Clinical Trial: Efficacy of Newborn Vitamin A Supplementation in Improving Immune Function

Study Status: Completed
Recruit Status: Completed
Study Type: Interventional

Official Title: Efficacy of Newborn Vitamin A Supplementation in Improving Immune Function

Brief Summary: Vitamin A supplementation at birth may increase survival of infants through one year of age by reducing mortality from infectious diseases, though current studies are not conclusive on this point. The goal of our study is to determine if supplementation of newborn infants with 50,000 IU of vitamin A improves aspects of immune function that may be impaired by vitamin A deficiency. Our underlying assumption is that supplementation may thus decrease risk of death by improving immune function and the ability to survive infections. This project will be limited to the examination of the impact of vitamin A on immune function and will not aim to determine the impact on morbidity or mortality, which would require larger sample sizes. The hypotheses addressed by this study are as follows: Provision of vitamin A supplements to newborns at risk of vitamin A deficiency will (1) improve functioning of the thymus (the source of T lymphocytes, cells of the immune system that are important in response to infection and immunization); (2) enhance T lymphocyte-mediated responses to standard vaccines given at birth and early in infancy; and (3) improve gut barrier function (i.e., ability to prevent bacterial infection across the epithelial barrier), relative to provision of a placebo.

Detailed Summary: This project will examine the effect of vitamin A supplementation (50,000 IU) or placebo given with BCG and oral polio virus (OPV) immunization within 48 h of birth on immune function in 300 Bangladeshi infants (150 in each group) at risk of vitamin A deficiency recruited in a poor community of Dhaka, Bangladesh. Infants will be followed from birth through 15 wk of age. Current evidence from community-based mortality trials is not conclusive but suggests that such supplementation will decrease infant mortality from infectious disease through 6 m of age. The biological mechanism underlying this potential benefit is unclear but is presumed to include improving immune function. The investigators hypothesize that vitamin A supplementation at birth prevents vitamin A deficiency during a critical window of a few days to weeks when the immune system is first exposed to both normal, non-pathogenic organisms (e.g., commensal gut flora) and to potential pathogens. During this period the investigators propose that vitamin A supplementation will improve three aspects of immune function that will have sustained benefits throughout infancy: (1) normal thymus maturation and function; (2) development and mucosal targeting of adaptive immune responses, including regulatory T-cells (Treg), T-helper type 2 (Th2) cells, and IgA-secreting plasma cells and memory B-cells; and (3) mucosal barrier function. The three specific objectives of our project are: (1) Determine if vitamin A supplementation improves thymus maturation and function as indicated by ultrasonic analysis of thymus size and by analysis of thymic output of naïve T-cells using flow cytometric analysis of peripheral blood T-cells and by quantification of T-cell-receptor excision circles (TRECs) in peripheral blood. (2) Determine if vitamin A supplementation at birth alters (2.1) the T-cell response to BCG and OPV immunization assessed at 6 and 15 wk of age; (2.2) the T- and B-cell response to OPV immunization, assessed
Sponsor: USDA, Western Human Nutrition Research Center

Current Primary Outcome:

  • Thymus size measured by ultrasound [ Time Frame: through 15 wk of age ]
    Thymus size will be assessed sonographically using a validated method in which the transverse diameter of the thymus and the sagittal area of its largest lobe are multiplied to give a volume-related thymic index (TI). This index has been shown to correlate with thymus weight and has been used to show that the human thymus is sensitive to environmental influences during infancy.
  • peripheral blood naive T-helper lymphocyte concentration [ Time Frame: through 15 wk of age ]
    Naive and memory CD4 T lymphocytes will be measured by flow cytometric analysis using the CD45RA and CD45RO markers to identify naive and memory CD4+ T-cells, respectively. Naive T cells develop in the thymus and their level in peripheral blood is an index of thymic function.
  • T-cell receptor excision circle (TREC) level in peripheral blood mononuclear cells (PBMC) [ Time Frame: through 15 wk of age ]
    Thymic T-cell production can be assessed by measuring signal-joint T cell receptor excision circles (TRECs) as a traceable molecular marker in newly produced naive T-cells. Thus, the content of TRECs in peripheral blood is an indicator of thymopoiesis or newly synthesized and exported naive T-cells. TREC assessment will be conducted in the stored peripheral blood mononuclear cells (PBMC) isolated from infant's blood by standard Ficoll density gradient methods.
  • T-cell response to BCG (Bacillus Calmette-Guérin; to protect against tuberculosis) and oral polio virus (OPV) immunization [ Time Frame: through 15 wk of age ]

    Original Primary Outcome: Same as current

    Current Secondary Outcome:

    • vitamin A status by modified, relative dose-response (MRDR) test [ Time Frame: through 15 wk of age ]
      vitamin A status will be measured using the MRDR in a subset of 30 subjects in each study arm.
    • bulging fontanelle [ Time Frame: 48 h after vitamin A dosing ]
      The crainial fontanelle will be examined by study personnel to identify "bulging" as in indication of increased intracranial volume.


    Original Secondary Outcome: Same as current

    Information By: USDA, Western Human Nutrition Research Center

    Dates:
    Date Received: April 14, 2012
    Date Started: January 2012
    Date Completion:
    Last Updated: August 22, 2014
    Last Verified: August 2014