Clinique Interdisciplinaire de Mémoire, Département des Sciences Neurologiques du CHU de Québec, Faculté de Médecine, Université Laval, QC, Canada.
Department of Neurology and Alzheimer Center, VU University Medical Center Amsterdam, Amsterdam, The Netherlands.
Alzheimer Dis Assoc Disord. 2018 Jan-Mar;32(1):28-34. doi: 10.1097/WAD.0000000000000239.
Amyloid-β positron emission tomography (PET) allows for in vivo detection of fibrillar amyloid plaques, a pathologic hallmark of Alzheimer's disease (AD). However, amyloid-β PET interpretation is limited by the imperfect correlation between PET and autopsy, and the fact that it is positive in about 20% to 30% of cognitively normal individuals and non-AD dementias, especially when older or carrying the ε4 allele of apolipoprotein E (ApoE4). When facing a positive amyloid PET, clinicians have to evaluate the probability of a pathologic false positive as well as the probability of amyloid positivity being age-related, comorbid to a primary non-AD dementia (clinicopathologic false positive). These probabilities can be calculated to reach an evidence-based interpretation of amyloid-β. As literature review and calculations cannot be easily performed in the day-to-day clinic, we propose a clinician friendly, evidence-based Bayesian approach to the interpretation of amyloid-β PET results in the differential diagnosis of patients with cognitive impairment.
We defined AD as a clinicopathologic entity in which amyloid-β is the primary cause of cognitive impairment. We systematically reviewed the literature to estimate the sensitivity and specificity of amyloid-β PET against neuropathologic examination. We inferred rates of clinicopathologic false positivity (non-AD dementia with comorbid amyloid) based on age-dependent and ApoE-dependent prevalence of amyloid positivity in normal individuals and AD patients provided in large meta-analyses published by the Amyloid Biomarker Study Group. We calculated positive predictive value (PPV) and negative predictive value (NPV) of amyloid-β PET, which are presented in a clinician-friendly table.
PPV of PET is highest in young ApoE4- patients with high pre-PET probability of AD. In older ApoE4+ patients with low pre-PET probability of AD, positive amyloid-β PET scans must be interpreted with caution. A negative amyloid-β PET makes a diagnosis of AD unlikely except in old patients with high pre-PET probability of AD.
This evidence-based approach might provide guidance to clinicians and nuclear medicine physicians to interpret amyloid-β PET results for early and differential diagnosis of patients with progressive cognitive impairment.
淀粉样蛋白-β正电子发射断层扫描(PET)可在体内检测到纤维状淀粉样斑块,这是阿尔茨海默病(AD)的病理标志。然而,由于 PET 与尸检之间存在不完善的相关性,以及它在大约 20%至 30%认知正常个体和非 AD 痴呆中呈阳性,特别是在年龄较大或携带载脂蛋白 E(ApoE4)ε4 等位基因时,淀粉样蛋白-β PET 的解释受到限制。当面对阳性淀粉样蛋白 PET 时,临床医生必须评估病理性假阳性的概率,以及淀粉样蛋白阳性与年龄相关、合并原发性非 AD 痴呆(临床病理假阳性)的概率。可以计算这些概率以得出淀粉样蛋白-β的循证解释。由于文献综述和计算在日常临床中不容易进行,因此我们提出了一种临床医生友好的、基于证据的贝叶斯方法,用于解释淀粉样蛋白-β PET 结果在认知障碍患者的鉴别诊断中的应用。
我们将 AD 定义为一种临床病理实体,其中淀粉样蛋白-β是认知障碍的主要原因。我们系统地回顾了文献,以估计淀粉样蛋白-β PET 对神经病理学检查的敏感性和特异性。我们根据在大型荟萃分析中提供的年龄依赖性和 ApoE 依赖性淀粉样蛋白阳性率,推断了临床病理假阳性的发生率(合并淀粉样蛋白的非 AD 痴呆)。我们计算了淀粉样蛋白-β PET 的阳性预测值(PPV)和阴性预测值(NPV),并以临床医生友好的表格形式呈现。
在年轻的 ApoE4-患者中,具有较高的 AD 发生前 PET 概率时,PET 的 PPV 最高。在年龄较大的 ApoE4+患者中,具有较低的 AD 发生前 PET 概率时,阳性淀粉样蛋白-β PET 扫描必须谨慎解释。除非在具有较高 AD 发生前 PET 概率的老年患者中,否则阴性淀粉样蛋白-β PET 不太可能诊断为 AD。
这种基于证据的方法可能为临床医生和核医学医师提供指导,以解释淀粉样蛋白-β PET 结果,用于进行早期和鉴别诊断有进行性认知障碍的患者。
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