Characterizing the computational and neural basis of deficits in decision making in Alzheimer's disease

Projet

Détails sur le projet

Description

Project Abstract Perceptual decision making relies on cognitive processes such as acquiring and integrating sensory information, holding information in working memory, incorporating biases, setting a speed-accuracy regime, and planning a motor response. Many of these processes are affected (compared to age-matched controls) in patients with early Alzheimer's disease (AD). The neural correlates of these cognitive processes have been identified in persistently active neurons in frontal and parietal association cortex. We will test the hypothesis that disruption of persistent activity underlies some of the deficits seen in decision making in AD. Our first aim is to characterize the ability of patients with AD to incorporate evidence, environmental biases, and time pressure into their decisions. We will leverage the insights into the neural and computational basis of these abilities obtained from a well-studied perceptual decision making task. By comparing the performance of patients in this task against age matched controls, we will gain insights into the nature of the neural computations that are disrupted in early AD. The experiments also have the potential to uncover new behavioral markers for early AD. Our second aim is to mimic the deficits seen in AD in the macaque monkey by manipulating persistent activity in parietal association cortex while they perform the same perceptual decision task. We will bilaterally express inhibitory chemogenetic DREADD receptors (Designed Receptors Exclusively Activated by Designer Drugs) in a subregion of parietal cortex with neurons that show persistent activity in this decision making task. Preliminary data shows that we can successfully change decision making behavior with this approach. We will build upon these results by investigating how integrating evidence, incorporating biases, and deciding under time pressure is affected by this manipulation in the same task as used with AD patients. Together, our results will provide insights into the computations that underlie decision making, their neural implementation in the primate brain, and how failure to sustain persistent activity in association cortex can lead to deficits in decision making in AD. Our long-term goal is to develop behavioral assays for early diagnosis and to gain insight into fundamental mechanisms that will ultimately lead to new therapeutic targets in AD.
StatutTerminé
Date de début/de fin réelle5/15/204/30/22

Financement

  • National Institute on Aging: 445 500,00 $ US

Keywords

  • Teoría de la decisión (todo)
  • Neurología clínica
  • Neurología

Empreinte numérique

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