Laboratoire des Maladies Neurodégénératives, Université Paris-Saclay, Commissariat à l'Energie Atomique et aux Energies Alternatives (CEA), Centre National de la Recherche Scientifique (CNRS), Molecular Imaging Research Center (MIRCen), Fontenay-aux-Roses, France.
Magn Reson Med. 2022 Nov;88(5):2277-2284. doi: 10.1002/mrm.29395. Epub 2022 Jul 30.
While diffusion and T relaxation are intertwined, little or no correlation exists between diffusion and T relaxation of intracellular metabolites in the rodent brain, as measured by diffusion-weighted MRS at different TEs. However, situation might be different for lactate, since it is present in both extracellular and intracellular spaces, which exhibit different diffusion properties and may also exhibit different T . Such a TE dependence would be crucial to account for when interpreting or modeling lactate diffusion. Here we propose to take advantage of a new diffusion sequence, where J-modulation of lactate is canceled even at long TE, thus retaining excellent signal, to assess potential T dependence on diffusion of lactate in the mouse brain.
Using a frequency-selective diffusion-weighted spin-echo sequence that removes J-modulation at 1.3 ppm, thus preserving lactate signal even at long TE, we investigate the effect of TE between 50.9 and 110.9 ms (while keeping diffusion time constant) on apparent diffusivity and kurtosis in the mouse brain.
Regardless of the metabolites, no difference appears for the diffusion-weighted signal attenuation with increasing TE. For lactate, apparent diffusivity and kurtosis remain unchanged as TE increases.
No significant TE dependence of diffusivity and kurtosis is measured for lactate in the 50-110 ms TE range, confirming that potential T effects can be ignored when interpreting or modeling lactate diffusion.
尽管扩散和 T1 弛豫相互交织,但通过在不同 TE 下进行扩散加权 MRS 测量,在啮齿动物大脑中,扩散与细胞内代谢物的 T1 弛豫之间几乎没有相关性,更谈不上存在相关性。然而,对于乳酸盐来说情况可能有所不同,因为它存在于细胞外和细胞内空间中,这两个空间具有不同的扩散特性,并且 T1 弛豫也可能不同。在解释或模拟乳酸盐扩散时,这种 TE 依赖性至关重要。在这里,我们提出利用一种新的扩散序列,即使在长 TE 下,该序列也能消除乳酸盐的 J 调制,从而保留出色的信号,以评估乳酸盐在小鼠大脑中扩散时扩散的潜在 T1 依赖性。
使用频率选择性扩散加权自旋回波序列,该序列在 1.3ppm 处消除 J 调制,从而即使在长 TE 下也能保留乳酸盐信号,我们研究了 TE 在 50.9ms 至 110.9ms 之间(同时保持扩散时间不变)对小鼠大脑中表观扩散系数和峰度的影响。
无论代谢物如何,随着 TE 的增加,扩散加权信号衰减都没有差异。对于乳酸盐,表观扩散系数和峰度随 TE 的增加而保持不变。
在 50-110ms TE 范围内,未测量到乳酸盐扩散系数和峰度的显著 TE 依赖性,这证实了当解释或模拟乳酸盐扩散时,可以忽略潜在的 T1 效应。
