D M Ambrosino scite author profile

D M Ambrosino

4Publications

79Citation Statements Received

98Citation Statements Given

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161

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Affiliations

Boston Children's Hospital, Dana-Farber Cancer Institute, Harvard University

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Effects of Alum Adjuvant or a Booster Dose on Immunogenicity during Clinical Trials of Group B Streptococcal Type III Conjugate Vaccines

et al. 2001

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Phase 1 and 2 clinical trials of group B streptococcal (GBS) capsular polysaccharide (CPS)-protein conjugate vaccines in healthy adults have demonstrated their safety and improved immunogenicity compared with uncoupled CPSs. Two recent trials sought to determine (i) whether adsorption of conjugate vaccine to aluminum hydroxide would improve immunogenicity and (ii) whether the CPS-specific immunoglobulin G (IgG) response could be boosted by administration of a second dose. Adsorption of GBS type III CPS-tetanus toxoid (III-TT) conjugate vaccine to alum did not improve the immune response to a 12.5-g dose in healthy adult recipients. Four weeks after vaccination, the geometric mean antibody concentrations (GMCs) for the 15 recipients of III-TT with or without alum were 3.3 and 3.6 g/ml, respectively. In the second trial, 36 healthy adults vaccinated previously with GBS III-TT conjugate were given a second 12.5-g dose 21 months later. At 4 weeks after the second dose, the GMCs of type III CPS-specific IgG were similar to those measured 4 weeks after the primary vaccination, suggesting a lack of a booster response. However, 8 (22%) of the 36 participants who had undetectable III CPS-specific IgG (<0.05 g/ml) before the first dose of III-TT conjugate exhibited a booster response to the second dose, with a fourfold-greater GMC of type III CPS-specific IgG than after the initial immunization. These results suggest that prior natural exposure to type III GBS or a related antigen may be responsible for the brisk IgG response to CPS noted in most adults after vaccination. However, a second dose of GBS III-TT conjugate vaccine may be required for adults whose initial CPS-specific IgG concentrations are very low and would also restore the initial peak-specific III CPS-IgG in responders to previous vaccination.

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Comparison of multiple immunization schedules for Haemophilus influenzae type b-conjugate and tetanus toxoid vaccines following bone marrow transplantation

Vance

George

Guinan

et al. 1998

Bone Marrow Transplant

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Summary:Antibody concentrations to vaccine-preventable diseases decline following BMT and an optimal schedule for vaccination after transplant has not been established. We examined antibody responses to tetanus toxoid (TT) and Haemophilus influenzae type b-conjugate (HIB) vaccines of BMT patients immunized at 6, 12 and 24 months (6 month group, n = 21) and compared them to those previously reported for patients immunized at 3, 6, 12 and 24 months (3 month group, n = 74) or at 12 and 24 months (12 month group, n = 17) following transplantation. Geometric mean total anti-HIB and IgG anti-TT concentrations were significantly higher after the 12 month dose in the 3 and 6 month immunization groups compared to the group who received their first dose at 12 months. Although HIB antibody concentrations were higher in the 3 month and 6 month groups 12 to 24 months after BMT, the proportion of patients with protective levels was not significantly different from the proportion protected in the 12 month group. Following the 24 month immunizations, geometric mean antibody concentrations to HIB and TT were similar for all three immunization groups. The proportion of patients in each group with protective levels of HIB antibody after the 24 month dose was у80%. A two dose schedule of HIB and TT vaccines at 12 and 24 months after BMT should afford protection. Keywords: immunizations, active; vaccines, conjugate; vaccines, protein; bone marrow transplantationThe reconstitution of immune function following BMT is a gradual process that occurs over several months to years. Specific deficiencies in B cell function as well as delays in recovery of total immunoglobulin and IgG subclass concentrations are present during the first 12-24 months following transplantation.1-3 Alterations in T cell subset profiles and T cell function may persist even longer. Although the severity of immune deficiencies may vary depending on the type of transplant or the presence and treatment of graft-versushost disease, all transplant recipients are at increased risk for infectious complications from a wide range of pathogens following BMT. 4,5 Encapsulated bacteria, including Haemophilus influenzae type b (HIB) and Streptococcus pneumoniae, are causes of late (у100 days post BMT) infections. 3,[5][6][7] One potential approach to reduce the incidence of late bacterial infections is through immunization. Poor responses of patients to pure polysaccharide vaccines have limited their usefulness in the BMT setting. [7][8][9] In contrast, polysaccharide-conjugate vaccines which link a protein carrier to bacterial capsular polysaccharides elicit T cell-mediated responses and are more immunogenic. Immunization of transplant recipients with HIB-conjugate vaccine 18-24 months following BMT has produced reliable antibody responses.10,11 A booster response to a second dose of HIB-conjugate vaccine administered late after transplant has also been demonstrated.

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Rifampin chemoprophylaxis for household contacts of patients with invasive infections due to Haemophilus influenzae type b

Daum

Glodé

Goldmann³

et al. 1981

The Journal of Pediatrics

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Impaired human responses to tetanus toxoid in vitamin A-deficient SCID mice reconstituted with human peripheral blood lymphocytes

et al. 1995

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Vitamin A deficiency is associated with increased childhood morbidity and mortality from respiratory and diarrheal diseases. In order to evaluate the effect of vitamin A on human antibody responses, we developed a vitamin A-deficient severe combined immunodeficient (SCID) mouse model. Vitamin A-deficient mice were produced by depriving them of vitamin A at day 7 of gestation. Mice were reconstituted with human peripheral blood lymphocytes (huPBL) from tetanus toxoid immune donors at 6 weeks of age and immunized with tetanus toxoid at 6 and 8 weeks of age. Secondary human antibody responses were determined 10 days later. The geometric mean human anti-tetanus toxoid immunoglobulin G concentrations were 3.75 micrograms/ml for the deficient mice and 148 micrograms/ml for controls (P = 0.0005). Vitamin A-deficient mice had only a 2.9-fold increase in human anti-tetanus toxoid antibody compared with a 74-fold increase in controls (P < 0.01). Supplementation with vitamin A prior to reconstitution restored human antibody responses to normal. These data suggest that vitamin A deficiency impairs human antibody responses. We speculate that impaired responses could increase susceptibility to certain infections. Furthermore, we propose that effects of other nutritional deficiencies on the human immune system could be evaluated in the SCID-huPBL model.

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D M Ambrosino

Effects of Alum Adjuvant or a Booster Dose on Immunogenicity during Clinical Trials of Group B Streptococcal Type III Conjugate Vaccines

Comparison of multiple immunization schedules for Haemophilus influenzae type b-conjugate and tetanus toxoid vaccines following bone marrow transplantation

Rifampin chemoprophylaxis for household contacts of patients with invasive infections due to Haemophilus influenzae type b

Impaired human responses to tetanus toxoid in vitamin A-deficient SCID mice reconstituted with human peripheral blood lymphocytes

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