Review
doi: 10.1038/s41380-023-02060-9.
Epub 2023 Apr 17.
Neuroimaging genetics approaches to identify new biomarkers for the early diagnosis of autism spectrum disorder
Affiliations
- PMID: 37069342
- PMCID: PMC11041805
- DOI: 10.1038/s41380-023-02060-9
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Review
Neuroimaging genetics approaches to identify new biomarkers for the early diagnosis of autism spectrum disorder
Mol Psychiatry.
2023 Dec.
Erratum in
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Correction to: Neuroimaging genetics approaches to identify new biomarkers for the early diagnosis of autism spectrum disorder.Mol Psychiatry. 2023 Dec;28(12):5009-5010. doi: 10.1038/s41380-023-02115-x. Mol Psychiatry. 2023. PMID: 37217681 Free PMC article. No abstract available.
Abstract
Autism-spectrum disorders (ASDs) are developmental disabilities that manifest in early childhood and are characterized by qualitative abnormalities in social behaviors, communication skills, and restrictive or repetitive behaviors. To explore the neurobiological mechanisms in ASD, extensive research has been done to identify potential diagnostic biomarkers through a neuroimaging genetics approach. Neuroimaging genetics helps to identify ASD-risk genes that contribute to structural and functional variations in brain circuitry and validate biological changes by elucidating the mechanisms and pathways that confer genetic risk. Integrating artificial intelligence models with neuroimaging data lays the groundwork for accurate diagnosis and facilitates the identification of early diagnostic biomarkers for ASD. This review discusses the significance of neuroimaging genetics approaches to gaining a better understanding of the perturbed neurochemical system and molecular pathways in ASD and how these approaches can detect structural, functional, and metabolic changes and lead to the discovery of novel biomarkers for the early diagnosis of ASD.
© 2023. The Author(s).
Conflict of interest statement
The authors declare no competing interests.
Figures
Risk genes for various neurological disorders and ASD-related genes that affect brain metabolism can be detected by using neuroimaging techniques, such as positron emission tomography (PET), magnetic resonance imaging (MRI), and magnetic resonance spectroscopy (MRS).
ASD-associated mutations in serotonin and dopamine transporters and in GABA and glutamate receptors can be detected by using various positron emission tomography (PET) probes and magnetic resonance (MR) techniques.
ML methods or techniques can be applied to ASD raw data obtained from genomics and neuroimaging approaches. ML uses supervised and unsupervised learning methods to classify and distinguish clusters in ASD. Deep-learning techniques, such as deep neural network (DNN) and convolutional neural network (CNN), can be applied to diagnose ASD.
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