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Active NON-SBIR/STTR RPGS NIH (US)

Neural mechanism of reward processing in autistic adolescents

$2.55M USD

Funder NATIONAL INSTITUTE OF MENTAL HEALTH
Recipient Organization Temple University of the Commonwealth
Country United States
Start Date Jul 08, 2024
End Date Jun 30, 2026
Duration 722 days
Number of Grantees 1
Roles Principal Investigator
Data Source NIH (US)
Grant ID 10948847
Grant Description

PROJECT SUMMARY Social deficits are a primary characteristic of autism spectrum disorder (ASD). The social motivation hypothesis posits that these deficits reflect alterations in social information processing, including a blunted reward response to social stimuli. Neuroimaging research suggests this blunting may generalize beyond the social domain. Given

the considerable resources devoted to motivation and reinforcement-based interventions, it is essential to identify the extent that blunted reward processing influences the entire spectrum of autism (i.e., beyond social motivation) and to identify the neural mechanisms that contribute to said blunting. Proposed aims make substantive progress

towards answering these questions in neurotypical (NT; N=50) vs. autistic (N=50) youths. We focus on emerging adolescence (10-15-years; 20% female reflecting autism prevalence) as it is a critical phase of development when peer feedback gains salience in NT youth and social deficits increase in autistic youth. Significance is

derived from three factors. First, we address two shortcomings in fMRI study design that have hindered progress towards isolating ASD-related differences in reward processing: A) Most studies fail to directly compare neural response to social (e.g., viewing a smiling face) and non-social (e.g., winning money) outcomes. B) Social stimuli

typically used to study reward fail to model the experience of actually being liked by peers (i.e., direct social reward). To overcome these shortcomings, we developed an fMRI-based feedback paradigm that quantifies neural response to reward in social (being liked) and non-social (winning money) domains. Aim 1 uses this

paradigm to isolate differences in neural response to social and non-social reward. This will be the first fMRI study to test ASD-related neural response to direct social reward. Second, we address a major knowledge gap in the social motivation hypothesis - the extent to which ASD symptoms relate to dopamine (DA) system function

in brain. Animal models of autism suggest that DA system dysfunction contributes to blunted reward processing. However, testing human correlates has proved challenging because it requires invasive techniques involving radioactivity. Recent advances have demonstrated that neuromelanin-MRI (NM-MRI) can be used as a non-

invasive proxy for measuring DA system function. Aim 2 quantifies differences in midbrain DA system function via NM-MRI. If awarded, this study will be the first to apply NM-MRI in ASD research. Third, in Aim 3, we lay the foundation for a novel approach to individualized treatment by testing the extent to which DA system function

influences relations between ASD and blunted reward response. Gold standard interventions (e.g., Applied Behavioral Analysis, ABA) rely on intact reward processing for maximal effect. If DA system deficits diminish neural response to reward, this may explain variation in treatment outcomes. NM-MRI could identify those who

may benefit most (or least) from ABA, and identify novel pharmacological targets to treat core symptoms of ASD.

All Grantees

Temple University of the Commonwealth

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