of cartilage. The significance of molecular changes in cartilage matrix composition, however, is increasingly recognized, as it is assumed that macroscopic cartilage degeneration is preceded by a loss in glycosaminoglycans and a disorganization of the collagen network. Recent advances in biochemical magnetic resonance imaging (MRI) have yielded sequences sensitive to these changes, thus providing invaluable insight into both early cartilage degeneration and maturation of repair tissue, on a molecular level. The aim of this review was to provide a comprehensive overview of these techniques, including water and collagen-sensitive T2/T2* mapping, as well as glycosaminoglycan-sensitive sequences such as delayed gadolinium-enhanced MRI of cartilage dGEMRIC, and sodium imaging, and describe their applications for the ankle joint.
近年来,人们对骨软骨损伤的发生率以及剥脱性骨软骨炎和创伤后踝关节骨关节炎进行了重新评估。因此,越来越多的使用不同软骨修复技术的手术干预在踝关节进行,这导致对软骨组织及其修复进行重复性和客观评估的需求不断增加。虽然形态学成像确实能够越来越精确地监测宏观变化,但它无法提供有关软骨超微结构组成的信息。然而,软骨基质组成中分子变化的重要性越来越受到认可,因为人们认为宏观软骨退变之前会出现糖胺聚糖的丢失和胶原网络的紊乱。生化磁共振成像(MRI)的最新进展产生了对这些变化敏感的序列,从而在分子水平上为早期软骨退变和修复组织的成熟提供了宝贵的见解。本综述的目的是全面概述这些技术,包括对水和胶原敏感的T2/T2*映射,以及对糖胺聚糖敏感的序列,如延迟钆增强软骨磁共振成像(dGEMRIC)和钠成像,并描述它们在踝关节中的应用。