Asthma in Children Clinical Trial
Official title:
Project 500 CHILD Study
This proposal relates to the testing of several specific hypotheses in a subset of 500 participants in the Canadian Healthy Infant Longitudinal Development (CHILD) Study. These 500 now have complete data from the time of recruitment (in pregnancy) to age 1 year. The primary purpose of this proposal is to identify risk factors for early allergic outcomes and biomarkers that may predict future disease. These 500 infants will provide critical preliminary data, not only related to early outcomes, but also to inform analytical plans for the full CHILD cohort.
The objective of Project 500 is to carefully analyze a complete set of multiple clinical and
environmental questionnaires and selected infant biological samples pertinent to early
clinical outcomes (up to age 1 year). The primary clinical outcomes are recurrent episodes of
wheezing and development of atopy by age 1 year. Atopy is defined by skin allergen responses.
Secondary outcomes include atopic dermatitis or eczema, and reported food allergy. The
investigators propose detailed exploration of patterns of clinical illnesses and will
correlate these with analysis of multiple biomarkers to determine their predictive power.
There is good evidence from longitudinal epidemiological studies and from clinical trials
that allergy is both a common precursor to childhood asthma and also a predictor of
persistence of childhood asthma into adulthood. The "atopic march" is a well recognized
phenomenon in which children develop atopic dermatitis and/or food allergy in early
childhood, and then go on to have recurrent wheezing and persistent atopic asthma in later
childhood and adulthood. The selection of specific hypotheses for examination in Project 500
reflects this phenomenon.
Four specific hypotheses will be tested in "Project 500":
1. Maternal diet in pregnancy influences food sensitization in infancy; specifically
avoidance of foods (e.g. peanuts) is associated with intolerance to that food.
Research on diet and interventions to prevent atopic disease have focused on foods with
anti-inflammatory properties (e.g. n-3 fatty acids), antioxidants (vitamin E and zinc),
and vitamin D. Recent meta-analyses suggest beneficial effects for pre-natal vitamins A,
D, and E, zinc, fruits and vegetables, and the Mediterranean diet. Nutrients may impact
development of asthma through immune modulation or the child's intestinal microbiome. In
spite of, or possibly because of, recommendations for early life avoidance of specific
'highly allergenic' foods including peanut in the 1990s from many national expert
organizations (e.g. Canadian and British Pediatric Societies, American Academy of
Pediatrics) there has been an explosion of food allergy, particularly to peanut in most
high income countries (Miles and Buttriss, Nutrition Bulletin 2010). Intriguingly,
studies have shown a very low prevalence of peanut allergy in Israel where peanut is
commonly introduced in the first year of life compared with England where it is seldom
introduced before the first birthday. This study accounted for a general heritable risk
using children from a similar background (Ashkenazi Jewish) in both countries. (DuToit
et al, JACI 2008). In the Danish National Birth Cohort maternal peanut (RR: 0.66; 95%
CI: 0.44-0.98) and tree nut (RR: 0.83; 95% CI: 0.70-1.00) intake during pregnancy was
associated with decreased risk of asthma in the child at 18 months of age. Intriguingly,
there was no comment on the development of allergy in this cohort. The data being
collected in the CHILD Study will allow the investigators to examine the link between
maternal intake of specific foods such as peanut and the outcome of allergy to that food
in the infant.
2. Low serum 25-hydroxyvitamin D values in infancy are associated with development of early
childhood wheezing. Most, but not all, studies have demonstrated a relationship of
maternal vitamin D insufficiency with wheezing in pre-school children. A meta-analysis
of four large cohort studies found that high maternal vitamin D intake during pregnancy
was protective against wheeze in children. However, a recent publication from the ALSPAC
cohort shows an association of increased wheeze with increased vitamin D levels. One
issue may well be polymorphisms of the Vitamin D receptor in the mother (associated with
vitamin D levels during pregnancy) and in their offspring during the few years of life.
The data obtained in the CHILD Study will provide the opportunity to confirm or negate
the associations between levels of vitamin D and wheezing syndromes in early childhood.
3. Sensitization to cow's milk, egg or peanut, together or separately, at 1 year is a major
risk factor for wheezing episodes in early infancy. Sensitization to foods has been
associated with an increased risk for asthma (Rhodes et al, J Allergy Clin Immunol.
2001;108:720-5 and has recently been included in a modified Asthma Predictive Index
(mAPI) (NEJM 2006;354:1985-97). The mAPI and an m2API have been validated in a small
cohort as good predictors for persistent asthma at school age (Chang T et al, J Allergy
Clin Immunol: In Practice 2013; 1:152-156). As yet unpublished data from a Canadian
cohort show a substantial increased risk (OR 8-10) of persistent asthma in children with
sensitization to a food in the first year of life (verbal communication, Becker A). The
investigators will be able, using CHILD Study data, to examine these early life
sensitization patterns in relation to the occurrence of wheezing episodes, and not only
determine immediate relationships but also follow the children for several years to
validate (or not) the Asthma Predictive Index.
4. Exposures to oxidizing agents in the prenatal period and during the first 3 months of
life influence the development of atopy and wheeze at 1 year. Infants raised in Canada
spend a large majority of time indoors at home. Multiple indoor air exposures have been
associated with wheeze and asthma, environmental tobacco smoke (ETS) being the most
widely recognized. Oxides of nitrogen, associated with gas cooking and heating, are
linked with worsening asthma. Innate immune inflammatory response can be activated by
common indoor exposures, including trichloramines, aldehydes (e.g., formaldehyde) and
other volatile organic compounds (VOCs) in home furnishings and cleaning products.
Recent studies suggest that early-life exposure to ambient air pollution may also contribute
to the development of asthma, with traffic-related air pollution (TRAP) likely playing an
important role. TRAP represents a complex mixture of pollutants (particulate matter, nitrogen
oxides, carbon monoxide, organic compounds) in concentrations that are variable over short
distances, but that also build-up over parts of the city contributing to a variable urban
background. Respiratory health risks are generally highest among those living close to busy
roads with significant truck traffic, but concentration variations across urban areas have
also been associated with incident asthma. The effects of TRAP on airways disease likely also
depend on poorly understood interactions with a range of endogenous or exogenous factors such
as genetics, co-exposures such as allergens and environmental tobacco smoke, and psychosocial
stress. The CHILD Study provides an opportunity to study TRAP in four major cities with
highly variable and well-characterized concentrations, and to examine relationships between
TRAP, indoor air contaminants, and development of wheeze and atopy in early childhood with
the intent of following these children through childhood to determine asthma outcomes.
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