正电子发射断层扫描与阿尔茨海默病发病机制的关系:综述。

S I Rapoport
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引用次数: 0

摘要

对阿尔茨海默病(AD)患者脑代谢和血流的PET研究得出以下结论:(a)“静息状态”区域脑代谢的减少与痴呆症的严重程度大致成正比。(b)与初级感觉和运动皮质区相比,这些减少的关联性更大,并且与死后神经病理的分布和细胞损失有关。(c)痴呆但非痴呆的唐氏综合征成年人的代谢减少也比原发性新皮层更严重,这表明痴呆唐氏综合征和AD患者的病理过程相同。(d) AD患者的脑代谢模式是异质的,至少属于四个不同的代谢组,对应不同的认知和行为异常模式;代谢模式尚未显示与疾病病因有关。(e)轻度痴呆AD患者左右代谢不对称异常可保持其初始方向长达48个月;这些不对称先于并预示了后来出现的认知“差异”,例如,与语言缺陷相比,视觉空间不成比例的中度痴呆患者,或与语言回忆相比,视觉回忆不成比例的中度痴呆患者,右脑的代谢减少比左脑大,反之亦然。(f)顶叶联合/额叶联合代谢比率也随时间保持其方向;在中度痴呆患者中,前额叶关联皮层的相对低代谢与语言流畅性和对简单集合的注意力缺陷有关,而顶叶关联皮层的相对低代谢与算术、言语理解、绘画和视觉空间定位的即时记忆失败有关。(g)尽管与关联皮层相比,初级感觉皮层、基底神经节、丘脑和小脑半球在AD中表现出代谢下降,但高分辨率PET扫描仪显示,这可能是由于它们与更多病理影响区域的连接。(h)阿尔茨海默病的早期代谢缺陷被假设是由联合皮层区域的突触失效引起的;这种枕颞叶视觉皮层的失败可以在轻度至中度痴呆的AD患者中逆转,这些患者能够执行面部匹配任务。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Positron emission tomography in Alzheimer's disease in relation to disease pathogenesis: a critical review.

PET studies of brain metabolism and blood flow in Alzheimer's disease (AD) patients lead to the following conclusions: (a) Reductions in "resting state" regional brain metabolism are roughly proportional to dementia severity. (b) These reductions are greater in association than in primary sensory and motor neocortical regions, and correlate with the distribution of neuropathology and cell loss postmortem. (c) Demented but not nondemented Down syndrome adults also have worse metabolic reductions in the association than primary neocortices, suggesting an equivalent pathological process in demented Down syndrome and AD patients. (d) Brain metabolic patterns in AD patients are heterogeneous, belonging to at least four distinct metabolic groups that correspond to different patterns of cognitive and behavioral abnormalities; the metabolic patterns have not been shown to be related to disease etiology. (e) Abnormal right-left metabolic asymmetries in mildly demented AD patients can retain their initial directions for as long as 48 months; these asymmetries precede and predict the cognitive "discrepancies" that later appear, such that moderately demented patients with disproportionate visuospatial compared with language deficits, or disproportionate visual recall compared with verbal recall, have a greater metabolic reduction in the right than left hemisphere, and vice versa. (f) Parietal association/frontal association metabolic ratios also retain their direction over time; in moderately demented patients, relative hypometabolism in the prefrontal association cortex is related to deficits in verbal fluency and attention to simple sets, whereas relative hypometabolism in the parietal association cortex correlates with failure in arithmetic, verbal comprehension, drawing, and immediate memory for visuospatial location. (g) Although metabolically spared compared with the association cortices, the primary sensory cortices, basal ganglia, thalamus, and cerebellar hemispheres show metabolic declines in AD using high-resolution PET scanners, possibly due to their connections with more pathologically affected regions. (h) Early metabolic deficits in AD are hypothesized to arise from synaptic failure in association cortical areas; such failure in the occipitotemporal visual cortex can be reversed in mildly to moderately demented AD patients who are capable of performing a face-matching task.

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