Disgust Processing and Potential Relationships with Behaviors in Autism

Jayashankar, Aditya; Aziz-Zadeh, Lisa

doi:10.1007/s11920-023-01445-5

Cited by 3 publications

(3 citation statements)

References 180 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The current data helps provide a mechanistic explanation for common ASD differences in brain activity (MCC, insula) and behavior (disgust sensitivity). 42,47 Further, in the ASD group, we speci cally found several correlations between indole metabolites, brain activity (insular subregions, aMCC/dmPFC, IFGop, and S1), and symptomatology (autism severity [ADI-R RSI] and alexithymia). Most interestingly, supporting our second hypothesis, we found that disgust processing activity in the right mid-insula mediates the relationship between indolelactate and two measures of autism severity (ADOS total score and ADOS RRBs).…”

Section: Discussionmentioning

confidence: 74%

“…Most interestingly, supporting our second hypothesis, we found that disgust processing activity in the right mid-insula mediates the relationship between indolelactate and two measures of autism severity (ADOS total score and ADOS RRBs). This is particularly noteworthy given that: 1) disgust processing is strongly related to interoceptive processing, making it particularly suited for gut metabolite in uence; 2) autistic children commonly have differences in disgust processing; 42,47 and 3) the mid-insula is a hub of interoceptive, emotion, and chemosensory processing, and is particularly known to show atypical activity and connectivity in ASD. [47][48][49] Thus, these data strongly support the notion that tryptophan-related gut metabolites impact brain function, contributing to some ASD behavioral symptomatologies.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Relationships between tryptophan-related gut metabolites, brain activity, and autism symptomatology

Aziz-Zadeh,

Ringold,

Jayashankar

et al. 2024

Preprint

Self Cite

View full text Add to dashboard Cite

Gut microbial metabolites have been theorized to play a causative role in the pathophysiology of autism spectrum disorder (ASD). This hypothesis is based on results from mechanistic preclinical studies and several correlational studies showing differences in gut microbial composition between ASD subjects and neurotypical (NT) controls. However, alterations in how the human brain interacts with the gut microbiome in ASD have not been examined. In this cross-sectional, case-control observational study, fecal metabolomics, task-based functional magnetic resonance imaging (fMRI), and behavioral assessments were obtained from 43 ASD and 41 NT children aged 8-17. The fMRI tasks were based on socio-emotional and sensory paradigms that commonly show strong evoked brain differences in ASD participants. General linear models and mediational modeling were applied to examine the links between tryptophan metabolism and evoked brain activity and behavior. Results indicated that fecal levels of specific tryptophan-related metabolites were associated with: 1) brain activity atypicalities in regions previously implicated in ASD (i.e., insula and cingulate); and 2) ASD severity and symptomatology (i.e., ADOS scores, disgust propensity, and sensory sensitivities). Importantly, activity in the mid-insula and mid-cingulate significantly mediated relationships between the microbial tryptophan metabolites, indolelactate and tryptophan betaine, and ASD severity and disgust sensitivity. To our knowledge, this is the first study to elucidate how interactions between gut metabolites and brain activity may impact autism symptomatology, particularly in functional brain pathways associated with vagal and interoceptive/emotion processing.

show abstract

Section: Discussionmentioning

confidence: 74%

Section: Discussionmentioning

confidence: 99%

Relationships between tryptophan-related gut metabolites, brain activity, and autism symptomatology

Aziz-Zadeh,

Ringold,

Jayashankar

et al. 2024

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…The responses were categorized into 15 groups, including focal emphasis, contrastive emphasis, seven affects (joy, surprise, fear, sadness, anger, disgust, and contempt), fast/slow speaking rate, immediate/delayed response, and high/low voice volume. The seven affects are selected by adding six affects proposed by Ekman (1984) on "contempt," which means the aversion to humans because affects toward humans are considered to be necessary to study the pathophysiology of ASD (Jayashankar & Aziz-Zadeh, 2023).The English translation of each script is given in Table 1. There were two scripts for each affect except for anger, disgust, and contempt, for which there were three, one, and one script, respectively.…”

Section: Reading Materialsmentioning

confidence: 99%

Objective assessment of autism spectrum disorder based on performance in structured interpersonal acting‐out tasks with prosodic stability and variability

Ochi,

Kojima,

Ono

et al. 2023

Autism Research

View full text Add to dashboard Cite

In this study, we sought to objectively and quantitatively characterize the prosodic features of autism spectrum disorder (ASD) via the characteristics of prosody in a newly developed structured speech experiment. Male adults with high‐functioning ASD and age/intelligence‐matched men with typical development (TD) were asked to read 29 brief scripts aloud in response to preceding auditory stimuli. To investigate whether (1) highly structured acting‐out tasks can uncover the prosodic of difference between those with ASD and TD, and (2) the prosodic stableness and flexibleness can be used for objective automatic assessment of ASD, we compared prosodic features such as fundamental frequency, intensity, and mora duration. The results indicate that individuals with ASD exhibit stable pitch registers or volume levels in some affective vocal‐expression scenarios, such as those involving anger or sadness, compared with TD and those with TD. However, unstable prosody was observed in some timing control or emphasis tasks in the participants with ASD. Automatic classification of the ASD and TD groups using a support vector machine (SVM) with speech features exhibited an accuracy of 90.4%. A machine learning‐based assessment of the degree of ASD core symptoms using support vector regression (SVR) also had good performance. These results may inform the development of a new easy‐to‐use assessment tool for ASD core symptoms using recorded audio signals.

show abstract

MiEmo: A multi-modal platform on emotion recognition for children with autism spectrum condition

Chitti,

Actis-Grosso,

Ricciardelli

et al. 2025

Computers in Human Behavior Reports

View full text Add to dashboard Cite

Disgust Processing and Potential Relationships with Behaviors in Autism

Cited by 3 publications

References 180 publications

Relationships between tryptophan-related gut metabolites, brain activity, and autism symptomatology

Relationships between tryptophan-related gut metabolites, brain activity, and autism symptomatology

Objective assessment of autism spectrum disorder based on performance in structured interpersonal acting‐out tasks with prosodic stability and variability

MiEmo: A multi-modal platform on emotion recognition for children with autism spectrum condition

Contact Info

Product

Resources

About