Influence of Diffusion Time and Temperature on Restricted Diffusion Signal: A Phantom Study.

IF 2.5 3区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Magnetic Resonance in Medical Sciences Pub Date : 2024-04-01 Epub Date: 2023-02-08 DOI:10.2463/mrms.mp.2022-0103
Hinako Oshiro, Junichi Hata, Daisuke Nakashima, Naoya Hayashi, Yawara Haga, Kei Hagiya, Daisuke Yoshimaru, Hideyuki Okano
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Abstract

Purpose: Diffusion MRI is a physical measurement method that quantitatively indicates the displacement of water molecules diffusing in voxels. However, there are insufficient data to characterize the diffusion process physically in a uniform structure such as a phantom. This study investigated the transitional relationship between structure scale, temperature, and diffusion time for simple restricted diffusion using a capillary phantom.

Methods: We performed diffusion-weighted pulsed-gradient stimulated-echo acquisition mode (STEAM) MRI with a 9.4 Tesla MRI system (Bruker BioSpin, Ettlingen, Germany) and a quadrature coil with an inner diameter of 86 mm (Bruker BioSpin). We measured the diffusion coefficients (radial diffusivity [RD]) of capillary plates (pore sizes 6, 12, 25, 50, and 100 μm) with uniformly restricted structures at various temperatures (10ºC, 20ºC, 30ºC, and 40ºC) and multiple diffusion times (12-800 ms). We evaluated the characteristics of scale, temperature, and diffusion time for restricted diffusion.

Results: The RD decayed and became constant depending on the structural scale. Diffusion coefficient fluctuations with temperature occurred mostly under conditions of a large structural scale and short diffusion time. We obtained data suggesting that temperature-dependent changes in the diffusion coefficients follow physical laws.

Conclusion: No water molecules were observed outside the glass tubes in the capillary plates, and the capillary plates only reflected a restricted diffusion process within the structure.We experimentally evaluated the characteristics of simple restricted diffusion to reveal the transitional relationship of the diffusion coefficient with diffusion time, structure scale, and temperature through composite measurement.

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扩散时间和温度对受限扩散信号的影响:模型研究
目的:扩散磁共振成像是一种物理测量方法,可定量显示水分子在体素中扩散的位移。然而,目前还没有足够的数据来描述均匀结构(如模型)中的物理扩散过程。本研究利用毛细管模型研究了简单受限扩散的结构尺度、温度和扩散时间之间的过渡关系:我们使用 9.4 特斯拉核磁共振成像系统(Bruker BioSpin,德国埃特林根)和内径 86 毫米的正交线圈(Bruker BioSpin)进行了扩散加权脉冲梯度刺激回波采集模式(STEAM)核磁共振成像。我们在不同温度(10ºC、20ºC、30ºC 和 40ºC)和多个扩散时间(12-800 毫秒)下测量了具有均匀受限结构的毛细管板(孔径分别为 6、12、25、50 和 100 μm)的扩散系数(径向扩散率 [RD])。我们评估了受限扩散的尺度、温度和扩散时间的特性:结果:RD 随结构尺度的变化而衰减或恒定。扩散系数随温度的波动主要发生在结构尺度大、扩散时间短的条件下。我们获得的数据表明,扩散系数随温度的变化遵循物理规律:我们通过实验评估了简单受限扩散的特征,通过复合测量揭示了扩散系数与扩散时间、结构尺度和温度的过渡关系。
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来源期刊
Magnetic Resonance in Medical Sciences
Magnetic Resonance in Medical Sciences RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
5.80
自引率
20.00%
发文量
71
审稿时长
>12 weeks
期刊介绍: Magnetic Resonance in Medical Sciences (MRMS or Magn Reson Med Sci) is an international journal pursuing the publication of original articles contributing to the progress of magnetic resonance in the field of biomedical sciences including technical developments and clinical applications. MRMS is an official journal of the Japanese Society for Magnetic Resonance in Medicine (JSMRM).
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