Peterson Pernilla, Tiderius Carl Johan, Olsson Emma, Lundin Björn, Olsson Lars E, Svensson Jonas
Medical Radiation Physics, Department of Translational Medicine, Lund University, Inga Marie Nilssons gata 49, SE-205 02, Malmö, Sweden.
Department of Oncology and Radiation Physics, Skåne University Hospital, Inga Marie Nilssons gata 49, SE-205 02, Malmö, Sweden.
BMC Musculoskelet Disord. 2018 May 16;19(1):149. doi: 10.1186/s12891-018-2071-1.
dGEMRIC (delayed Gadolinium Enhanced Magnetic Resonance Image of Cartilage) is a well-established technique for cartilage quality assessment in osteoarthritis at clinical field strengths. The method is robust, but requires injection of contrast agent and a cumbersome examination procedure. New non-contrast-agent-based techniques for cartilage quality assessment are currently being developed at 7 T. However, dGEMRIC remains an important reference technique during this development. The aim of this work was to compare T mapping for dGEMRIC at 7 T and 1.5 T, and to evaluate three T-mapping methods at 7 T.
The knee of 10 healthy volunteers and 9 patients with early signs of cartilage degradation were examined at 1.5 T and 7 T after a single (one) contrast agent injection (Gd-(DTPA)). Inversion recovery (IR) sequences were acquired at both field strengths, and at 7 T variable flip angle (VFA) and Look-Locker (LL) sequences were additionally acquired. T maps were calculated and average T values were estimated within superficial and deep regions-of-interest (ROIs) in the lateral and medial condyles, respectively.
T values were 1.8 (1.4-2.3) times longer at 7 T. A strong correlation was detected between 1.5 T and 7 T T values (r = 0.80). For IR, an additional inversion time was required to avoid underestimation (bias±limits of agreement - 127 ± 234 ms) due to the longer T values at 7 T. Out of the two 3D sequences tested, LL resulted in more accurate and precise T estimation compared to VFA (average bias±limits of agreement LL: 12 ± 202 ms compared to VFA: 25 ± 622 ms). For both, B correction improved agreement to IR.
With an adapted sampling scheme, dGEMRIC T mapping is feasible at 7 T and correlates well to 1.5 T. If 3D is to be used for T mapping of the knee at 7 T, LL is preferred and VFA is not recommended. For VFA and LL, B correction is necessary for accurate T estimation.
延迟钆增强磁共振软骨成像(dGEMRIC)是临床场强下评估骨关节炎软骨质量的成熟技术。该方法可靠,但需要注射造影剂且检查过程繁琐。目前正在7T场强下开发基于非造影剂的软骨质量评估新技术。然而,在这一发展过程中,dGEMRIC仍然是一项重要的参考技术。本研究的目的是比较7T和1.5T场强下dGEMRIC的T值映射,并评估7T场强下的三种T值映射方法。
对10名健康志愿者和9名有早期软骨退变迹象的患者的膝关节在1.5T和7T场强下进行单次(一剂)造影剂(钆 - 二乙三胺五乙酸(Gd-(DTPA))注射后检查。在两个场强下均采集反转恢复(IR)序列,在7T场强下还额外采集可变翻转角(VFA)和Look-Locker(LL)序列。计算T值映射并分别估计外侧和内侧髁表面和深部感兴趣区域(ROI)内的平均T值。
7T场强下的T值长1.8(1.4 - 2.3)倍。1.5T和7T场强下的T值之间存在强相关性(r = 0.80)。对于IR,由于7T场强下T值较长,需要额外的反转时间以避免低估(偏差±一致性界限 - 127 ± 234 ms)。在测试的两种3D序列中,与VFA相比,LL导致更准确和精确的T值估计(平均偏差±一致性界限LL:12 ± 202 ms,而VFA:25 ± 622 ms)。对于两者,B校正改善了与IR的一致性。
采用适应性采样方案,dGEMRIC T值映射在7T场强下可行且与1.5T场强相关性良好。如果在7T场强下对膝关节进行T值映射使用3D序列,首选LL,不推荐VFA。对于VFA和LL,准确估计T值需要进行B校正。