Functional brain imaging with SPECT in normal aging and dementia. Methodological, pathophysiological, and diagnostic aspects.

G Waldemar
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Abstract

New developments in instrumentation, radiochemistry, and data analysis, particularly the introduction of 99M TC-labeled brain-retained tracers for perfusion studies, have opened up a new era of single photon emission computed tomography (SPECT). In this review critical methodological issues relating to the SPECT instrument, the radioactive tracers, the scanning procedure, the data analysis and interpretation of data, and subject selection are discussed together with the changes in regional cerebral blood flow (rCBF) observed in normal aging. An overview is given of the topography and the pathophysiological and diagnostic significance of focal rCBF deficits in Alzheimer's disease and in other dementia disorders, in which SPECT is capable of early or preclinical disease detection. In Alzheimer's disease, the diagnostic sensitivity and specificity of focal rCBF deficits measured with SPECT and brain-retained tracers are very high, in particular when combined with medial temporal lobe atrophy on CT. Together with neuropsychological testing, SPECT serves to map the topography of brain dysfunction. Thus, in the clinical setting, SPECT provides information that is supplemental to that obtained in other studies. Future applications include neuroreceptor studies and treatment studies, in which SPECT may serve as a diagnostic aid in the selection of patients and as a potential mean for monitoring treatment effects. Although positron emission tomography is the best characterized tool for addressing some of these clinical and research issues in dementia, only the less expensive and technically simpler SPECT technique will have the potential of being available as a screening diagnostic instrument in the clinical setting. It is concluded that, properly approached, functional brain imaging with SPECT represents an important tool in the diagnosis, management, and research of dementia disorders.

正常衰老和痴呆的SPECT脑功能成像。方法学、病理生理学和诊断方面。
仪器、放射化学和数据分析的新发展,特别是99M tc标记的脑保留示踪剂用于灌注研究的引入,开辟了单光子发射计算机断层扫描(SPECT)的新时代。在这篇综述中,我们讨论了与SPECT仪器、放射性示踪剂、扫描程序、数据分析和数据解释以及受试者选择有关的关键方法问题,以及在正常衰老中观察到的区域脑血流量(rCBF)的变化。概述了阿尔茨海默病和其他痴呆疾病局灶性rCBF缺陷的地形、病理生理和诊断意义,其中SPECT能够进行早期或临床前疾病检测。在阿尔茨海默病中,用SPECT和脑保留示踪剂测量局灶性rCBF缺陷的诊断敏感性和特异性非常高,特别是当与CT上的内侧颞叶萎缩相结合时。与神经心理测试一起,SPECT用于绘制脑功能障碍的地形图。因此,在临床环境中,SPECT提供的信息是对其他研究中获得的信息的补充。未来的应用包括神经受体研究和治疗研究,其中SPECT可以作为选择患者的诊断辅助手段,并作为监测治疗效果的潜在手段。虽然正电子发射断层扫描是解决痴呆的一些临床和研究问题的最佳特征工具,但只有更便宜和技术更简单的SPECT技术才有可能在临床环境中作为筛查诊断工具。结论是,如果处理得当,SPECT脑功能成像在痴呆的诊断、管理和研究中是一个重要的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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