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What does Autism Spectrum Disorder mean? Sounds impressive, but doctors don't have much of a clue yet!
"... Now, a new study ... has found that brains of autistic people have fewer of a specific kind of receptor for glutamate, the most common excitatory neurotransmitter in the brain. The reduced availability of these receptors may be associated with various characteristics linked to autism. ...
One of the leading hypotheses on the underlying causes of autism is an imbalance of excitatory and inhibitory signaling in the brain. ..."
From the abstract:
"Objective:
Autism spectrum disorder is a prevalent and heterogeneous condition with features ranging from social and communication differences to sensory sensitivities. Differences in excitatory neurotransmission have been identified in autism, but the molecular underpinnings are poorly understood. To investigate the mechanism underlying these observed differences, the authors assessed glutamatergic receptor density in autistic adults using positron emission tomography (PET) and related it to a functional EEG measure of excitatory activity.
Methods:
Metabotropic glutamate receptor 5 (mGlu5) availability was compared in autistic (N=16) and neurotypical (N=16) adults between 18 and 36 years of age, using the PET tracer 3-[18F]fluoro-5-(2-pyridinylethynyl) benzonitrile ([18F]FPEB). The PET outcome measure was volume of distribution (VT) computed with equilibrium analysis using a venous input function and partial volume correction. Group differences were quantified using mixed-model analyses. Heterogeneity was further parsed within the autistic group by quantifying the relationship between receptor availability and the slope of the EEG power spectrum, an index of excitatory-inhibitory balance. Correlations between EEG and VT were calculated using Spearman’s rho.
Results:
Across all brain regions, mGlu5 availability was significantly lower (by ~15%) in autistic relative to neurotypical control participants.
Group differences were generally greatest in the cerebral cortex. Within the autistic group, mGlu5 availability in all regions was significantly correlated with the slope of the EEG (e.g., cerebral cortex, r=0.67), such that shallower slope was associated with lower mGlu5 availability.
Conclusions:
This brain-wide investigation of mGlu5 availability with PET revealed pervasive lower mGlu5 availability across multiple brain areas in autism.
Additionally, multimethod analyses revealed associations with a noninvasive electrophysiological index of excitatory neurotransmission. These results indicate that lower brain-wide mGlu5 availability may represent a molecular mechanism underlying altered excitatory neurotransmission that has the potential to stratify the heterogeneous autism phenotype."
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