grant

The Autistic Brain Over 45: The Anatomic, Functional, and Cognitive Phenotype

Organization SAN DIEGO STATE UNIVERSITYLocation SAN DIEGO, UNITED STATESPosted 8 May 2015Deadline 30 Apr 2027
NIHUS FederalResearch GrantFY20250-11 years old21+ years old4-Aminobutanoic Acid4-Aminobutyric Acid4-amino-butanoic acidASDAccelerationActive Follow-upAdultAdult HumanAffectAffectiveAgeAge YearsAgingAminalonAminaloneAmygdalaAmygdaloid BodyAmygdaloid NucleusAmygdaloid structureAnatomic SitesAnatomic structuresAnatomyAnxietyAutismAutistic DisorderBehaviorBehavior assessmentBehavioralBiologicalBrainBrain Nervous SystemCell Communication and SignalingCell SignalingCentral LobeCharacteristicsChildChild DevelopmentChild YouthChildren (0-21)CognitionCognitiveConnector NeuronDWI (diffusion weighted imaging)DWI-MRIDataData CollectionDiagnosticDiffusionDiffusion MRIDiffusion Magnetic Resonance ImagingDiffusion Weighted MRIDiffusion weighted imagingDiffusion-weighted Magnetic Resonance ImagingDown-RegulationEarly Infantile AutismEncephalonEquilibriumFunctional MRIFunctional Magnetic Resonance ImagingGABAGenesGlutamatesHistoryImpairmentInfant and Child DevelopmentInfantile AutismInsulaInsula of ReilIntercalary NeuronIntercalated NeuronsInterneuronsInternuncial CellInternuncial NeuronInterventionIntracellular Communication and SignalingInvestigationIsland of ReilKanner's SyndromeL-GlutamateLifeLinkLiteratureMR ImagingMR SpectroscopyMR TomographyMRIMRI ScansMRIsMachine LearningMagnetic Resonance ImagingMagnetic Resonance Imaging ScanMagnetic Resonance SpectroscopyMeasurementMeasuresMediatingMedicalMedical Imaging, Magnetic Resonance / Nuclear Magnetic ResonanceMental HealthMental HygieneModelingMorphologyMotorMovementNMR ImagingNMR TomographyNerve CellsNerve UnitNeural CellNeurobiologyNeurocognitiveNeurocyteNeuronsNuclear Magnetic Resonance ImagingOutcomeParticipantPerformancePhenotypePopulationPredictive FactorProcessPrognosisProgress ReportsPsychological HealthPublic HealthRecording of previous eventsResearchRestRiskRisk FactorsSignal TransductionSignal Transduction SystemsSignalingSpecificitySubgroupSystemTestingTimeVisualVoiceWorkZeugmatographyactive followupadult with ASDadult with autismadult with autism spectrum disorderadult youthadulthoodadults on the autism spectrumadults on the spectrumadverse consequenceadverse outcomeage associatedage associated effectsage correlatedage dependentage effectage groupage linkedage relatedage related effectsage specificagesaging effectamygdaloid nuclear complexautism spectral disorderautism spectrum disorderautisticautistic adultautistic individualsautistic peopleautistic spectrum disorderbalancebalance functionbehavior measurementbehavioral assessmentbehavioral impairmentbehavioral measurebehavioral measurementbiologicbiological signal transductionbody movementbrain tissuecognitive abilitycognitive assessmentcognitive changecognitive testingcohortdMRIdata miningdata resourcedataminingdesigndesigningdiffuseddiffusesdiffusingdiffusion tensor imagingdiffusionsearly onsetfMRIfollow upfollow-upfollowed upfollowupgamma-Aminobutyric Acidglutamatergichistoriesimpact of ageimpaired behaviorindividuals on the autism spectrumindividuals on the spectrumindividuals with ASDindividuals with autismindividuals with autism spectrum disorderinfluence of ageinsightkidslate in lifelate lifelater in lifelater lifelife spanlifespanmachine based learningmaladaptive behaviormid lifemid-lifemiddle agemiddle agedmidlifemulti-modalitymultimodalityneuralneurobiologicalneuronalolder adultolder adulthoodpeople on the autism spectrumpeople with ASDpeople with autismpeople with autism spectrum disorderprospectiverate of changerecruitresponsesegregationskillssocialsuccessyoung adultyoung adult ageyoung adulthoodyoungsterγ-Aminobutyric Acid
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Full Description

Project Summary
Extremely little is known about neural and cognitive changes or long-term prognosis for adults with autism
spectrum disorders (ASD) older than 50 years of age, although in the US alone hundreds of thousands of
people with ASD will reach this age group in the coming decades. Cross-sectional findings suggest that new
cognitive, sensorimotor, and mental health problems emerge and that accelerated brain tissue loss occurs.
Functional and structural brain connectivity is also affected, as shown with resting state functional MRI and
diffusion MRI.
This project aims to characterize mid- to late-life trajectories of brain anatomy and function in ASD, as
well as cognitive and behavioral change, and identify risk factors that predict poor outcomes including
suspected effects of declining GABA concentrations and excitatory:inhibitory imbalance in aging. The proposed
renewal will leverage an existing cohort (Cohort 1) of 40-70 year olds with ASD and matched typical
comparison (TC) participants. In addition, a new cohort (Cohort 2) of 50 individuals with ASD and 70 TC
participants age 40-70 will be recruited. Both cohorts will be followed longitudinally, with data collection every
3.5-5 years. Extensive data will be acquired at each time-point, including multimodal MRI scans, measures of
GABA concentration from MR spectroscopy, diagnostic, cognitive, and behavioral assessments, as well as
medical and personal history information.
The project will pursue 3 specific aims. Aims 1 will identify alterations (and altered rates of change) in
brain anatomy, function, and connectivity and relate these to behavioral changes in 3 suspected risk domains
of Motor, Executive, and Affective function. Aim 2 will test for group differences and effects of age in GABA
concentrations and in network integration and segregation. Aim 3 will identify behavioral and neural risk factors
of adverse (or positive) outcomes (e.g. on scales of maladaptive behavior, loss of daily living skills) using
machine learning, and identify ASD subgroups based on GABA levels, differential rates of change, or
differential domain-specificity.

Grant Number: 5R01MH103494-10
NIH Institute/Center: NIH
Principal Investigator: Ruth Carper

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