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Autistic Disorders Spectrum clinical trials

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NCT ID: NCT05910502 Recruiting - Clinical trials for Autism Spectrum Disorder

Project AFECT (Autism Family Empowerment Coaching and Training Program)

AFECT
Start date: September 19, 2023
Phase: N/A
Study type: Interventional

The goal of this clinical trial is to learn about the journey of families after their child's diagnosis of autism and to help parents understand autism and get the right treatments for their child. This study is for parents of children just diagnosed with autism who are: - Age greater than 1 and up to 5 years old; - Hispanic/Latino OR Black/African-American OR have Medi-Cal as primary health insurance; AND - Live in one of the following counties in California (Alameda, Contra Costa, Marin, Monterey, Napa, San Benito, San Francisco, San Mateo, Santa Clara, Santa Cruz, Solano, or Sonoma). The main questions it aims to answer are: - Whether parent coaching through Project AFECT leads to decreased parental stress and increased parental confidence; - Whether family navigation through Project AFECT leads to increased number of referrals to early intervention and educational services and reduced wait times to autism treatments; - Whether children whose parents receive Project AFECT intervention show increased language skills compared to children whose parents did not receive intervention. Participants will be asked to: - Complete surveys at enrollment and 3 and 6 months later. - Work with Project AFECT Coach. Researchers will compare control and intervention groups to see if Project AFECT leads to improved parent and child outcomes.

NCT ID: NCT05311982 Completed - Clinical trials for Autistic Disorders Spectrum

Transcranial Direct Current Stimulation in Autistic Spectrum Disorder

TDCSinASD
Start date: March 1, 2021
Phase: N/A
Study type: Interventional

To understand the changes in the resting electroencephalogram (EEG) brain networks of children and adolescents with autistic spectrum disorder (ASD) induced by transcranial direct current stimulation (tDCS), we asked two questions. First: how can tDCS modulate the expression of neural network dynamics? Second: how can tDCS modulate functional connections at specific frequencies? We hypothesized that the tDCS mechanism results in increased cortical frequencies in the areas under the anode, which may reflect an increase in synaptic connectivity, and that this tDCS-related increase changes connection profiles at specific frequencies important for ASD, indicating improvement in symptoms. To verify this improvement, the researchers used the Autism Treatment Evaluation Checklist (ATEC) after an intervention, comparing baseline scores with post-treatment scores.

NCT ID: NCT05157477 Recruiting - Clinical trials for Autistic Disorders Spectrum

Targeting the Sensory Disturbance in Autism Spectrum Disorder

Start date: June 17, 2020
Phase: N/A
Study type: Interventional

This study aims to establish a cognitive-behavior therapy (CBT) based virtual exposure (VR) exposure program to train ASD adults coping with everyday sensory scenarios. Through the practice and training, the ASD participants may learn the strategy to deal with the common sensory scenarios and master the anxiety around the exposure. The anticipatory anxiety and the maladaptive behaviors may be decreased along with the process of desensitization, while the functional impairment related to sensory sensitivity can partly be recovered.

NCT ID: NCT05035511 Recruiting - Clinical trials for Transcranial Direct Current Stimulation

A Machine Learning Approach for Predicting tDCS Treatment Outcomes of Adolescents With Autism Spectrum Disorders

Start date: January 5, 2022
Phase: N/A
Study type: Interventional

Autism spectrum disorder (ASD) is a neurodevelopmental disorder characterized by disturbances in communication, poor social skills, and aberrant behaviors. Particularly detrimental are the presence of restricted and repetitive stereotyped behaviors and uncontrollable temper outbursts over trivial changes in the environment, which often cause emotional stress for the children, their families, schools and neighborhood communities. Fundamental to these cognitive and behavioral problems is the disordered cortical connectivity and resultant executive dysfunction that underpin the use of effective strategies to integrate information across contexts. Brain connectivity problems affect the rate at which information travels across the brain. Slow processing speed relates to a reduced capacity of executive function to recall and formulate thoughts and actions automatically, with the result that autistic children with poor processing speed have great difficulty learning or perceiving relationships across multiple experiences. In consequence, these children compensate for the impaired ability to integrate information from the environment by memorizing visual details or individual rules from each situation. This explains why children with autism tend to follow routines in precise detail and show great distress over seemingly trivial changes in the environment. To date, there is no known cure for ASD, and the disorder remains a highly disabling condition. Recently, a non-invasive brain stimulation technique, transcranial direct current Stimulation (tDCS) has shown great promise as a potentially effective and costeffective tool for reducing core symptoms such as anxiety, aggression, impulsivity, and inattention in patients with autism. This technique has been shown to modify behavior by inducing changes in cortical excitability and enhancing connectivity between the targeted brain areas. However, not all ASD patients respond to this intervention the same way and predicting the behavioral impact of tDCS in patients with ASD remains a clinical challenge. This proposed study thus aims to address these challenges by determining whether resting-state EEG and clinical data at baseline can be used to differentiate responders from non-responders to tDCS treatment. Findings from the study will provide new guidance for designing intervention programs for individuals with ASD.

NCT ID: NCT04955093 Completed - Clinical trials for Autistic Disorders Spectrum

Heart Rate Variability Biofeedback in Young People With Autism

Start date: May 30, 2016
Phase: N/A
Study type: Interventional

Biofeedback is a process that allows people to obtain information about their internal physiological reactions and thereby learn to control them. Researchers studying the brain and nervous system have found that regulating heart rate can help us to relax. Controlling heart rate using biofeedback has been shown in some studies to help people manage symptoms of stress such as anxiety and depression. This research will explore whether biofeedback can help people with autism or Asperger syndrome reduce reported symptoms of stress. Participants with a diagnosis of high functioning autism will be invited to use a biofeedback device that helps them to regulate their heart rate. People who enrol for the study will be randomly assigned different biofeedback devices. Training and support in the use of the device will be provided to participants. Assessment will involve obtaining questionnaire reports from participants and their carers about participant levels of anxiety, depression and sensory symptoms, demographics and lifestyle. These assessments will be carried out at the beginning, in the middle and at the end of the study to see if there are any differences in how each participant's heart rate changes, whether there are any changes in participant's reported symptoms. Participants will be asked to give daily reports on their progress to monitor stress levels, usability of device and dropout rates. The overall aim is to determine whether biofeedback is a way of helping people with autism to reduce symptoms of stress.

NCT ID: NCT03947086 Active, not recruiting - Clinical trials for Autistic Disorders Spectrum

Neurostimulation for Cognitive Rehabilitation in Autistic Spectrum Disorders

Start date: April 30, 2018
Phase: N/A
Study type: Interventional

This study is a clinical trial aims investigate the effects of neurostimulation in the treatment of children with mild ASD, specifically the action of tDCS on social cognition skills. tDCS can modulate neuronal activity in patients with ASD. Specifically, this technique has shown to be a promising tool in the promotion of social neuroplasticity, aiming at more adaptive social interactions. In this sense, it was hypothesized that participants treated with active tDCS will present better performance in social cognition tests than those submitted to sessions with simulated current.

NCT ID: NCT03814083 Completed - Clinical trials for Transcranial Direct Current Stimulation

Transcranial Direct Current Stimulation in Autism Spectrum Disorder

Start date: July 23, 2019
Phase: N/A
Study type: Interventional

Background: Transcranial Direct Current Stimulation (tDCS) is a form of non-invasive brain stimulation that has aroused increased interests in the past decade. Not only that it is transient with little side-effects, and can be well-tolerated by children, it is also affordable and readily accessible, making it an appealing treatment option for autism spectrum disorder (ASD). Objective: (1) To assess the therapeutic effects of tDCS when combined with cognitive training for 10 consecutive weekdays on improving cognitive processing in adolescents with ASD, relative to control group receiving sham-stimulation, and (2) to evaluate the associated neural mechanisms underlying the treatment effect of tDCS on adolescents with ASD. Methods: 105 adolescents with ASD will be randomly assigned to active- (n=35), sham- (n=35) tDCS, or no-treatment control (n=35) groups. Twenty minute sessions of 1 mA cathodal stimulation to the left dorsolateral prefrontal cortex (DLPRC) in conjunction with cognitive training exercise will be provided on 10 consecutive weekdays. EEGs, functional near-infrared spectroscopy, and neuropsychological tests will be administered before, 1 day and 6 months after the series of tDCS sessions. Hypothesis: We hypothesized that cathodal (inhibitory) tDCS over the left DLPRC will induce (1) stimulation-linked facilitation of learning and enhanced processing speed and resultant improvement of cognitive functioning, in executive function, relative to the sham-tDCS and the wait-list controls, (2) active-tDCS, but not sham-tDCS and wait-list controls, will modulate the intra- and inter-hemispheric neural connectivity, indexed by altered level EEG theta coherence and aberrant fNIRS haemodynamic measures, across brain areas implicated in executive functioning.

NCT ID: NCT03672266 Recruiting - Alzheimer Disease Clinical Trials

Studies of Brain and Body Interaction

Start date: August 1, 2018
Phase:
Study type: Observational

The goal of this study is to characterize biophysiolgoical signals as a comprehensive profile of the nervous systems in order to understand interactions between the brain and body, while an individual performs naturalistic behaviors (ex. walking, pointing) and while breathing at a slow controlled pace. The investigators aim to study these interactions among a variety of populations, from healthy individuals to those with disorders such as Autism Spectrum Disorder(s), including those who may also have an ADHD (Attention-deficit/hyperactivity disorder) diagnosis, Asperger's Syndrome, Alzheimer's Disease, and/or Fragile X syndrome

NCT ID: NCT03625609 Recruiting - Sexual Behavior Clinical Trials

Sexaffectivity in Autistic Spectrum Disorder

Start date: March 11, 2018
Phase:
Study type: Observational [Patient Registry]

The WHO defines sexual health as a state of physical, emotional, mental and social well-being, related to sexuality, not only the absence of illness, dysfunction or disability. To acquire and maintain adequate sexual health, the sexual rights of all people must be respected, protected and fully exercised. People with Autism Spectrum Disorder (ASD) present difficulties in the development of social interaction skills, among other problems that directly affect their sexual health. The consolidated prejudices and social myths related to the sexual affectivity of people with ASD, and in general to people with intellectual diversity, have meant that they do not pay any attention to the sexual health of this group in the assessment of their needs. Main objectives: to understand the experience lived by young people with ASD and their caregivers in relation to the affective needs during adolescence and to know the cognitive and behavioral expression of the affective dimension of adolescents with ASD. Mixed simultaneous design: qualitative based on the phenomenological paradigm, in order to establish the perceived needs of young adults with ASD, their families and the professionals who attend them, with the realization of focus groups and in-depth interviews. The second quantitative part will be developed in adolescents (12-18 years) and their families, evaluating the habitual behaviors and difficulties of Interaction in the affective expression, by means of questionnaires and self-administered scales. It will be necessary to sign the Informed Consent by all the participants, with the specific acceptance of the project by the CEIC of the investigator's center.

NCT ID: NCT03419611 Recruiting - Clinical trials for Autistic Disorders Spectrum

Word Learning in Children With Autism

Start date: November 1, 2016
Phase: N/A
Study type: Interventional

The project highlights one of the primary areas of research within the KIDDRC— language and communication. The focus is on language and communication in children with autism and minimal verbal skills (less than 20 spoken words). Remaining nonverbal past the age of 5 years has been considered a poor prognostic indicator for future language developments, yet few interventions have been developed to address this problem. The Specific Aims for this project are (1) to further investigate a multimodal intervention for school-age children with minimal verbal skills—defined as less than 20 words spontaneously spoken, signed, or selected via graphic symbol selection—and (2) to identify significant covariates associated with differential responding to the intervention. The research addresses an unmet need to promote spoken word production in children who remain essentially nonverbal well past the ages associated with speech acquisition. The project is also innovative because: a) it investigates a multimodal intervention based on principles of phonotactic probability and neighborhood density in combination with augmentative and alternative communication (AAC), and b) it investigates novel predictors of treatment response that are obtained through cutting-edge technologies. This intervention will have better success than past interventions because the intervention will provide increased input through speech, digitized speech and visual images and additional speech sound practice for words that are comprised of high frequency sounds in the child's repertoire. Extant speech sounds in each participant's repertoire will be identified using LENA™ digitized recordings. Vocabulary words will then be selected based on a child's speech sound repertoire and principles of word learning—words with high probability speech sound sequences will be selected and taught with either multimodal intervention or a treatment as usual condition. Responses to these interventions will be evaluated using a Sequential Multiple Assignment Randomized Trials (SMART) design. Different outcomes may be associated with individual and environmental predictors identified in our previous research. Individual predictors include verbal comprehension, imitation skills, adaptive behavior, nonverbal speech sound repertoire, and communication complexity. Communication complexity will be measured with the Communication Complexity Scale (CCS), developed by the Principal Investigator. Environmental predictors include language input to the child as measured with LENA™ recording devices. Results will determine if the multimodal intervention is more successful than treatment as usual for teaching word productions.