An automated solid phase antibody screen (SPAS) in microplates has been developed. Red blood cell (RBC) adherence was used as the end point instead of agglutination. Consequently, positive and negative reactions were readily distinguished by a microplate spectrophotometer. The SPAS performed as well as conventional antiglobulin methods for detecting IgG antibodies in donor sera and had increased sensitivity as determined by serial dilutions of antibodies.
Brain tumors are highly resistant to treatment. Their diffuse infiltrative nature and the relative inaccessibility of the brain to blood and lymph are barriers to surgical and cytotoxic treatments alike. Preclinical animal studies demonstrated that intravenously administered tumor antigen-specific T lymphocytes will reject tumors growing in the brain. Specifically activated effector T lymphocytes may be generated by in vivo immunization followed by restimulation of antigen-primed T cells with autologous tumor cells in vitro. In order to apply these findings to humans, feasibility studies of combined active immunization and specific adoptive cellular immunotherapy were performed on fifteen patients with recurrent astrocytoma. The objective was to determine whether; 1) T cells could be grown from peripheral blood of patients immunized with autologous tumor cells, and 2) whether stimulated cells could be safely readministered to patients. Patients were immunized with a combination of their own irradiated tumor cells and Bacillus of Calmette and Guerin. Two weeks later a mononuclear cell-rich fraction of blood was obtained by leukapheresis. Mononuclear cells were cultured with irradiated autologous tumor cells and interleukin-2. Selective expansion of CD4+ and CD8+ T lymphocytes occurred. Intravenous transfer of stimulated cells to the fifteen patients on twenty-four separate occasions with or without systemic administration of interleukin-2 was tolerated with limited toxicity. The studies established the feasibility of conducting controlled studies of the anti-tumor effects of tumor antigen-specific cellular immunotherapy.
Titers of antibody to cytomegalovirus (CMV) of 529 persons whose blood had been supplied to 51 selected patients who underwent open-heart surgery were determined by indirect hemagglutination (IHA) and IgM-specific indirect immunofluorescence (IFA). Twenty-eight patients showed evidence of active CMV infection after transfusion (seroconversion or a fourfold rise in titer by IHA), whereas 23 showed no serological change. Patients with active CMV infections had received, on average, a greater number of blood units (12.9 vs. 7.9), of which more were seropositive (6.9 vs. 3.5), than did patients who showed no serological change. Those seropositive units of blood that had been transfused into the group that showed evidence of active infection, however, had a lower geometric mean titer than did those transfused into the group that showed no serological change (1:654 vs. 1:1,360). Seven (1.3%) of the 529 blood donors had CMV-specific IgM titers (by IFA) of greater than or equal to 1:16; each of the seven recipients of their blood subsequently showed evidence of active CMV infection. This study suggests that donor blood with high IHA titers may prevent transmission of CMV infection, whereas blood from donors with IgM antibody to CMV may transmit CMV.
A suspected nosocomial outbreak of parvovirus B19 infection in a maternity ward was investigated in February 1994. Questionnaires were administered and sera collected from maternity ward staff (n = 91), other ward staff in the same hospital (n = 101), and maternity ward staff at a nearby hospital (n = 81). Blood donors (n = 265) were used as community controls. Recent infection (parvovirus B19 IgM positivity) in susceptible persons (parvovirus B19 IgG-negative or IgM-positive) was common among all 4 groups (23%-30%). This high rate of recent infection occurred during a large community outbreak of fifth disease. Environmental samples collected from a room where a stillborn parvovirus B19-infected fetus was delivered were positive for parvovirus B19 DNA. Thus, this suspected nosocomial outbreak actually reflected transmission outside the hospital, but contaminated environmental surfaces were identified as one potential source for transmission of parvovirus B19.
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