利用准稳态 Z 谱的旋转框架模型拟合提高体内 omega 图交换参数测定的标准化和准确性。

Improving standardization and accuracy of in vivo omega plot exchange parameter determination using rotating-frame model-based fitting of quasi-steady-state Z-spectra.

机构信息

Primate Imaging Center, Emory National Primate Research Center, Emory University, Atlanta, Georgia, USA.

Department of Radiology and Imaging Sciences, Emory University School of Medicine, Atlanta, Georgia, USA.

出版信息

Magn Reson Med. 2025 Jan;93(1):151-165. doi: 10.1002/mrm.30259. Epub 2024 Sep 2.

DOI:10.1002/mrm.30259

PMID:39221563

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11518644/

Abstract

PURPOSE

Although Ω-plot-driven quantification of in vivo amide exchange properties has been demonstrated, differences in scan parameters may complicate the fidelity of determination. This work systematically evaluated the use of quasi-steady-state (QUASS) Z-spectra reconstruction to standardize in vivo amide exchange quantification across acquisition conditions and further determined it in vivo.

METHODS

Simulation and in vivo rodent brain chemical exchange saturation transfer (CEST) data at 4.7 T were fit with and without QUASS reconstruction using both multi-Lorentzian and model-based fitting approaches. pH modulation was accomplished both in simulation and in vivo by inducing global ischemia via cardiac arrest. Amide parameters were determined via Ω-plots and compared across methods.

RESULTS

Simulation showed that Ω-plots using multi-Lorentzian fitting could underestimate the exchange rate, with error increasing as conditions diverged from the steady state. In comparison, model-based fitting using QUASS estimated the same exchange rate within 2%. These results aligned with in vivo findings where multi-Lorentzian fitting of native Z-spectra resulted in an exchange rate of 64 ± 13 s (38 ± 16 s after cardiac arrest), whereas model-based fitting of QUASS Z-spectra yielded an exchange rate of 126 ± 25 s (49 ± 13 s).

CONCLUSION

The model-based fitting of QUASS CEST Z-spectra enables consistent and accurate quantification of exchange parameters through Ω-plot construction by reducing error due to signal overlap and nonequilibrium CEST effects.

摘要

目的

虽然已经证明了基于Ω-plot 的体内酰胺交换特性定量方法，但扫描参数的差异可能会影响其定量的准确性。本研究系统地评估了准稳态（QUASS）Z 谱重建在标准化不同采集条件下体内酰胺交换定量的应用，并进一步在体内进行了验证。

方法

在 4.7T 下，使用多洛伦兹拟合和基于模型的拟合方法，对模拟和体内啮齿动物大脑化学交换饱和转移（CEST）数据进行拟合，同时进行和不进行 QUASS 重建。通过心脏骤停诱导全局缺血来实现模拟和体内的 pH 调制。通过 Ω-plot 确定酰胺参数，并比较不同方法之间的参数。

结果

模拟表明，使用多洛伦兹拟合的 Ω-plot 可能会低估交换率，并且当条件偏离稳态时，误差会增加。相比之下，使用 QUASS 的基于模型的拟合可以在 2%的范围内估计相同的交换率。这些结果与体内研究结果一致，其中使用多洛伦兹拟合原生 Z 谱得到的交换率为 64±13s（心脏骤停后为 38±16s），而使用 QUASS Z 谱的基于模型的拟合得到的交换率为 126±25s（心脏骤停后为 49±13s）。

结论

通过减少信号重叠和非平衡 CEST 效应引起的误差，基于模型的 QUASS CEST Z 谱拟合可以通过 Ω-plot 构建实现酰胺交换参数的一致和准确定量。

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