From Fetus to Eight: the CHILD Cohort Study.

From Fetus to Eight: the CHILD Cohort Study.

Publication date: Oct 11, 2024

The CHILD Cohort Study is an active multi-center longitudinal, prospective, population pregnancy cohort study following Canadian infants from fetal life until adulthood. We hypothesized that early life physical and psychosocial environments interact with biological factors (e. g. immunologic, genetic, physiologic, and metabolic) influencing burdensome non-communicable disease outcomes, including asthma and allergic disorders, growth and development, cardio-metabolic health, and neurodevelopmental outcomes that manifest during the life-course. Detailed clinical and physiologic phenotyping at strategic intervals was complemented by environmental sampling, actigraphy and global positioning system measures, biological sampling including gut, breastmilk and nasal microbiome, nutritional studies, genetics, and epigenetic profiling. Of 3,454 families recruited from 2008 to 2012, study retention was 96. 0% at 1-year, 93. 2% at 5-years and 90. 7% at 8-years. Data collection during the SARS-2 COVID-19 pandemic was partially completed via virtual visits. A sub-cohort was implemented, capturing detailed information on the prevalence and predictors of SARS-CoV-2 infection and the health and psychosocial impact of the pandemic on Canadian families. The 13-year clinical assessment launched in 2022 will be completed in 2025. Ultimately, the CHILD Cohort Study provides a data science platform designed to enable a deep understanding of early life factors associated with the development of chronic non-communicable diseases and multimorbidity.

Concepts Keywords
Breastmilk allergies
Canadian asthma
Environmental cardiovascular health
Neurodevelopmental CHILD cohort study
data science platform
environment
genes
growth trajectories
mental health
microbiome
normative cohort
obesity
pediatrics

Semantics

Type Source Name
disease MESH non-communicable disease
disease MESH asthma
pathway KEGG Asthma
disease MESH COVID-19 pandemic
pathway REACTOME SARS-CoV-2 Infection
disease MESH allergies
disease MESH obesity

Original Article

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