The application of magnetic resonance imaging to the study of experimental cerebral ischaemia.

N van Bruggen, T P Roberts, J E Cremer
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Abstract

Recent developments in the field of magnetic resonance imaging (MRI) have opened up new opportunities in the investigation of disease. This review seeks to illustrate how some of these advances have made MRI a powerful tool with which to study the pathology and physiology of cerebral ischaemia. Emphasis will be placed on new techniques at the disposal of the MR investigator. These include techniques to monitor alterations in cerebral blood flow and volume; diffusion-weighted imaging to investigate the acute pathology of cerebral ischaemia; and techniques sensitive to alteration in tissue blood oxygenation levels that provide a wholly noninvasive means of assessing cerebral haemodynamics, including hyperaemia and CO2 reactivity. Particular reference to the ability of such techniques to identify ischaemic tissue prior to irreversible damage will be made, and the implication for pharmaceutical research and potential therapy will be discussed. A detailed technical description of nuclear MR theory is avoided, and we have concentrated on the application of MRI to interrogate the pathophysiology of cerebral ischaemia.

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磁共振成像在实验性脑缺血研究中的应用。
磁共振成像(MRI)领域的最新发展为疾病研究开辟了新的机会。本综述旨在说明这些进展如何使MRI成为研究脑缺血病理和生理的有力工具。重点将放在核磁共振研究者使用的新技术。这些技术包括监测脑血流量和容量变化的技术;弥散加权成像对急性脑缺血病理的研究以及对组织血氧水平变化敏感的技术,这些技术提供了一种完全无创的评估脑血流动力学的方法,包括充血和二氧化碳反应性。特别提到这种技术在不可逆损伤之前识别缺血组织的能力,并将讨论其对药物研究和潜在治疗的影响。核磁共振理论的详细技术描述是避免的,我们已经集中在应用MRI来询问脑缺血的病理生理学。
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