PET与正常和受损的记忆功能相关。

W D Heiss, G Pawlik, V Holthoff, J Kessler, B Szelies
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引用次数: 0

摘要

到目前为止,正电子发射断层扫描(PET)是唯一一种定量成像区域脑葡萄糖(rCMRGl)或氧代谢和血流(rCBF)与心理物理刺激和智力任务表现相关的变化的技术。到目前为止,在健康受试者中进行的大多数研究表明,激活模式不仅涉及某些边缘结构,大多数是海马、杏仁核、副海马体和扣带,还涉及颞叶、顶叶和枕叶联合皮层,这取决于应用范例。事实上,区域代谢和记忆测试成绩之间最密切的相关性是在执行记忆任务时的中颞叶结构中发现的。代谢或CBF研究似乎也表明,记忆策略可能因人而异。PET反复用于研究各种遗忘综合征患者的代谢和/或血流异常。在单侧或双侧颞叶结构病变的病例中,由手术、单纯疱疹脑炎或永久性缺血、缺氧或毒性损伤引起的,代谢和血流的紊乱通常远远超出了计算机断层扫描或磁共振检测到的形态学缺陷。在急性短暂性全局性失忆症中,中颞叶的CBF和代谢下降,其中代谢低下持续了一段时间,而丘脑和一些皮质区域的CBF和代谢升高。间脑病变引起的Korsakoff综合征与海马区、上脑干、扣带和丘脑的rCMRGl降低有关。离散性丘脑梗死在形态完整的同侧丘脑和梗死核的不同投射区引起健忘症和代谢抑制。在缺血性前脑损伤中,遗忘缺陷可能与前扣带和基底胆碱能核受累有关。大量的病理在大脑中弥漫性扩散,部分或主要影响记忆处理的结构。这在各种痴呆症中尤其适用,其中记忆障碍是一致的,而且往往是主要特征。值得注意的是,阿尔茨海默病可以通过其特有的代谢功能障碍模式与其他痴呆症区分,最突出的变化发生在顶叶颞叶和额叶联合皮层,其残留的代谢与疾病的严重程度有关。因此,使用涉及记忆功能的范式的激活研究增强了这种典型模式。只有在激活状态下,中颞叶结构的代谢与记忆测试的表现显著相关。其他痴呆症也会影响一些分布式记忆网络,亨廷顿氏病表明纹状体在记忆处理中的作用。(摘要删节为400字)
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PET correlates of normal and impaired memory functions.

To date, positron emission tomography (PET) has been the only technology for the quantitative imaging of the changes of regional cerebral glucose (rCMRGl) or oxygen metabolism and blood flow (rCBF) associated with psychophysical stimulation and with the performance of mental tasks. So far, the majority of studies performed in healthy subjects demonstrated activation patterns involving not only certain limbic structures, most of all hippocampus, amygdala, parahippocampus, and cingulate, but also temporal, parietal, and occipital association cortex, depending on the applied paradigm. Indeed, the closest correlation between regional metabolism and memory test scores was found in mesiotemporal structures during the performance of memory tasks. Metabolic or CBF studies also seem to indicate that memorizing strategies may differ among individuals. PET was repeatedly used to investigate metabolic and/or blood flow abnormalities in patients with various amnestic syndromes. In cases with uni- or bilateral lesions of mesiotemporal structures, caused by surgery, herpes simplex encephalitis, or permanent ischemic, anoxic, or toxic damage, disturbances of metabolism and blood flow typically extended far beyond the morphological defects detected by computed tomography or magnetic resonance. In acute transient global amnesia, CBF and metabolism were decreased bilaterally in the mesiotemporal lobes, where hypometabolism persisted for some time, while higher values were observed in thalamus and some cortical areas. Diencephalic lesions causing Korsakoff's syndrome were associated with decreased rCMRGl in the hippocampal formation, upper brainstem, cingulate, and thalamus. Discrete thalamic infarcts caused amnesia and metabolic depression in the morphologically intact ipsilateral thalamus and in various projection areas of the infarcted nuclei. In ischemic forebrain lesions, amnestic deficits could be related to involvement of the anterior cingulate and of basal cholinergic nuclei. A large number of pathologies are diffusely spread out in the brain and affect partially or predominantly structures in memory processing. This holds true especially in the various dementias where memory disturbances are a consistent and often leading feature. Notably, Alzheimer's disease can be distinguished from other dementias by its characteristic pattern of metabolic dysfunction, with the most prominent changes occurring in parietotemporal and frontal association cortex whose residual metabolism is related to the severity of the disease. Therefore, activation studies using paradigms involving memory functions enhance that typical pattern. Only in the activated state is metabolism of mesiotemporal structures significantly correlated with the performance in memory tests. Other dementias also affect some of the distributed memory networks, with Huntington's disease suggesting a role of the striatum in memory processing.(ABSTRACT TRUNCATED AT 400 WORDS)

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