大脑皮质中的扩散磁共振成像：使用高b值和球形b张量编码减少脑脊液和白质在平均扩散率中的部分容积效应。

Diffusion MRI in the cortex of the brain: Reducing partial volume effects from CSF and white matter in the mean diffusivity using high b-values and spherical b-tensor encoding.

作者信息

Säll Cornelia, Spotorno Nicola, Sundgren Pia C, van Westen Danielle, Westin Carl-Fredrik, Szczepankiewicz Filip, Nilsson Markus

机构信息

Department of Medical Radiation Physics, Lund University, Lund, Sweden.

Clinical Memory Research Unit, Department of Clinical Sciences Malmö, Lund University, Lund, Sweden.

出版信息

Magn Reson Med. 2025 Sep;94(3):1166-1181. doi: 10.1002/mrm.30552. Epub 2025 Jun 4.

DOI:10.1002/mrm.30552

PMID:40468575

Abstract

PURPOSE

The mean diffusivity (MD) is sensitive to the microstructure of the cortex. However, partial volume effects with CSF and white matter (WM) may obscure pathology-related alterations. This work investigates both existing approaches and a novel approach for reducing partial volume effects.

THEORY AND METHODS

A bias in MD arises due to partial volume effects, higher-order terms, and the noise floor in magnitude data. We propose to reduce this bias by using high b-value encoding to limit partial volume effects with CSF, spherical b-tensor encoding to reduce the influence of higher-order terms, and super-resolution acquisition and reconstruction to suppress the noise floor. This approach was investigated, along with established approaches (inversion recovery and free water elimination) for reducing partial volume effects, using simulations and in vivo data.

RESULTS

High b-value diffusion MRI with spherical b-tensor encoding reduced partial volume effects with CSF relative to conventional diffusion MRI. Maximum errors decreased from 0.51 to 0.01 μm/ms in simulations. In vivo, the median absolute deviation of cortical MD decreased from 0.17 to 0.06 μm/ms, whereas the median decreased slightly from 0.77 to 0.73 μm/ms. The other methods yielded bias from either CSF, WM, or model assumptions.

CONCLUSION

The mean diffusivity of the cortex can be mapped in high precision with reduced influence of partial volume effects with CSF and WM matter using high b-values and spherical b-tensor encoding and super-resolution reconstruction.

摘要

目的

平均扩散率（MD）对皮质微观结构敏感。然而，脑脊液（CSF）和白质（WM）的部分容积效应可能会掩盖与病理相关的改变。本研究探讨了减少部分容积效应的现有方法和一种新方法。

理论与方法

MD偏差源于部分容积效应、高阶项和幅度数据中的本底噪声。我们建议通过使用高b值编码来限制CSF的部分容积效应，使用球形b张量编码来减少高阶项的影响，以及使用超分辨率采集和重建来抑制本底噪声，以减少这种偏差。使用模拟和体内数据，对该方法以及减少部分容积效应的既定方法（反转恢复和自由水消除）进行了研究。

结果

与传统扩散加权磁共振成像相比，采用球形b张量编码的高b值扩散加权磁共振成像减少了CSF的部分容积效应。在模拟中，最大误差从0.51降至0.01μm/ms。在体内，皮质MD的中位数绝对偏差从0.17降至0.06μm/ms，而中位数从0.77略降至0.73μm/ms。其他方法则因CSF、WM或模型假设而产生偏差。

结论

使用高b值、球形b张量编码和超分辨率重建，可以高精度地绘制皮质的平均扩散率，减少CSF和WM的部分容积效应的影响。

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大脑皮质中的扩散磁共振成像：使用高b值和球形b张量编码减少脑脊液和白质在平均扩散率中的部分容积效应。

Diffusion MRI in the cortex of the brain: Reducing partial volume effects from CSF and white matter in the mean diffusivity using high b-values and spherical b-tensor encoding.

作者信息

机构信息

出版信息

PURPOSE

THEORY AND METHODS

RESULTS

CONCLUSION

目的

理论与方法

结果

结论

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