Beaumont Marine, Odame Isaac, Babyn Paul S, Vidarsson Logi, Kirby-Allen Melanie, Cheng Hai-Ling Margaret
The Research Institute, The Hospital for Sick Children, Toronto, Ontario, Canada.
J Magn Reson Imaging. 2009 Aug;30(2):313-20. doi: 10.1002/jmri.21835.
To investigate the accuracy of T 2 liver iron quantification using different curve-fitting models under varying acquisition conditions, and to compare in iron-overloaded patients the reliability of rapid T 2 measurements against approved and slower T(2) protocols.
Simulations were conducted to assess the influence of various factors on the accuracy of T 2 measurement: curve-fitting model, signal-to-noise ratio (SNR), and echo time (TE) spacing. Fifty-four iron-overloaded pediatric patients were assessed using a standard T(2) and two variations of T 2 acquisitions. In both simulations and in vivo data, three analysis models were evaluated: monoexponential, constant offset, and truncated.
Simulations show the truncated model provides the best accuracy but is susceptible to underestimating high iron species under low SNR or high minimum TE. In contrast, the offset model tends to overestimate but maintains the most reliable measurements across the relevant range of iron levels. Furthermore, a much lower SNR can be tolerated if the acquisition uses a low minimum TE. In vivo results confirm theoretical findings and show that T 2 measurements can be as reliable as those from approved and slower T(2) protocols.
Guidelines are provided on choosing an appropriate model under specific noise conditions and acquisition schemes to ensure accurate and rapid T2 liver iron quantification.
研究在不同采集条件下使用不同曲线拟合模型进行肝脏T2铁定量的准确性,并在铁过载患者中比较快速T2测量相对于经批准的较慢T2方案的可靠性。
进行模拟以评估各种因素对T2测量准确性的影响:曲线拟合模型、信噪比(SNR)和回波时间(TE)间隔。使用标准T2和两种T2采集变体对54名铁过载儿科患者进行评估。在模拟和体内数据中,评估了三种分析模型:单指数模型、恒定偏移模型和截断模型。
模拟表明截断模型提供了最佳准确性,但在低SNR或高最小TE下易低估高铁含量。相比之下,偏移模型倾向于高估,但在相关铁水平范围内保持最可靠的测量。此外,如果采集使用低最小TE,则可以容忍低得多的SNR。体内结果证实了理论发现,并表明T2测量可以与经批准的较慢T2方案一样可靠。
提供了在特定噪声条件和采集方案下选择合适模型的指南,以确保准确、快速地进行肝脏T2铁定量。
