Accepted for/Published in: JMIR Research Protocols
Date Submitted: Jun 24, 2024
Date Accepted: Sep 19, 2024
Warning: This is an author submission that is not peer-reviewed or edited. Preprints - unless they show as "accepted" - should not be relied on to guide clinical practice or health-related behavior and should not be reported in news media as established information.
Methodology for collection, processing, and storage of biological samples in a longitudinal Australian pregnancy cohort: The Newcastle 1000 Study
ABSTRACT
Background:
Research in the developmental origins of health and disease (DOHaD) provides compelling evidence that adverse events during the first 1000 days of life from conception can impact life course health. Despite many decades of research, we are still lacking a complete understanding of the mechanisms underlying some of these associations. The Newcastle 1000 (NEW1000) Study is a comprehensive pregnancy cohort study, based in Newcastle, New South Wales, Australia which will provide detailed data about the first 1000 days of life to investigate the developmental origins of non-communicable disease.
Objective:
NEW1000 is a prospective population-based cohort study which will recruit pregnant women and their partners between 11-14 weeks gestation, with assessments at 20-, 28-, and 36-weeks, birth, 6-weeks and 6-months. The study will provide a longitudinal multisystem approach to phenotyping, supported by robust clinical data and collection of biological samples.
Methods:
This manuscript describes in detail the large variety of samples collected within the study, the method of collection, storage, and utility of the samples within the biobank. With a particular focus on incorporation of the samples into emerging and novel large scale “omics” platforms including genome, microbiome, epigenome, transcriptome, fragmentome, metabolome, proteome, exposome and cell free DNA and RNA. Specifically, this manuscript details the methods used to collect, process and store biological samples including maternal, paternal and fetal blood, microbiome (stool, skin, vaginal, oral), urine, saliva, hair, toenail, placenta, colostrum and breastmilk.
Results:
N/A
Conclusions:
The NEW1000 Study will generate a multigenerational, deeply phenotyped cohort with a comprehensive biobank of samples relevant to a large variety of analyses including multiple ‘-omics’ platforms. Clinical Trial: N/A
Citation
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