To assess sensory processing anomalies in neurotypical children, children with autism spectrum disorder, and attention-deficit hyperactivity disorder, particularly within the vibrotactile and auditory sensory modalities.
Neurodevelopmental disorders, such as attention-deficit-hyperactivity disorder (ADHD) and autism spectrum disorder (ASD), have been associated with a high prevalence of sensory processing anomalies. With the update of the diagnostic manuals International Classification of Diseases eleventh revision (ICD-11) and Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition (DSM-V), more emphasis has been given to the sensory symptoms of both these disorders. The demand of reliable and valid quantitative measurements of sensory processing anomalies are therefore increasing as such metrics has the potential to assist clinical decision-making e.g., in (differential) diagnostics and treatment response evaluation and prediction. The present observational study focuses on auditory and tactile processing. Hearing and touch are two of the most frequency reported modalities in which individuals with ASD experience sensory anomalies. In addition, adequate auditory and tactile processing are presumed fundamental in the emergence of various social and cognitive functions such as the development of language. Elucidating the sensory symptoms by means of psychophysics, neuroimaging, and quantitative measures of peripheral sensory organs could elucidate the underlying (neuro)physiology of sensory anomalies in ASD and ADHD. The present project aims to elucidate the physiological substrates of abnormal sensory processing by conducting a battery of tests in children with ASD, ADHD, and neurotypical children. First, a series of questionnaires will be administered to acquire a (clinical) description of the participants (Wechsler Intelligence Scale for Children, Fifth Edition (WISC-V); Autism Quotient (AQ, child version); Childhood Behavioral Checklist (CBCL 6-16); ADHD-Ration Scale (ADHD-RS); Autism Diagnostic Observation Schedule, 2nd edition (ADOS-2); Use of pharmacotherapy). A standardized caregiver-reported sensory profile questionnaire will serve as the primary outcome (Sensory Profile 2, Child version). Second, transiently evoked otoacoustic emissions will be measured in order to account for peripheral mechanisms of hearing as well as their contralateral suppression to measure efferent auditory system functioning. Third, a psychophysic task will be conducted for the purpose of estimating the just-noticeable difference to auditory loudness and vibrotactile displacement intensities followed by a subjective categorical loudness scale experiment. Finally, two electroencephalographic experiments will be performed: a frequency tagging paradigm with interspersed pitch oddballs and a classical sensory gating paradigm using vibrotactile stimuli and auditory clicks.
Study Type
OBSERVATIONAL
Enrollment
75
Estimating the just-noticeable difference of auditory loudness and vibrotactile displacement to fit a psychometric function for each modality with parameters: threshold, slope, sensitivity, and response criterion.
Examination of integrity of outer hair cells in the inner ear; with and without contralateral suppression.
Caregiver questionnaires send to parents online to acquire demographic information Autism Quotient (AQ), Child Behavior Checklist (CBCL6-16), Sensory Profile 2 (SP-2).
Health Science and Technology
Aalborg, North Denmark, Denmark
RECRUITINGSensory Profile 2
Caregiver questionnaire to assess sensory anomalies
Time frame: 8 minutes, answered within 1 month of the experimental session
Wechsler Intelligence Scale for Children, Fifth Edition (WISC-V)
General intelligence quotient
Time frame: 1 hour 15 minutes, conducted within 1 year of the experimental session
Autism Quotient (AQ, child version)
Questionnaire addressing autistic traits
Time frame: 8 minutes, answered within 1 month of the experimental session
Childhood Behavioral Checklist (CBCL 6-16)
Questionnaire addressing various behaviors relevant to DSM-V
Time frame: 15 minutes, answered within 1 month of the experimental session
ADHD-Ration Scale (ADHD-RS)
Questionnaire addressing behaviors related to severity of ADHD symptoms
Time frame: 15 minutes, conducted within 1 year of the experimental session
Autism Diagnostic Observation Schedule, 2nd edition (ADOS-2)
Questionnaire addressing behaviors related to severity of ASD symptoms
Time frame: 1 hour, conducted within 1 year of the experimental session
Use of pharmacotherapy
Use of pharmacotherapy
Time frame: At time of experimental session
Transiently Evoked Otoacoustic Emission (TEOAE)
Daniel Skak Mazhari-Jensen
CONTACT
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Estimates intelligence quotient
Autism Diagnostic Observation Schedule, 2nd edition (ADOS-2)
Two paradigms will be used: an auditory frequency tagging paradigm with interspersed pitch oddballs and a classical sensory gating paradigm with either vibrotactile stimuli or auditory clicks.
ADHD-Rating Scale (ADHD-RS)
Cochlear energy produced during the processing of a click sound using Titan (Interacoustics A/S, Denmark) measured in decibel (dB) above the noise floor (i.e., signal-to-noise ratio).
Time frame: 2 minutes, during experimental session
Contralateral suppression of TEOAE
The suppression effect on the TEOAE during binaural stimulation. Here, constant contralateral broadband pink noise is applied simultaneous to a ipsilateral TEOAE measurement. Thus, the measurement is similar to a TEOAE but here the outcome measure is the difference score (i.e., suppression effect) of with/without contralateral stimulation.
Time frame: 2 minutes, during experimental session
Categorical Loudness Scale
Identifying quiet threshold, loudness discomfort level, and a grading of sound intensities between (quiet threshold, soft, comfortable, loud, loudness discomfort level).
Time frame: 5 minutes, during experimental session
Auditory Loudness Discrimination Acuity
The just-noticeable difference (JND) from a reference tone intensity (65 decibel sound pressure level (dBSPL), 250 ms, 1000 Hz at interval one) to a test tone (amplitude increase between 0-15 dBSPL at interval two). The unit of JND is the change in dBSLP relative to the reference tone (ΔdBSLP).
Time frame: 5 minutes, during experimental session
Vibrotactile Displacement Discrimination Acuity
The just-noticeable difference (JND) from a reference displacement intensity (160 µm, 250 ms, 230 Hz at interval one) to a test tone (amplitude increase between 0-640 µm at interval two). The unit of JND is the change in µm relative to the reference displacement (Δµm).
Time frame: 5 minutes, during experimental session
Electroencephalography, sensory gating paradigm with auditory and vibrotactile stimulation
Gating/suppression of components in the event-related potential (ERP), beta-band power, and inter-trial phase coherence during stimulation.
Time frame: 30 minutes, during experimental session
Electroencephalography, frequency tagging with pitch oddball (two conditions)
Difference scores for half semi-tone oddball and four semi-tone oddball in pitch deviation. 1. Frequency domain amplitude for the standard and oddball (1.6 and 8 Hz) 2. Narrow-band filtered EEG amplitudes (1-17 Hz)
Time frame: 7 minutes, during experimental session