Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT05038748 |
| Other study ID # |
201810048RIND |
| Secondary ID |
|
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
January 1, 2019 |
| Est. completion date |
December 31, 2020 |
Study information
| Verified date |
January 2021 |
| Source |
National Taiwan University Hospital |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
The primary aims are to identify important gut microbiota signatures for youth with ASD, to
identify dysbiosis features for different levels of ASD features and clinical courses, to
search the possibility to intervene the disease course if we can tease out the dysbiosis
responsible for the flare-up and improvement of the symptoms of the disease. The secondary
aims are to identify the clinical and neuropsychological measures that are associated with
direct and indirect regulation or interactions from gut-brain axis signaling, and based our
preliminary results on reducing the measures for future large-scale microbiome study in ASD.
Description:
Background: Despite increased public awareness of autism spectrum d isorder (ASD) and
extensive research on this neurodevelopmental disorder in the past decades, the underlying
mechanisms of ASD remain unclear, and ASD is still recognized as having the highest disease
and care burden among child psychiatric disorders regarding its long-term impairment across
the lifespan. Hence, identifying the biomarkers for early detection and effective biological
treatments for ASD is among the most challenging tasks all over the world. The concerns about
physical comorbidities such as immune dysregulation, allergy, and gastrointestinal issues,
etc. emerged in the recent decade. Hence, the new perspective of searching for the underlying
mechanism for ASD also targets the associations between microbiota and ASD. However, despite
many microbiome studies in ASD, they provided limited knowledge about the specific link that
particular imbalance gut bacteria could affect the behavioral deficits in ASD because lack of
consideration of the clinical and genetic heterogeneity of ASD. With only a few studies
examining the well-defined ASD-related impairments, the GI system dysfunction, and the
microbiomes, the associations among ASD-related symptoms, GI symptoms, and microbiota remain
indistinct. Therefore, the investigators propose this pilot study to fill the gap between the
potential role of microbiome as a biomarker for ASD to facilitate developing the treatment
for ASD.
Method and material: The case-sibling control study design will be used to investigate
microbiome in 60 probands with ASD, aged 7-25 yrs old, and 30 unaffected siblings either from
the PI Gau's ASD cohort or the Department of Psychiatry, National Taiwan University Hospital.
The parents of all the subjects will receive the Autism Diagnostic Interview-Revised (ADI-R)
interviews and report on the questionnaires regarding autistic symptoms, emotional/behavioral
problems, social functions, G-I symptoms, and life quality. The ASD and sibling subjects will
receive the Autism Diagnostic Observation Scale and neuropsychological tasks. The experiment
of microbiome will be conducted by the core lab of microbiome (co-PI Ni) at the college of
medicine, National Taiwan University. The data analyses will combine microbiomics and the
extensive behaviors/cognitive function variables to establish an objective potential
pipeline.
Anticipated outcome: With the accomplishment of this project, the investigators will
establish the comprehensive yet fewer bios for the ASD risk bio-factors in Asia, and provide
the potential clinical interview and assessments related to GI symptoms regulated by
microbiota. The potential biomarkers may be further used to developing the treatment for ASD.
Significance: Several features of this project constitute its significance: a wealth of
measures of ASD phenotypes (valid phenotype), ASD as a catastrophic disease (importance), the
first ASD study with unaffected sibling design for microbiomics studies in ASD (originality),
and new approaches and technologies (novelty) for searching microbiomics in ASD.
