Individuals with autism spectrum disorders (ASD) commonly experience variances in tactile behaviors, such as hypersensitivity to light touch stimuli, altered texture discrimination, and hyporesponsivity to pain. Researchers aim to investigate the somatosensory sensitivity and sensorimotor integration utilizing novel, objective behavioral assays and TMS. The main purpose is to study brain plasticity (the changes that occur in the brain through experience) in individuals with autism spectrum disorders.
Individuals with autism spectrum disorders (ASD) commonly experience variances in tactile behaviors, such as hypersensitivity to light touch stimuli, altered texture discrimination and hyporesponsivity to pain. The degree of this somatosensory impairment correlates with increased anxiety behaviors as well as impairments in social behavior among ASD patients. There remains an unmet need for suppressing the tactile hypersensitivity, which may improve anxiety and other core symptoms of ASD; however, methodologies for measuring tactile sensitivity vary widely across clinical and basic research fields. There is an urgent need for direct and objective sensory reactivity metrics in clinical studies to assess deficits in specific patient populations and for designing effective therapeutic strategies. As compared with traditional behavioral methods, the investigators propose to test novel, objective and quantitative metrics of somatosensory sensitivity in individuals with ASD. In addition, transcranial magnetic stimulation (TMS) provides a method of measuring cortical reactivity offering the advantage of providing behaviorally independent results that are largely unaffected by attention or cognitive ability. Therefore, a TMS-based physiologic biomarker may be applicable to all individuals across the autism spectrum. A form of TMS known as paired associative stimulation (PAS) can be used to study the suggested impairment in integration of sensory input into cortical function that underlies tactile hypersensitivity in ASD. Thus, the investigators aim to investigate somatosensory sensitivity and sensorimotor integration utilizing novel, objective behavioral assays and TMS. Participation in the study will consist of up to seven visits: one screening visit, two sensory testing visits, and two - four TMS sessions. The screening visit is expected to last between 2-3 hours, during which participants will first provide informed consent. Participants will then receive a thorough medical examination by a neurologist, and a neuropsychological evaluation (including IQ measures and ASD specific evaluations). If eligible to continue, participants will then come back for two sensory visits and two - four TMS visits that are spaced a minimum of 1 week apart.
Study Type
OBSERVATIONAL
Enrollment
60
Includes an IQ test, Autism Diagnostic Observation Schedule-2 (ADOS-2), and Autism Diagnostic Interview-Revised (ADI-R) assessments.
The sample is to test for genes (BDNF/APOE/COMT) that everyone has, but people have different varieties of these genes. Genetic testing is funded by Boston Children's Hospital.
Three different tests will be completed: the tactile prepulse inhibition test (PPI) texture perception indentation testing (Mechanical Detection Threshold). Investigators will also apply mild electrical stimulation to the median nerve of the hand (on the wrist). The second sensory visit will be another version of the PPI testing involving hearing and sound.
Boston Children's Hospital
Boston, Massachusetts, United States
RECRUITINGTextured novel object recognition test (NORT) and mechanical detection threshold (MDT) with von Frey hairs
To assess the validity of tactile prepulse inhibition (PPI) and other quantitative somatosensory assessments as potential biomarkers for somatosensory dysfunction in children with ASD. These metrics will provide a valuable comparison to the more-quantitative physiological measures by PAS and PPI.
Time frame: 3 years
Somatosensory temporal discrimination threshold (STDT) and PAS-induced modulation of motor-evoked potentials (MEPs)
To assess the validity of PAS-induced modulation of corticospinal excitability as a neurophysiologic biomarker for somatosensory dysfunction in children with ASD.
Time frame: 3 years
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A cap will be placed on the participants head that will be filled with electrodes (small discs). The EEG will allow investigators to measure how the brain reacts to the sensory testing.
Single pulses of TMS, as well as PAS (a second type of TMS), will be applied to the cortex. There will be two - four identical TMS testing visits.