Kai Ruppert, Luis Loza, Hooman Hamedani, Mostafa Ismail, Jiawei Chen, Ian F Duncan, Harrilla Profka, Stephen Kadlecek, Rahim R Rizi
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引用次数: 0
Abstract
Purpose: To compare pulmonary function metrics obtained with hyperpolarized xenon-129 (HXe) MRS, using chemical shift saturation recovery (CSSR) and CSI-CSSR, in healthy rats and a rat model of radiation-induced lung injury.
Methods: HXe-MR data were acquired in two healthy rats and one rat with radiation-induced lung injury using whole-lung spectroscopy and CSI-CSSR techniques. The CSI-CSSR acquisitions were performed with both fixed TE and variable TE. Apparent alveolar septal wall thickness, gas transfer dynamics, and regional lung function were quantified and compared across acquisition methods. Spectral analysis included alignment of dissolved-phase frequency spectra using the membrane resonance as reference, segmentation of gas-phase (GP) frequency distribution, and characterization of gas uptake in the vasculature.
Results: Complex GP line shapes were observed in rat lungs, necessitating pixel-wise CSI analysis and membrane resonance alignment for improved quantification. Notable differences in alveolar septal wall thickness, dissolved-phase GP ratios, and GP and red blood cell frequencies were found between acquisition techniques and lung conditions. CSI-CSSR provided unique insights into regional lung function, including the identification of distinct GP frequency zones potentially corresponding to different airway structures, and the ability to map relative xenon gas transport. Metrics from fixed-TE and variable-TE acquisitions usually differed by less than 10%, but the latter yielded a 20% SNR gain.
Conclusion: HXe-MRS and CSI-CSSR techniques provide similar but not universally interchangeable insights into lung function, particularly in the presence of pathology.
目的:比较利用化学位移饱和恢复(CSSR)和 CSI-CSSR 技术在健康大鼠和辐射诱导肺损伤模型大鼠身上获得的超极化氙-129(HXe)MRS 肺功能指标。方法:利用全肺光谱和 CSI-CSSR 技术在两只健康大鼠和一只辐射诱导肺损伤大鼠身上获得 HXe-MR 数据。CSI-CSSR 采集采用固定 TE 和可变 TE。对不同采集方法下的肺泡隔壁厚度、气体传递动力学和区域肺功能进行了量化和比较。频谱分析包括以膜共振为参考对溶解相频率谱进行配准、对气相(GP)频率分布进行分割,以及对血管中气体吸收的特征进行描述:结果:在大鼠肺部观察到了复杂的 GP 线形,因此有必要进行像素级 CSI 分析和膜共振对齐,以提高量化效果。在不同的采集技术和肺部条件下,肺泡间隔壁厚度、溶解相 GP 比率以及 GP 和红细胞频率都存在显著差异。CSI-CSSR 提供了对区域肺功能的独特见解,包括识别可能与不同气道结构相对应的不同 GP 频率区,以及绘制相对氙气传输图的能力。固定TE和可变TE采集的指标通常相差不到10%,但后者的信噪比提高了20%:结论:HXe-MRS和CSI-CSSR技术可提供类似但并非普遍可互换的肺功能洞察力,尤其是在存在病变的情况下。
期刊介绍:
Magnetic Resonance in Medicine (Magn Reson Med) is an international journal devoted to the publication of original investigations concerned with all aspects of the development and use of nuclear magnetic resonance and electron paramagnetic resonance techniques for medical applications. Reports of original investigations in the areas of mathematics, computing, engineering, physics, biophysics, chemistry, biochemistry, and physiology directly relevant to magnetic resonance will be accepted, as well as methodology-oriented clinical studies.
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