Verberk Inge M W, Laarhuis Malika B, van den Bosch Karlijn A, Ebenau Jarith L, van Leeuwenstijn Mardou, Prins Niels D, Scheltens Philip, Teunissen Charlotte E, van der Flier Wiesje M
Alzheimer Center, Department of Neurology, Amsterdam UMC, Vrije Universiteit Amsterdam, Amsterdam Neuroscience, Amsterdam, Netherlands; Neurochemistry Laboratory, Department of Clinical Chemistry, Amsterdam UMC, Vrije Universiteit Amsterdam, Amsterdam Neuroscience, Amsterdam, Netherlands.
Alzheimer Center, Department of Neurology, Amsterdam UMC, Vrije Universiteit Amsterdam, Amsterdam Neuroscience, Amsterdam, Netherlands.
Lancet Healthy Longev. 2021 Feb;2(2):e87-e95. doi: 10.1016/S2666-7568(20)30061-1. Epub 2021 Jan 19.
Serum glial fibrillary acidic protein (GFAP) and neurofilament light (NfL) are putative non-amyloid blood-based biomarkers indicative of ongoing inflammatory and neurodegenerative disease processes. We aimed to assess their prognostic and monitoring value for progression to dementia in individuals presenting at a memory clinic who are cognitively normal.
For this prospective cohort study, we included individuals who were cognitively normal from the Amsterdam Dementia Cohort and received screening for dementia at first visit and annual follow-up visits. Participants without a serum sample stored in the Amsterdam Dementia Biobank within 6 months of baseline visit and without a follow-up diagnosis after a minimum of 6 months were excluded. We measured serum GFAP and NfL levels at baseline for all participants and at follow-up for a subset of participants. Using Cox proportional hazard models, we investigated associations of biomarker levels (Z-transformed) with incident dementia (adjusted for age and sex), by entering the markers first separately and then simultaneously, to test independent associations. We also assessed longitudinal performance of the markers on a standardised neuropsychological test battery covering global cognition, memory, language, executive functioning, and attention (adjusted for age, sex, and education). Finally, we evaluated the association of slopes of biomarker levels with incident dementia (adjusted for age and sex).
Between July 13, 2001, and Aug 17, 2016, 300 individuals were included in the study. Mean baseline age was 61 years (SD 9), 125 (42%) of participants were women, and mini-mental state examination was 29 (IQR 27-29). Median follow-up time was 3·0 years (IQR 1·9-4·2), with a median of three visits per participant (range 2-12; 1010 total neuropsychological evaluations). During follow-up, 27 (9%) of 300 individuals developed dementia. Both high baseline GFAP (hazard ratio 3·6, 95% CI 2·2-5·7; p<0·0001) and high baseline NfL (1·8, 1·2-2·8; p=0·0037) were associated with increased risk of dementia. When entering both markers simultaneously in the model, only GFAP remained associated with an increased risk of dementia (3·3, 1·9-5·5; p<0·0001). When additionally entering (inverted) plasma amyloid β, both GFAP (2·6, 1·4-5·0; p=0·0026) and amyloid β (2·1, 1·2-3·6; p=0·0091) were independently associated with incident dementia whereas NfL was not (1·4, 0·8-2·5; p=0·28). Linear mixed models showed that higher baseline GFAP levels were associated with a steeper rate of decline in the domains of memory, attention, and executive functioning (p<0·05), whereas higher NfL levels were not. Repeated serum GFAP and NfL analyses revealed that NfL levels rose more steeply over time in individuals with incident dementia compared with those without (p=0·0006), whereas GFAP levels did not (p=0·074).
Our results suggest that, while serum NfL seems to have potential as monitoring biomarker, GFAP might be a valuable prognostic biomarker, predicting incident dementia.
Alzheimer Nederland, Gieskes Strijbis Fonds.
血清胶质纤维酸性蛋白(GFAP)和神经丝轻链(NfL)是假定的基于血液的非淀粉样生物标志物,可指示正在进行的炎症和神经退行性疾病过程。我们旨在评估它们对记忆门诊认知正常个体发展为痴呆症的预后和监测价值。
在这项前瞻性队列研究中,我们纳入了来自阿姆斯特丹痴呆症队列认知正常的个体,他们在首次就诊和年度随访时接受痴呆症筛查。排除在基线访视后6个月内未在阿姆斯特丹痴呆症生物样本库中储存血清样本且在至少6个月后未进行随访诊断的参与者。我们在基线时测量了所有参与者的血清GFAP和NfL水平,并在随访时测量了一部分参与者的水平。使用Cox比例风险模型,我们通过先分别然后同时输入标志物来研究生物标志物水平(Z转换)与新发痴呆症(根据年龄和性别调整)的关联,以测试独立关联。我们还在涵盖整体认知、记忆、语言、执行功能和注意力的标准化神经心理测试组合上评估了标志物的纵向表现(根据年龄、性别和教育程度调整)。最后,我们评估了生物标志物水平斜率与新发痴呆症的关联(根据年龄和性别调整)。
在2001年7月13日至2016年8月17日期间,300名个体被纳入研究。平均基线年龄为61岁(标准差9),125名(42%)参与者为女性,简易精神状态检查评分为29分(四分位距27 - 29)。中位随访时间为3.0年(四分位距1.9 - 4.2),每位参与者的中位访视次数为三次(范围2 - 12;共1010次神经心理评估)。在随访期间,300名个体中有27名(9%)发展为痴呆症。高基线GFAP(风险比3.6,95%置信区间2.2 - 5.7;p<未找到结果>)和高基线NfL(1.8,1.2 - 2.8;p = 0.0037)均与痴呆症风险增加相关。当在模型中同时输入这两个标志物时,只有GFAP仍与痴呆症风险增加相关(3.3,1.9 - 5.5;p<未找到结果>)。当另外输入(反向)血浆淀粉样β蛋白时,GFAP(2.6,1.4 - 5.0;p = 0.0026)和淀粉样β蛋白(2.1,1.2 - 3.6;p = 0.0091)均与新发痴呆症独立相关,而NfL则不然(1.4,0.8 - 2.5;p = 0.28)。线性混合模型显示,较高的基线GFAP水平与记忆、注意力和执行功能领域更陡峭的下降率相关(p<0.05),而较高的NfL水平则不然。重复的血清GFAP和NfL分析显示,与未患痴呆症的个体相比,患痴呆症个体的NfL水平随时间上升得更陡峭(p = 0.0006),而GFAP水平则没有(p = 0.074)。
我们的结果表明,虽然血清NfL似乎有作为监测生物标志物的潜力,但GFAP可能是一种有价值的预后生物标志物,可预测新发痴呆症。
荷兰阿尔茨海默病协会,吉斯克斯·斯特里比斯基金。
