用扩散交换光谱分析限制和交换的影响。

IF 1.9 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Teddy X Cai, Nathan H Williamson, Rea Ravin, Peter J Basser
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引用次数: 5

摘要

扩散交换光谱(DEXSY)是一种多维核磁共振技术,可以揭示水分子如何在异质介质(如生物组织)内的隔室之间交换。DEXSY实验的数据通常使用数值拉普拉斯逆变换(ilt)来处理,以产生扩散-扩散谱。这种ILT方法的一个默认假设是信号行为是高斯的,即自旋回波强度随扩散加权程度呈指数衰减。然而,根据所应用的梯度强度和所研究的样本,可能违反高斯信号行为的假设。我们认为,由于限制的非高斯信号行为是在使用扩散核磁共振研究生物组织的预期。此外,我们认为这种信号行为会在从DEXSY数据的数值ilt中获得的扩散-扩散谱中产生混淆特征-纠缠限制和交换的影响。具体来说,受限制的信号行为会导致波峰变宽,并出现具有分布式扩散系数的虚幻交换室,如果没有高度正则化,这些交换室会形成多个波峰。我们在模拟数据上演示了这些影响。也就是说,我们建议在信号采集域中使用可用于快速探测交换而不使用ILT的特征。我们还提出了一种方法来表征非高斯信号的行为,由于限制在一个样本使用DEXSY测量与接近零的混合时间或存储间隔。我们提出了一种组合采集方案,通过各种DEXSY测量独立表征限制和交换,我们将其称为来自等加权双扩散编码和单扩散编码(reed - de)的限制和交换。我们使用低场静态梯度核磁共振系统在离体新生小鼠脊髓(主要由灰质组成的样本)上测试了这种方法。总之,我们强调了现行DEXSY分析方法的关键缺陷,这些方法将限制和交换的影响混为一谈,并提出了一种可行的实验方法来解开它们。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Disentangling the effects of restriction and exchange with diffusion exchange spectroscopy.

Disentangling the effects of restriction and exchange with diffusion exchange spectroscopy.

Disentangling the effects of restriction and exchange with diffusion exchange spectroscopy.

Diffusion exchange spectroscopy (DEXSY) is a multidimensional NMR technique that can reveal how water molecules exchange between compartments within heterogeneous media, such as biological tissue. Data from DEXSY experiments is typically processed using numerical inverse Laplace transforms (ILTs) to produce a diffusion-diffusion spectrum. A tacit assumption of this ILT approach is that the signal behavior is Gaussian - i.e., the spin echo intensity decays exponentially with the degree of diffusion weighting. The assumptions that underlie Gaussian signal behavior may be violated, however, depending on the gradient strength applied and the sample under study. We argue that non-Gaussian signal behavior due to restrictions is to be expected in the study of biological tissue using diffusion NMR. Further, we argue that this signal behavior can produce confounding features in the diffusion-diffusion spectra obtained from numerical ILTs of DEXSY data - entangling the effects of restriction and exchange. Specifically, restricted signal behavior can result in broadening of peaks and in the appearance of illusory exchanging compartments with distributed diffusivities, which pearl into multiple peaks if not highly regularized. We demonstrate these effects on simulated data. That said, we suggest the use of features in the signal acquisition domain that can be used to rapidly probe exchange without employing an ILT. We also propose a means to characterize the non-Gaussian signal behavior due to restrictions within a sample using DEXSY measurements with a near zero mixing time or storage interval. We propose a combined acquisition scheme to independently characterize restriction and exchange with various DEXSY measurements, which we term Restriction and Exchange from Equally-weighted Double and Single Diffusion Encodings (REEDS-DE). We test this method on ex vivo neonatal mouse spinal cord - a sample consisting primarily of gray matter - using a low-field, static gradient NMR system. In sum, we highlight critical shortcomings of prevailing DEXSY analysis methods that conflate the effects of restriction and exchange, and suggest a viable experimental approach to disentangle them.

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来源期刊
Frontiers in Physics
Frontiers in Physics Mathematics-Mathematical Physics
CiteScore
4.50
自引率
6.50%
发文量
1215
审稿时长
12 weeks
期刊介绍: Frontiers in Physics publishes rigorously peer-reviewed research across the entire field, from experimental, to computational and theoretical physics. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, engineers and the public worldwide.
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