弥散加权和弥散张量成像:临床指南

IF 1.1 Q4 CLINICAL NEUROLOGY
J. Bahm
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引用次数: 0

摘要

扩散加权和扩散张量成像:C.da Costa Leite和M.Castillo编辑的《临床指南》[Thieme 2016]随着磁共振成像(MRI)技术的发展,神经组织形态的成像取得了显著进展。实际上,更进一步的是将扩散张量成像(DTI)应用于MRI信号,在那里,人们可以直观地观察白质束,但也开始深入了解生理过程,如大脑成熟和神经再生,以及肿瘤、传染病、脱髓鞘、损伤和出血等病理学。这是一本新的、激动人心的临床和研究领域的最新小说,由神经放射学专家编辑和撰写。在全面回顾了幕上白质束及其组织的基本物理和解剖结构后,编辑们介绍了关于生命前2年大脑成像(发育和衰老变化)的章节,在谈到上述大脑病理学的主要领域之前,我们将专门用一章来讨论脊椎和脊髓疾病。最后一章甚至超越了未来,介绍了基于非高斯信号分布的新发展,介绍了扩散峰度和扩散光谱成像的研究及其潜在应用,试图改善交叉轴突纤维和束的表现,这是DTI图像的一个严重限制。每一章都写得非常清楚,结构清晰,插图精美,以捕捉新的成像和研究领域中非放射学读者的焦点。当然,更好地显示有组织的束及其在病理学和衰老中的变化将激发我们的病理生理好奇心,并驱使他们进一步研究。对于神经学家来说,潜在的假设性组织变化,如早期阿尔茨海默病,现在变得显而易见。对于处理血管病理或肿瘤的神经外科医生来说,相邻束的改变是准确的。外周神经外科医生开始在术后过程中通过外周神经结构的形态学高速公路来追踪再生锥,通过其清晰的单向液体和组织运动可以识别,因此可以在纤维束造影上精确识别。DTI不一定昂贵,但很耗时。到目前为止,无论是在神经放射学调查还是在医疗费用报销方面,这都不是一个常规程序。这本书为许多关心的医生和技术人员提供了快速更新。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Diffusion Weighted and Diffusion Tensor Imaging: A Clinical Guide
Diffusion Weighted and Diffusion Tensor Imaging: A Clinical Guide edited by C. da Costa Leite and M. Castillo [Thieme 2016] Imaging of nerve tissue morphology progressed significantly with the development of magnetic resonance imaging (MRI) technology. A step further is done actually with the diffusion tensor imaging (DTI) applied on MRI signals, where one canvisualizenotonlywhitematterbundles, but also starts to get insight in physiologic processes like brain maturation and nerve regeneration) as well as in pathologies like tumors, infectious diseases, demyelination, injury, and hemorrhage. This is a novel up to date book in a new and thrilling clinical and research field, edited and written by neuroradiologic experts. After a comprehensive review of the underlying physics and the anatomy of supratentorial white matter tracts and their organization, the editors present chapters about imaging of the brain during the first 2 years of life (development and aging changes), before addressing the aforementioned main fields of brain pathology—not without dedicating a separate chapter to the spine and spinal cord diseases. The last chapter even goes beyond the future and deals with even newer developments based on non-Gaussian signal distribution, introducing the research on diffusional kurtosis and diffusion spectrum imaging and their potential applications, trying to improve the representation of crossing axonal fibers and tracts, a serious limitation of DTI images. Every chapter is written very clearly and has a welldefined structure, with beautiful illustrations in order to capture the focus of non-radiologic readers within the new field of imaging and research. Of course, a better visualization of organized tracts and their alteration in pathology and aging will stimulate our pathophysiologic curiosity and drive them to investigate further. For neurologists, potentially hypothetic tissue changes such as in earlyAlzheimer’s disease nowbecome obvious. For neurosurgeons who deal with a vascular pathology or a tumor, the alteration of neighboring tracts is precisely represented. The peripheral nerve surgeon starts to follow in the postoperative course regenerating cones through the morphologic highway of a peripheral nerve structure, recognizable by their clear unidirectional fluid and tissue movement, so precisely identifiable on tractography. DTI is not necessarily expensive, but time consuming. Thus far, it is not a routine procedure either in neuroradiology investigation or in medical cost reimbursement considerations. This book provides quick updates to a lot of concerned physicians and technicians.
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来源期刊
CiteScore
1.70
自引率
14.30%
发文量
6
审稿时长
12 weeks
期刊介绍: JBPPNI is an open access, peer-reviewed online journal that will encompass all aspects of basic and clinical research findings, in the area of brachial plexus and peripheral nerve injury. Injury in this context refers to congenital, inflammatory, traumatic, degenerative and neoplastic processes, including neurofibromatosis. Papers on diagnostic and imaging aspects of the peripheral nervous system are welcomed as well. The peripheral nervous system is unique in its complexity and scope of influence. There are areas of interest in the anatomy, physiology, metabolism, phylogeny, and limb growth tropism of peripheral nerves.
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