Brain Mechanisms for Language Processing in Adolescents With Autism Spectrum Disorder
Autism Spectrum DisordersThe main goal of our study is to find out why some people with Autism Spectrum Disorder (ASD) do not develop verbal abilities or remain minimally-verbal throughout adolescence and adulthood. Current research focuses on investigating brain differences related to processing sounds and initiating speech in adolescents and young adults with ASD varying in language skills, compared to adolescents who do not have ASD, in order to clarify whether atypical processes of auditory perception, perceptual organization and/or neural oscillation patterns may explain why some individuals with ASD fail to acquire functional speech.
A Salivary miRNA Diagnostic Test for Autism
Autism Spectrum DisorderDevelopmental DelayThe goal of this study is to validate a panel of miRNAs that distinguish children with autism spectrum disorder (ASD) from their non-ASD peers with a positive MCHAT-R. These biomarkers may allow earlier diagnosis of autism, allowing earlier service, and also help us to understand some of the changes in the brains of autistic children.
TMS for the Investigation of Brain Plasticity in Autism Spectrum Disorders
Autism Spectrum DisorderIntellectual DisabilityThe main purpose is to study brain plasticity (the changes that occur in the brain through experience) in individuals with autism spectrum disorder (ASD). Research suggests that during development, the brains of individuals with ASD may change in response to their experiences differently than the brains of typically developing individuals. Investigators want to understand why and how this difference may contribute to the symptoms of ASD.
Structural Connectivity as Imaging Endophenotypes of Autism Spectrum Disorders
Autism Spectrum DisordersAutism spectrum disorders (ASD) is a highly hereditary neuropsychiatric disorder. In children and adolescents worldwide, the prevalence of ASD is estimated at 0.6%. Understanding the biological mechanism of this disorder could potentially facilitate prompt, accurate and personalized therapy. The dysfunction of fronto-temporal circuitry may explain language impairment in ASD. In addition, pieces of evidence suggest that the abnormality of the cortico-striato-thalamic circuitry might be related to social deficits. However, very little is known how changes in these two circuitries are related to variation in genotypes. Previous reports on ASD using magnetic resonance imaging (MRI) have demonstrated alteration of brain structure. Recent advance in neuroimaging has shown that structural connectivity of a specific circuitry is superior to regional analysis in terms of higher penetrance of genetic effects and better account for behavioral variance. Therefore, it is plausible that connectivity imaging may serve as effective endophenotypes that link clinical manifestation (phenotypes) and the biological variables (genotypes). In the past five years, our lab has established world leading diffusion spectrum imaging techniques, and applied the techniques to clinical studies on ASD, schizophrenia, stroke and epilepsy. The clinical experience and technical strengths provide a strong basis for us to extend to imaging genetics, aiming to determine effective endophenotypes of ASD. Therefore, the goal of this project is to validate structural connectivity of fronto-temporal and cortico-striato-thalamic circuitries as effective imaging endophenotypes of ASD. Specifically, the investigators will achieve the goal through a series of validation. First, the investigators will demonstrate that structural connectivities in the two targeted circuitries are indeed different among groups of patients with ASD, unaffected siblings, and neurotypicals. Second, the investigators will demonstrate in neurotypicals and unaffected siblings that the altered structural connectivities related to social and language impairments are indeed different in carriers of risk genes, i.e. CNTNAP2 and SLC25A12, respectively. Last, the investigators will demonstrate in all participants that the altered structural connectivities are associated with the corresponding behavioral variances in social and language function. This two-year project is a cohort study consisting of three groups, namely patient, unaffected siblings, and control groups matched in age, gender and handedness. The patient and sibling groups consist of 20 boys each, age 10-15 years old, and the control group consists of 40 boys. The examination includes behavior assessment (IQ test, neuropsychological and clinical assessment), MRI study (structure MRI and diffusion spectrum imaging for structural connectivity) and genome scan(specifically candidate genes related to language function, i.e. SLC25A12, and to social function, i.e. CNTNAP2). In conclusion, this is the first cohort project on imaging genetics in Taiwan. The success of this project will facilitate the progress of translational neuroscience in Taiwan. The methodology of validating endophenotype will be readily extended to other psychiatric diseases.
Predicting Developmental Disability Type and Mental Retardation Level in Children With General Developmental...
Global Developmental DelayCerebral Palsy2 moreThe purpose of this study is to find the relationship between the stage and quality of developmental delay during infancy and toddler age, and the final diagnosis that the child gets a few years later (MR, type of PDD, CP or comorbidity of a few disorders).
A PET Brain Imaging Study of mGluR5 in Subjects With Neuropsychiatric Conditions
Parkinson DiseaseHuntington Disease4 moreMeasurement of metabotropic glutamate receptor type 5 (mGluR5) binding capacity in the brain, may be a valuable tool in the early detection, understanding, or evaluation of Parkinson disease (PD), Huntington disease (HD), Fragile X syndrome (FXS), Autism Spectrum Disorder(ASD), Alzheimer's Disease(AD), and subjects with mild cognitive impairment (MCI). The goal of this study is to assess [18F]F-PEB positron emission tomography (PET) imaging as a tool to detect mGluR5 density in the brain of PD, HD, FXS ASD, AD, and MCI research participants and similarly aged healthy subjects.
EMERGENCE AGITATION After Premedication IN PAEDIATRIC MAGNETIC RESONANCE IMAGING: A RETROSPECTIVE...
Autism Spectrum DisorderPremedication3 moreThe aim of this study was to assess the anxiolytic and sedative effect of OZALIN® / OZASED® (ADV6209) 0,25mg/Kg in children undergoing magnetic resonance imaging (MRI) under inhalational anesthesia. Our hypothesis is that compared to children who do not receive any premedication, palatability of OZALIN® / OZASED® by allowing an easier acceptance of the drug, improves the quality of anesthesia induction and postoperative behavioral outcome improving sedation and reducing the need for inhalation anesthetic which has been recognized as the main cause of post-procedural behavioral changes, including emergence agitation.
Development and Validation of a System for the Anticipation of Challenging Behaviors
Autism Spectrum DisorderMost people with autism spectrum disorder (ASD) present at least one form of challenging behavior (CB). Self-injurious, aggressive, and disruptive CBs linked with social interaction, community-based service exclusion, and a life quality reduction for people with ASD, their caregivers, and health professionals. The current study has three objectives: 1) to assess the differences in the physiological reaction of high-functioning adults with ASD and typically developed peers, using bio-signal measurements such as heart rate derived from wearable Smart Shirt (SS), 2) to learn which physiological parameters can best predict the imminent onset of a CB, and 3) to develop a system able to predict the incoming occurrence of a CB in real-time and inform the caregiver through an alert notification sent on a smartphone application. Methods and analysis: comparison between physiological parameters will carry out with two groups of 20 participants with and without ASD. Each participant will be asked to watch two five-minute videos while wearing the SS: one showing relaxing images and the other impressive human body deformities. To identify the matching between the physiological parameters variation collected by the SS and the CBs, ten participants with ASD and aggressive or disruptive CBs will be recruited. Each of these participants will wear the SS for seven consecutive days during waking hours, performing their usual daily activities. During the same seven days, the caregivers who care for the participant will fill a behavioral diary with the participant's status, reporting the times of the day in which he is quiet, agitated and the occurrence of CBs. A learning algorithm capable of predicting immediate CBs occurrence based on physiological parameter variations will be developed together with an ad hoc smartphone application. If the algorithm detects the possibility of an incoming CB, a notification will be sent to the caregiver's smartphone to inform of the possible advent of a CB, therefore enabling the implementation of the selected intervention strategy. After developing the algorithm and related smartphone application, a system efficiency proof of concept (POC) will be carried out with one participant with ASD and CB for seven days in a special school setting with healthcare professionals and teachers. A focus group including health professionals will be conducted after the POC to identify the strengths and weaknesses of the developed system.
Effectiveness of Sealants and Fluoride Varnish in Caries Prevention in Children With Autism Spectrum...
Autistic DisorderDental Caries1 moreThe aim of the study is to compare application of sealants together with fluoride varnishes versus only fluoride varnishes in preventing caries lesions development in the occlusal surface of first permanent molars of children with ASDs.
Study of the Personal Identity in Adults With Autism Spectrum Disorder Without Intellectual Deficiency...
Autism Spectrum DisordersThe research aims at clarifying the impact of autism on personal identity in adulthood. Two studies will be made in order to compare adults with autistic spectrum disorders without intellectual deficiency and controls. In the first study (Study A), the investigators will ask subjects to tell autobiographical memories and to specify their characteristics by answering focused questions. In the second study (Study B), the investigators will ask subjects to say the self statements which define them. Then, subjects will have to tell and to specify the characteristics of the autobiographical memories linked to these self statements.