Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03104673 |
| Other study ID # |
SMRU1502 Ext |
| Secondary ID |
|
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
April 30, 2017 |
| Est. completion date |
January 28, 2021 |
Study information
| Verified date |
May 2021 |
| Source |
University of Oxford |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
Preterm birth (PTB) occurs before 37 weeks of gestation and is a major cause of neonatal
mortality and morbidity. PTB results from heterogeneous influences. One of them is the
inherited predisposition of spontaneous PTB, and another is the change in the placental
microbial composition as this can cause infections, which lead to inflammation, a common
cause of preterm birth. Interestingly, maternal periodontal disease is an independent risk
factor for PTB, low birth weight and fetal growth restriction. Immune responses to infectious
events or inflammation as well as genetic predisposition to inherited conditions have
successfully been studied by using assessing genetic expression profiling. The molecular
signature is sets of genes, proteins, genetic variants or other variables that can be used as
markers for a particular phenotype.
Child morbidity from malnutrition resulting in poor growth and stunting remains a major
public health issue that affects the local population just like PTB. While risk factors for
malnutrition are multifaceted, there is also a hypothesized causal link between early gut
microbiome disruption that leads to chronic malnutrition in otherwise healthy infants.
Molecular signatures including the intestinal microbiome development of preterm infants will
be evaluated and compared to the term (≥37 weeks' gestation) counterparts. Moreover, a
comprehensive examination of possible factors associated with poor growth and poor motor- and
neurodevelopment will be assessed.
In this extension study: The primary goal for the child is to evaluate the perturbation in
the development of the genomic profile including intestinal microbial habitat from children
in a rural and limited-resource setting from birth to two years of life.
Description:
Rationale:
The importance of early life epigenetics is now recognized to have direct implications for
health in later life and a consistent limitation expressed in peer reviewed publications has
been the small sample size of the studies. Rather than establish a separate cohort to study
epigenetics in young children in this environment this extension study of TMEC 15-062
(Molecular signature of Karen and Burmese women on the Thailand--Myanmar border) aims to
build on the detailed sampling of the mothers to not only identify biomarkers of preterm
labor but also to understand high rates of stunting and anaemia in this area, and possibly
develop predictive tools or pave new ways for prevention in the future.
Moreover, a non-invasive intervention in the form of nutrition and WASH counselling may
provide information on whether this form of engagement can positively influence child
development, prevent malnutrition and whether perturbations in the infants molecular
signature can be observed.
In addition, the mothers exposed to the sampling procedure at birth in this study will be
able to make a well-informed decision about whether they wish to enrol the child in such a
study.
The rationale for the planned samples in children born to mothers who participated in the
TMEC 15-062 study are summarized in the following text:
Child gut microbiome and assessment of nutrition from stool samples (Risk-none) The
intestinal ecosystem is very dynamic, especially in the first period of life, as it needs to
evolve from scratch, hence investigators want to follow children and analyse stool samples in
first 24 month of life. investigators propose to assess what kind of impact the gut
microbiome has on the child's growth and development. Since exposure to helminths is common
in the study population, children stool samples will also be used to examine for helminthic
infestations.
This point would also include a home visit as part of nutrition evaluation by questionnaire
and direct observation (food preparation including hygiene, child food content, feeding
patterns) to relate to microbiome.
Early childhood Transcriptome from capillary blood (Risk-minimum) This point will enable us
to understand whether preterm infants have different gene expression than their term
counterparts and if so, how it evolves in the early period of life. Moreover, specific
signals for children at risk for or suffering from malnutrition or stunting resulting from
gastrointestinal inflammation or barrier disruption could be picked up. Total blood 0.85 mL
in 2 years.
Early childhood detection of anaemia from capillary blood (Risk-minimum) Anaemia will be
treated and iron supplement effect on gut microbiome analysed. Total blood 0.85 mL in 2
years.
Early childhood detection of soil transmitted helminth infection from stool sample
(Risk-none) Helminth infection will be treated and the effect on gut microbiome analysed.
Stool sample each visit.
Child growth assessment and evaluation of motor and neurocognitive development (Risk-none)
Premature infants have a higher risk for lifelong health and development problems.
Investigators propose to follow the children's over the period of 2 years to assess their
growth and their neurocognitive and motor development. Preterm children's growth and
development will be compared to term neonates. The recommended schedule of growth assessment
in healthy children is (1, 2, 4, 6, 9, 12, 18, 24 months). In this study children will be
followed more frequently: monthly in the first year of life and 3 monthly in the 2nd year of
life (1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 15, 18, 21, 24 months). The reasons for this
include: the objective of the root study TMEC 15-062 which is on preterm infants who require
closer follow up, to relate perturbations of biomarkers to stunting, and in this mobile
population scheduled visits may be missed so a more flexible arrangement for checking
anthropometry at any monthly visit in the first year of life reduces the chance that poor
growth is not identified.
In addition, the growth and development of children born to mothers who had a febrile episode
during pregnancy will be compared to children whose mothers did not experience fever episodes
during pregnancy.
Children with poor growth or malnutrition will be given supplementary nutrition and nutrition
advice will be given to the mother.
Grant reference number: B9R01250
