Type 1 Diabetes Mellitus Clinical Trial
Official title:
Nutritional Intervention to Prevent Diabetes
Type 1 Diabetes (T1D) is an autoimmune disease. This means that the immune system (the part
of the body which helps fight infections) mistakenly attacks and destroys the cells that
produce insulin (islet cells found in the pancreas). As these cells are destroyed, the body's
ability to produce insulin decreases.
The autoimmune process is thought to be initiated by a gene-environment interaction. The
genetics involved in the development of T1D are fairly well understood. There is a higher
risk of developing T1D with the presence of the human leukocyte antigen (HLA) DR3 or DR4. It
is also known that not everyone with these genes actually develops T1D. Therefore, one or
more environmental factors are thought to contribute to the process of developing T1D.
The consumption of the anti-inflammatory fatty acids, the omega-3 fatty acids, has decreased
significantly in the past 100 years. At the same time a rise in the incidence of T1D,
especially in young children has occurred. Because of the warnings to eliminate fish during
pregnancy, pregnant women are consuming even less omega-3 fatty acids during fetal
development.
Observations have been made that children who have received omega-3 fatty acid
supplementation have a lower risk of T1D. Omega-3 fatty acids could have a protective effect
that may occur during pregnancy, infancy, or both. The mechanism of this protection may be
due to the DHA mediated suppression of the inflammatory response.
Patients at higher risk for T1D have an increased pro-inflammatory environment. We
hypothesize that DHA supplementation during pregnancy and early childhood will block the
initial pro-inflammatory events and prevent development of islet cell autoimmunity in
children at higher risk for T1D.
This study is a feasibility study to determine if a full-scale DHA supplementation study will
be implemented. If a full study is implemented, the primary outcome will be to determine if
nutritional supplementation with omega-3 fatty acids during the last trimester of a mother's
pregnancy and/or the first three years of life for children who are at higher risk of T1D
will prevent the development of islet autoimmunity.
There are two possible entry pathways for study participants. The first pathway is the entry
point for pregnant mothers in their third trimester (24 weeks gestational age) whose babies
may be at higher risk for T1D based on family history. At birth, or soon after, their babies
will be tested for HLA type (to look for the specific gene which confers a higher risk of
developing T1D). If the HLA typing shows that the baby is at higher risk for T1D and no
protective genes are present, the baby will then continue in the study. The second pathway is
the entry point for babies whose mothers were not enrolled during pregnancy. These babies
will also be tested for HLA type. Their eligibility will be based on the presence of higher
risk genes or the presence of a multiplex family history. This screening process may take
place up until the baby is 5 months old.
Eligible participants (pregnant women or infants) will be randomized to one of the two study
groups: DHA (docosahexaenoic acid) study substance (this is the intervention) or control
study substance (this is the placebo). The DHA (docosahexaenoic acid) to be used in this
trial is produced from algae, not from fish oil, so there is no risk of mercury or pesticide
contamination.
Pregnant and nursing mothers who are assigned to the control group will receive study
capsules containing a vegetable oil and no DHA (docosahexaenoic acid) . Pregnant and nursing
mothers who are assigned to the experimental group will receive study capsules containing DHA
(docosahexaenoic acid) . During pregnancy and while breastfeeding, infants will receive the
study substance indirectly through their mother (either the placenta or breastmilk).
Infants who are either partially or exclusively formula feeding will receive study substance
more directly through the study formula. The control group will receive study formula
containing the typical amount of DHA that can be found in some infant formulas, while infants
in the experimental group will receive study formula containing a larger amount of DHA
(docosahexaenoic acid) than typically found in some infant formulas. By six to twelve months
of age, all infants will get study supplement added to solid foods.
All mothers will have contact with the study site every 3 months. Nursing mothers will
provide samples of breast milk for fatty acids analysis at these visits.
Infants will need to come to follow-up study visits every 6 months. At each of these visits,
the infant will have a limited physical exam and blood drawn from a vein to monitor immune
activity, levels of fatty acid and vitamin D, and to check for diabetes-related
autoantibodies. Infants/children cannot continue in the study if they: (1) develop two
positive autoantibodies, present at two consecutive visits, or (2) develop T1D.
All follow-up study visits will continue for 1-2 years, and possibly an additional 2 years if
a full-scale study is initiated.
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