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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Microtransfusion and viral exposure in infants born to HIV-infected women

Warning, Julia Carolyn, Women's & Children's Health, Faculty of Medicine, UNSW January 2008 (has links)
Introduction: Mechanisms facilitating mother-to-child transmission (MTCT) of HIV have not been elucidated. Small quantities of blood pass from mother to infant during childbirth, termed 'microtransfusion'; this is one possible mechanism for HIV entry into the infant's circulation. HIV-specific cellular immune responses have been detected in some uninfected infants born to HIV-infected women, indicating transient virus exposure or replication in these infants. Both microtransfusion and HIV-specific immune responses in infants born to HIV-infected women has not previously been investigated. Methods: 46 uninfected infants born to HIV-infected women were included in this study. Infants were grouped according to interventions utilised by the mother: none or antiretroviral therapy (ART; group A, n = 16), ART with elective caesarean section (elCS; group B, n = 12), highly active antiretroviral therapy (HAART) only (group C, n = 7), and HAART with elCS (group D, n = 11). HLA-A and -B alleles were typed for all mother-baby pairs to identify the non-inherited maternal allele (NIMA). Microtransfusion was detected using flow cytometry or by qPCR targeting the NIMA. HIV-specific immune responses were detected using 51Cr-release and IFN-?????? ELISpot assays. Results: Microtransfusion was detected in umbilical cord blood of 9 of 11 infants, and in peripheral blood of 4 of 11 infants up to 1 week old. One infant without detectable microtransfusion in umbilical cord blood had detectable maternal cells in peripheral blood. 8/46 infants had HIV-specific T cell responses, 5 were in group A, 2 in group B, and 1 in group C, while no infants in group D had detectable responses (p = 0.04). Blood samples from 2 of these 8 infants were also available for the analysis of microtransfusion. Microtransfused maternal cells were present in the umbilical cord blood of both infants. Conclusion: In this study, the number of infants with HIV-specific immune responses decreased with the use of MTCT interventions, indicating reduced exposure to HIV in these infants. This is the first study to demonstrate both microtransfusion and HIV-specific immune responses in uninfected infants. Microtransfusion may facilitate viral exposure, resulting in the development of potentially protective immune responses in infants born to HIV-infected women.
2

Microtransfusion and viral exposure in infants born to HIV-infected women

Warning, Julia Carolyn, Women's & Children's Health, Faculty of Medicine, UNSW January 2008 (has links)
Introduction: Mechanisms facilitating mother-to-child transmission (MTCT) of HIV have not been elucidated. Small quantities of blood pass from mother to infant during childbirth, termed 'microtransfusion'; this is one possible mechanism for HIV entry into the infant's circulation. HIV-specific cellular immune responses have been detected in some uninfected infants born to HIV-infected women, indicating transient virus exposure or replication in these infants. Both microtransfusion and HIV-specific immune responses in infants born to HIV-infected women has not previously been investigated. Methods: 46 uninfected infants born to HIV-infected women were included in this study. Infants were grouped according to interventions utilised by the mother: none or antiretroviral therapy (ART; group A, n = 16), ART with elective caesarean section (elCS; group B, n = 12), highly active antiretroviral therapy (HAART) only (group C, n = 7), and HAART with elCS (group D, n = 11). HLA-A and -B alleles were typed for all mother-baby pairs to identify the non-inherited maternal allele (NIMA). Microtransfusion was detected using flow cytometry or by qPCR targeting the NIMA. HIV-specific immune responses were detected using 51Cr-release and IFN-?????? ELISpot assays. Results: Microtransfusion was detected in umbilical cord blood of 9 of 11 infants, and in peripheral blood of 4 of 11 infants up to 1 week old. One infant without detectable microtransfusion in umbilical cord blood had detectable maternal cells in peripheral blood. 8/46 infants had HIV-specific T cell responses, 5 were in group A, 2 in group B, and 1 in group C, while no infants in group D had detectable responses (p = 0.04). Blood samples from 2 of these 8 infants were also available for the analysis of microtransfusion. Microtransfused maternal cells were present in the umbilical cord blood of both infants. Conclusion: In this study, the number of infants with HIV-specific immune responses decreased with the use of MTCT interventions, indicating reduced exposure to HIV in these infants. This is the first study to demonstrate both microtransfusion and HIV-specific immune responses in uninfected infants. Microtransfusion may facilitate viral exposure, resulting in the development of potentially protective immune responses in infants born to HIV-infected women.

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