Age-related fornix decline predicts conservative response strategy-based slowing in perceptual decision-making

IF 1.7 Q3 CLINICAL NEUROLOGY Aging brain Pub Date : 2024-01-01 DOI:10.1016/j.nbas.2024.100106
Lauren Revie, Claudia Metzler-Baddeley
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Abstract

Aging leads to response slowing but the underpinning cognitive and neural mechanisms remain elusive. We modelled older and younger adults’ response times (RT) from a flanker task with a diffusion drift model (DDM) and employed diffusion-weighted magnetic resonance imaging and spectroscopy to study neurobiological predictors of DDM components (drift-rate, boundary separation, non-decision time). Microstructural indices were derived from white matter pathways involved in visuo-perceptual and attention processing [optic radiation, inferior and superior longitudinal fasciculi (ILF, SLF), fornix]. Estimates of metabolite concentrations [N-acetyl aspartate (NAA), glutamate (Glx), and γ-aminobutyric acid (GABA), creatine (Cr), choline (Cho), myoinositol (mI)] were measured from occipital (OCC), anterior cingulate (ACC) and posterior parietal cortices (PPC). Age-related increases in RT, boundary separation, and non-decision time were observed with response conservatism acounting for RT slowing. Aging was associated with reductions in white matter microstructure (lower fractional anisotropy and restricted signal fraction, larger diffusivities) and in metabolites (NAA in ACC and PPC, Glx in ACC). Regression analyses identified brain regions involved in top-down (fornix, SLF, ACC, PPC) and bottom-up (ILF, optic radiation OCC) processing as predictors for DDM parameters and RT. Fornix FA was the strongest predictor for increases in boundary separation (beta = −0.8) and mediated the effects of age on RT. These findings demonstrate that response slowing in visual discrimination is driven by the adoption of a more conservative response strategy. Age-related fornix decline may result in noisier communication of contextual information from the hippocampus to anterior decision-making regions and thus contribute to the conservative response strategy shift.

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与年龄相关的穹窿衰退预示着感知决策中基于保守反应策略的迟缓
衰老会导致反应变慢,但其背后的认知和神经机制仍然难以捉摸。我们用扩散漂移模型(DDM)对老年人和年轻人在侧翼任务中的反应时间(RT)进行了建模,并采用扩散加权磁共振成像和光谱学方法研究了DDM成分(漂移率、边界分离、非决策时间)的神经生物学预测因素。微观结构指数来自参与视觉感知和注意力处理的白质通路[视辐射、下和上纵筋束(ILF、SLF)、穹窿]。代谢物浓度[N-乙酰天冬氨酸(NAA)、谷氨酸(Glx)、γ-氨基丁酸(GABA)、肌酸(Cr)、胆碱(Cho)、肌醇(mI)]的估计值是从枕叶皮层(OCC)、前扣带回皮层(ACC)和后顶叶皮层(PPC)测得的。结果表明,RT、边界分离和非决策时间的增加与年龄有关,RT减慢与反应保守有关。衰老与白质微结构(各向异性分数和受限信号分数较低、扩散度较大)和代谢物(ACC和PPC中的NAA、ACC中的Glx)的减少有关。回归分析发现,参与自上而下(穹窿、SLF、ACC、PPC)和自下而上(ILF、视辐射OCC)处理的脑区是预测DDM参数和RT的因素。穹窿FA是边界分离增加的最强预测因子(β=-0.8),并介导了年龄对RT的影响。这些研究结果表明,视觉辨别中的反应减慢是由于采用了更保守的反应策略。与年龄相关的穹窿下降可能会导致海马区与前决策区之间的语境信息交流更加嘈杂,从而导致保守反应策略的转变。
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Aging brain
Aging brain Neuroscience (General), Geriatrics and Gerontology
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