The bDNA assay has a narrower linear range for quantitation of HCV viremia than quantitative PCR. Because persons with low HCV titers may respond well to therapy, seropositive persons with negative bDNA results should be retested with PCR-based assays. Similarly, the bDNA assay may underestimate the true degree of HCV viremia in persons with end-stage infection (> 10(7) RNA equivalents/mL of sera). Despite these limitations, the combination of bDNA- and PCR-based assays appears to be optimal for selecting and following patients during interferon therapy.
The natural variability of quantitative virologic measures among human immunodeficiency virus (HIV) type 1-infected persons was prospectively studied in 29 untreated persons with >600 CD4 cells/microL and in 15 persons receiving zidovudine monotherapy who had 400-550 CD4 cells/microL at study entry. Cell- and plasma-associated infectious HIV-1, provirus, and virion RNA were determined monthly as were numbers of CD4 and CD8 cells. HIV-1 replication varied widely among subjects with similar CD4 cell counts. The within-individual variability was significantly less than the variability between subjects for all virologic measures. Plasma virion HIV-1 RNA levels had the least variability. A mathematical model was devised to assess whether a potential therapeutic intervention significantly alters peripheral HIV-1 load. The model indicated that three measurements of plasma RNA would be outside the 95th percentile for the expected change in an individual due to natural variability. This approach can be used to accurately assess a therapeutic intervention among persons with low plasma HIV-1 titers.
The objective of this study was to determine the effect of pregnancy and zidovudine (ZDV) on viral load in HIV-1 infected women. A prospective nonrandomized cohort study was conducted at a university medical center and affiliated clinic and included 44 HIV-1-seropositive pregnant women seen between June 1991 and September 1995. Twenty-three women initiated ZDV therapy during their pregnancy. Seventeen women did not take antiretrovirals, and four women took ZDV prior to and throughout pregnancy. HIV-1 viral load as determined by quantitative peripheral blood mononuclear cell (PBMC) culture and quantitative plasma RNA levels was measured at various times during pregnancy and in the postpartum period. HIV-1 load, by both infectivity and RNA levels, was relatively low and remained stable during pregnancy and through 6 weeks post partum. Initiation of ZDV therapy during pregnancy did not result in a significant decrease in viral load at delivery when controlling for the effect of pregnancy. In those women who received ZDV therapy only during pregnancy, there was a trend toward an increase in viral load measured by PBMC infectivity 6 months post partum compared with the levels before the initiation of ZDV. Mother-to-child transmission of HIV-1 occurred in one of 27 (4%) ZDV-treated women and in two of 16 (12.5%) untreated women. Among HIV-1-infected pregnant women with low viral levels, HIV-1 plasma RNA and infectivity remained stable during and after gestation. Although these results are based on a relatively small number of women and should be considered preliminary, the lack of significant ZDV-associated diminution in viral levels suggests that the protective effect of ZDV on the mother-to-child transmission of HIV-1 may not be due to the reduction in maternal viral levels but, by inference, may be due to the prevention of HIV-1 reverse transcription in the newborn.
Despite co-evolving with humans for centuries and being intensely studied for decades, the immune correlates of protection against Mycobacterium tuberculosis (Mtb) have yet to be fully defined. This lapse in understanding is a major lag in the pipeline for evaluating and advancing efficacious vaccine candidates. While CD4+ T helper 1 (TH1) pro-inflammatory responses have a significant role in controlling Mtb infection, the historically narrow focus on this cell population may have eclipsed the characterization of other requisite arms of the immune system. Over the last decade, the tuberculosis (TB) research community has intentionally and intensely increased the breadth of investigation of other immune players. Here, we review mechanistic preclinical studies as well as clinical anecdotes that suggest the degree to which different cell types, such as NK cells, CD8+ T cells, γ δ T cells, and B cells, influence infection or disease prevention. Additionally, we categorically outline the observed role each major cell type plays in vaccine-induced immunity, including Mycobacterium bovis bacillus Calmette-Guérin (BCG). Novel vaccine candidates advancing through either the preclinical or clinical pipeline leverage different platforms (e.g., protein + adjuvant, vector-based, nucleic acid-based) to purposefully elicit complex immune responses, and we review those design rationales and results to date. The better we as a community understand the essential composition, magnitude, timing, and trafficking of immune responses against Mtb, the closer we are to reducing the severe disease burden and toll on human health inflicted by TB globally.
In response to the SARS-CoV-2 pandemic many vaccines have been developed and evaluated in human clinical trials. The humoral immune response magnitude, composition and efficacy of neutralizing SARS-CoV-2 are essential endpoints for these trials. Robust assays that are reproducibly precise, linear, and specific for SARS-CoV-2 antigens would be beneficial for the vaccine pipeline. In this work we describe the methodologies and clinical qualification of three SARS-CoV-2 endpoint assays. We developed and qualified Endpoint titer ELISAs for total IgG, IgG1, IgG3, IgG4, IgM and IgA to evaluate the magnitude of specific responses to the trimeric spike (S) antigen and total IgG specific to the spike receptor binding domain (RBD) of SARS-CoV-2. We also qualified a pseudovirus neutralization assay which evaluates functional antibody titers capable of inhibiting the entry and replication of a lentivirus containing the Spike antigen of SARS-CoV-2. To complete the suite of assays we qualified a plaque reduction neutralization test (PRNT) methodology using the 2019-nCoV/USA-WA1/2020 isolate of SARS-CoV-2 to assess neutralizing titers of antibodies in plasma from normal healthy donors and convalescent COVID-19 individuals.
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