Last data update: Jan 13, 2025. (Total: 48570 publications since 2009)
Records 1-12 (of 12 Records) |
Query Trace: Kulkarni PS[original query] |
---|
Characterizing dynamic atmosphere generation system performance for analytical method development
Doepke A , Streicher RP , Shaw PB , NAndrews R , Farwick DR , Westbrook EG , Roberts JL , O'Connor PF , Stastny AL , Kulkarni PS . J Occup Environ Hyg 2024 1-13 A significant portion of the work of developing and validating methods for volatile organic compound (VOC) sampling in workplace atmospheres involves the use of laboratory-generated atmospheres. The sample variability was evaluated from the dynamic atmosphere generation system used for VOC atmosphere generation and sampling. Characterization of the bias and variability of samples was done for a variety of atmospheres containing neat n-heptane and mixtures of VOCs sampled on activated coconut shell charcoal. Estimates of sampling variability ranged from 2% for neat n-heptane to 12% for a component in the 10 VOC mix. Sample variability increased for lower concentration samples and for mixtures of VOCs compared to single component atmospheres. This study can serve as a baseline for future atmosphere sampling experiments evaluating performance at lower concentrations and mixed VOC environments. |
Proceedings of the dengue endgame summit: Imagining a world with dengue control
Wegman AD , Kalimuddin S , Marques ETA , Adams LE , Rothman AL , Gromowski GD , Wang TT , Weiskopf D , Hibberd ML , Alex Perkins T , Christofferson RC , Gunale B , Kulkarni PS , Rosas A , Macareo L , Yacoub S , Eong Ooi E , Paz-Bailey G , Thomas SJ , Waickman AT . Vaccine 2024 The first dengue "endgame" summit was held in Syracuse, NY over August 9 and 10, 2023. Organized and hosted by the Institute for Global Health and Translational Sciences at SUNY Upstate Medical University, the gathering brought together researchers, clinicians, drug and vaccine developers, government officials, and other key stakeholders in the dengue field for a highly collaborative and discussion-oriented event. The objective of the gathering was to discuss the current state of dengue around the world, what dengue "control" might look like, and what a potential roadmap might look like to achieve functional dengue control. Over the course of 7 sessions, speakers with a diverse array of expertise highlighted both current and historic challenges associated with dengue control, the state of dengue countermeasure development and deployment, as well as fundamental virologic, immunologic, and medical barriers to achieving dengue control. While sustained eradication of dengue was considered challenging, attendees were optimistic that significant reduction in the burden of dengue can be achieved by integration of vector control with effective application of therapeutics and vaccines. |
A phase 3, double-blind, randomized, active controlled study to evaluate the safety of MenAfriVac in healthy Malians
Tapia MD , Sow SO , Haidara FC , Diallo F , Doumbia M , Enwere GC , Paranjape G , Herve J , Bouma E , Parulekar V , Martellet L , Chaumont J , Plikaytis BD , Tang Y , Kulkarni PS , Hartmann K , Preziosi MP . Clin Infect Dis 2015 61 Suppl 5 S507-13 BACKGROUND: A safe, affordable, and highly immunogenic meningococcal A conjugate vaccine (PsA-TT, MenAfriVac) was developed to control epidemic group A meningitis in Africa. Documentation of the safety specifications of the PsA-TT vaccine was warranted, with sufficient exposure to detect potential rare vaccine-related adverse reactions. METHODS: This phase 3, double-blind, randomized, active controlled clinical study was designed to evaluate the safety-primarily vaccine-related serious adverse events (SAEs)-up to 3 months after administration of a single dose of the PsA-TT vaccine to subjects aged 1-29 years in Mali. Safety outcomes were also compared to those following a single dose of a licensed meningococcal ACWY polysaccharide vaccine (PsACWY). RESULTS: No vaccine-related SAEs occurred during the 3 months of follow-up of 4004 subjects vaccinated with a single dose of PsA-TT. When compared to PsACWY (1996 subjects), tenderness at the injection site appeared to be more frequent in the PsA-TT group. However, rates of local induration, systemic reactions, adverse events (AEs), and SAEs were similar in both groups, and unsolicited AEs and SAEs were all unrelated to the study vaccines. CONCLUSIONS: The study confirmed on a large scale the excellent safety profile of a single dose of PsA-TT when administered to its entire target population of 1-29 years of age. |
Human complement bactericidal responses to a group A meningococcal conjugate vaccine in Africans and comparison to responses measured by 2 other group A immunoassays
Price GA , Hollander AM , Plikaytis BD , Mocca BT , Carlone G , Findlow H , Borrow R , Sow SO , Diallo A , Idoko OT , Enwere GC , Elie C , Preziosi MP , Kulkarni PS , Bash MC . Clin Infect Dis 2015 61 Suppl 5 S554-62 BACKGROUND: PsA-TT (MenAfriVac) is a conjugated polysaccharide vaccine developed to eliminate group A meningococcal disease in Africa. Vaccination of African study participants with 1 dose of PsA-TT led to the production of anti-A polysaccharide antibodies and increased serum bactericidal activity measured using rabbit complement (rSBA). Bactericidal responses measured with human complement (hSBA) are presented here. METHODS: Sera collected before and at 28 days and 1 year after vaccination with either PsA-TT or quadrivalent polysaccharide vaccine (PsACWY) from a random, age-distributed 360-subject subset of the Meningitis Vaccine Project study of PsA-TT in Africans aged 2-29 years were tested for hSBA. Geometric mean titer, fold-rise, and threshold analyses were compared between vaccine groups and age groups. hSBA, rSBA, and immunoglobulin G (IgG) enzyme-linked immunosorbent assay (ELISA) results were compared and assay correlation and agreement determined. RESULTS: hSBA responses to PsA-TT were substantially higher than those to PsACWY at 28 days and 1 year following immunization, similar to previously reported rSBA and IgG results. The hSBA and IgG ELISA results identified differences between age groups that were not evident by rSBA. The rSBA data indicated sustained high titers 1 year after immunization, whereas hSBA GMTs at 1 year approached 4 in young children. CONCLUSIONS: The high level of protection following PsA-TT immunization campaigns is consistent with the strong hSBA immune responses observed here. Future implementation decisions will likely depend on immunologic data and their long-term correlation with disease and carriage prevention. Expanded immunologic and epidemiologic surveillance may improve the interpretation of differences between these immunoassays. |
Immunogenicity of yellow fever vaccine coadministered with MenAfriVac in healthy infants in Ghana and Mali
Roy Chowdhury P , Meier C , Laraway H , Tang Y , Hodgson A , Sow SO , Enwere GC , Plikaytis BD , Kulkarni PS , Preziosi MP , Niedrig M . Clin Infect Dis 2015 61 Suppl 5 S586-93 BACKGROUND: Yellow fever (YF) is still a major public health problem in endemic regions of Africa and South America. In Africa, one of the main control strategies is routine vaccination within the Expanded Programme on Immunization (EPI). A new meningococcal A conjugate vaccine (PsA-TT) is about to be introduced in the EPI of countries in the African meningitis belt, and this study reports on the immunogenicity of the YF-17D vaccines in infants when administered concomitantly with measles vaccine and PsA-TT. METHODS: Two clinical studies were conducted in Ghana and in Mali among infants who received PsA-TT concomitantly with measles and YF vaccines at 9 months of age. YF neutralizing antibody titers were measured using a microneutralization assay. RESULTS: In both studies, the PsA-TT did not adversely affect the immune response to the concomitantly administered YF vaccine at the age of 9 months. The magnitude of the immune response was different between the 2 studies, with higher seroconversion and seroprotection rates found in Mali vs Ghana. CONCLUSIONS: Immunogenicity to YF vaccine is unaffected when coadministered with PsA-TT at 9 months of age. Further studies are warranted to better understand the determinants of the immune response to YF vaccine in infancy.. |
Antibody persistence 1-5 years following vaccination with MenAfriVac in African children vaccinated at 12-23 months of age
Tapia MD , Findlow H , Idoko OT , Preziosi MP , Kulkarni PS , Enwere GC , Elie C , Parulekar V , Sow SO , Haidara FC , Diallo F , Doumbia M , Akinsola AK , Adegbola RA , Kampmann B , Chaumont J , Martellet L , Marchetti E , Viviani S , Tang Y , Plikaytis BD , Marc LaForce F , Carlone G , Borrow R . Clin Infect Dis 2015 61 Suppl 5 S514-20 BACKGROUND: Following mass vaccination campaigns in the African meningitis belt with group A meningococcal conjugate vaccine, MenAfriVac (PsA-TT), disease due to group A meningococci has nearly disappeared. Antibody persistence in healthy African toddlers was investigated. METHODS: African children vaccinated at 12-23 months of age with PsA-TT were followed for evaluation of antibody persistence up to 5 years after primary vaccination. Antibody persistence was evaluated by measuring group A serum bactericidal antibody (SBA) with rabbit complement and by a group A-specific IgG enzyme-linked immunosorbent assay (ELISA). RESULTS: Group A antibodies measured by SBA and ELISA were shown to decline in the year following vaccination and plateaued at levels significantly above baseline for up to 5 years following primary vaccination. CONCLUSIONS: A single dose of PsA-TT induces long-term sustained levels of group A meningococcal antibodies for up to 5 years after vaccination. |
Antibody persistence at 1 and 4 years following a single dose of MenAfriVac or quadrivalent polysaccharide vaccine in healthy subjects aged 2-29 years
Diallo A , Sow SO , Idoko OT , Hirve S , Findlow H , Preziosi MP , Elie C , Kulkarni PS , Parulekar V , Diarra B , Cheick Haidara F , Diallo F , Tapia M , Akinsola AK , Adegbola RA , Bavdekar A , Juvekar S , Chaumont J , Martellet L , Marchetti E , LaForce MF , Plikaytis BD , Enwere GC , Tang Y , Borrow R , Carlone G , Viviani S . Clin Infect Dis 2015 61 Suppl 5 S521-30 BACKGROUND: Mass vaccination campaigns of the population aged 1-29 years with 1 dose of group A meningococcal (MenA) conjugate vaccine (PsA-TT, MenAfriVac) in African meningitis belt countries has resulted in the near-disappearance of MenA. The vaccine was tested in clinical trials in Africa and in India and found to be safe and highly immunogenic compared with the group A component of the licensed quadrivalent polysaccharide vaccine (PsACWY). Antibody persistence in Africa and in India was investigated. METHODS: A total of 900 subjects aged 2-29 years were followed up for 4 years in Senegal, Mali, and The Gambia (study A). A total of 340 subjects aged 2-10 years were followed up for 1 year in India (study B). In study A, subjects were randomized in a 2:1 ratio, and in study B a 1:1 ratio to receive either PsA-TT or PsACWY. Immunogenicity was evaluated by measuring MenA serum bactericidal antibody (SBA) with rabbit complement and by a group A-specific immunoglobulin G (IgG) enzyme-linked immunosorbent assay. RESULTS: In both studies, substantial SBA decay was observed at 6 months postvaccination in both vaccine groups, although more marked in the PsACWY group. At 1 year and 4 years (only for study A) postvaccination, SBA titers were relatively sustained in the PsA-TT group, whereas a slight increasing trend, more pronounced among the youngest, was observed in the participants aged <18 years in the PsACWY groups. The SBA titers were significantly higher in the PsA-TT group than in the PsACWY group at any time point, and the majority of subjects in the PsA-TT group had SBA titers ≥128 and group A-specific IgG concentrations ≥2 microg/mL at any point in time in both the African and Indian study populations. CONCLUSIONS: Four years after vaccination with a single dose of PsA-TT vaccine in Africa, most subjects are considered protected from MenA disease. CLINICAL TRIALS REGISTRATION: PsA-TT-003 (ISRCTN87739946); PsA-TT-003a (ISRCTN46335400). |
Safety and immunogenicity of dry powder measles vaccine administered by inhalation: a randomized controlled Phase I clinical trial
Agarkhedkar S , Kulkarni PS , Winston S , Sievers R , Dhere RM , Gunale B , Powell K , Rota PA , Papania M . Vaccine 2014 32 (50) 6791-7 BACKGROUND: Measles is a highly infectious respiratory disease which causes 122,000 deaths annually. Although measles vaccine is extremely safe and effective, vaccine coverage could be improved by a vaccine that is more easily administered and transported. We developed an inhalable dry powder measles vaccine (MVDP) and two delivery devices, and demonstrated safety, immunogenicity, and efficacy of the vaccine in preclinical studies. Here we report the first clinical trial of MVDP delivered by inhalation. METHODOLOGY: Sixty adult males aged 18 to 45 years, seropositive for measles antibody, were enrolled in this controlled Phase I clinical study. Subjects were randomly assigned in 1:1:1 ratio to receive either MVDP by Puffhaler((R)) or by Solovent devices or the licensed subcutaneous measles vaccine. Adverse events (AEs) were recorded with diary cards until day 28 post-vaccination and subjects were followed for 180 days post-vaccination to assess potential serious long term adverse events. Measles antibody was measured 7 days before vaccination and at days 21 and 77 after vaccination by ELISA and a plaque reduction neutralization test. RESULTS: All subjects completed the study according to protocol. Most subjects had high levels of baseline measles antibody. No adverse events were reported. MVDP produced serologic responses similar to subcutaneous vaccination. CONCLUSIONS: MVDP was well tolerated in all subjects. Most subjects had high baseline measles antibody titer which limited ability to measure the serologic responses, and may have limited the adverse events following vaccination. Additional studies in subjects without pre-existing measles antibody are needed to further elucidate the safety and immunogenicity of MVDP. |
The impact of pre-existing antibody on subsequent immune responses to meningococcal A-containing vaccines
Idoko OT , Okolo SN , Plikaytis B , Akinsola A , Viviani S , Borrow R , Carlone G , Findlow H , Elie C , Kulkarni PS , Preziosi MP , Ota M , Kampmann B . Vaccine 2014 32 (33) 4220-7 Major epidemics of serogroup A meningococcal meningitis continue to affect the African meningitis belt. The development of an affordable conjugate vaccine against the disease became a priority for World Health Organization (WHO) in the late 1990s. Licensing of meningococcal vaccines has been based on serological correlates of protection alone, but such correlates might differ in different geographical regions. If high pre-vaccination antibody concentrations/titers impacts on the response to vaccination and possibly vaccine efficacy, is not clearly understood. We set out to define the pre-vaccination Meningococcal group A (Men A) antibody concentrations/titers in The Gambia and study their impact on the immunogenicity of Men A containing vaccines. Data from subjects originally enrolled in studies to test the safety and immunogenicity of the MenA vaccine recently developed for Africa meningococcal A polysaccharide conjugated to tetanus toxoid, MenAfriVac(R) (PsA-TT) were analyzed. Participants had been randomized to receive either the study vaccine PsA-TT or the reference quadrivalent plain polysaccharide vaccine containing meningococcal groups A, C, W, and Y, Mencevax(R) ACWY, GlaxoSmithKline (PsACWY) in a 2:1 ratio. Venous blood samples were collected before and 28 days after vaccination. Antibodies were assayed by enzyme-linked immunosorbent assay (ELISA) for geometric mean concentrations and serum bactericidal antibody (SBA) for functional antibody. The inter age group differences were compared using ANOVA and the pre and post-vaccination differences by t test. Over 80% of the ≥19 year olds had pre-vaccination antibody concentrations above putatively protective concentrations as compared to only 10% of 1-2 year olds. Ninety-five percent of those who received the study vaccine had ≥4-fold antibody responses if they had low pre-vaccination concentrations compared to 76% of those with high pre-vaccination concentrations. All subjects with low pre-vaccination titers attained ≥4-fold responses as compared to 76% with high titers where study vaccine was received. Our data confirm the presence of high pre-vaccination Men A antibody concentrations/titers within the African meningitis belt, with significantly higher concentrations in older individuals. Although all participants had significant increase in antibody levels following vaccination, the four-fold or greater response in antibody titers were significantly higher in individuals with lower pre-existing antibody titers, especially after receiving PsA-TT. This finding may have some implications for vaccination strategies adopted in the future. |
Immunogenicity and safety of a new meningococcal A conjugate vaccine in Indian children aged 2-10 years: a phase II/III double-blind randomized controlled trial
Hirve S , Bavdekar A , Pandit A , Juvekar S , Patil M , Preziosi MP , Tang Y , Marchetti E , Martellet L , Findlow H , Elie C , Parulekar V , Plikaytis B , Borrow R , Carlone G , Kulkarni PS , Goel A , Suresh K , Beri S , Kapre S , Jadhav S , Preaud JM , Viviani S , Laforce FM . Vaccine 2012 30 (45) 6456-60 This study compares the immunogenicity and safety of a single dose of a new meningococcal A conjugate vaccine (PsA-TT, MenAfriVac, Serum Institute of India Ltd., Pune) against the meningococcal group A component of a licensed quadrivalent meningococcal polysaccharide vaccine (PsACWY, Mencevax ACWY((R)), GSK, Belgium) 28 days after vaccination in Indian children. This double-blind, randomized, controlled study included 340 Indian children aged 2-10 years enrolled from August to October 2007; 169 children received a dose of PsA-TT while 171 children received a dose of PsACWY. Intention-to-treat analysis showed that 95.2% of children in PsA-TT group had a ≥4-fold response in serum bactericidal titers (rSBA) 28 days post vaccination as compared to 78.2% in the PsACWY group. A significantly higher rSBA GMT (11,209, 95%CI 9708-12,942) was noted in the PsA-TT group when compared to PsACWY group (2838, 95%CI 2368-3401). Almost all children in both vaccine groups had a ≥4-fold response in group A-specific IgG concentration but the IgG GMC was significantly greater in the PsA-TT group (89.1mug/ml, 95%CI 75.5-105.0) when compared to the PsACWY group (15.3mug/ml, 95%CI 12.3-19.2). Local and systemic reactions during the 4 days after immunization were similar for both vaccine groups except for tenderness (30.2% in PsA-TT group vs 12.3% in PsACWY group). None of the adverse events or serious adverse events was related to the study vaccines. We conclude that MenAfriVac is well tolerated and significantly more immunogenic when compared to a licensed polysaccharide vaccine, in 2-to-10-year-old Indian children. |
Immunogenicity and safety of a meningococcal A conjugate vaccine in Africans
Sow SO , Okoko BJ , Diallo A , Viviani S , Borrow R , Carlone G , Tapia M , Akinsola AK , Arduin P , Findlow H , Elie C , Haidara FC , Adegbola RA , Diop D , Parulekar V , Chaumont J , Martellet L , Diallo F , Idoko OT , Tang Y , Plikaytis BD , Kulkarni PS , Marchetti E , LaForce FM , Preziosi MP . N Engl J Med 2011 364 (24) 2293-304 BACKGROUND: Group A meningococci are the source of major epidemics of meningitis in Africa. An affordable, highly immunogenic meningococcal A conjugate vaccine is needed. METHODS: We conducted two studies in Africa to evaluate a new MenA conjugate vaccine (PsA-TT). In study A, 601 children, 12 to 23 months of age, were randomly assigned to receive PsA-TT, a quadrivalent polysaccharide reference vaccine (PsACWY), or a control vaccine (Haemophilus influenzae type b conjugate vaccine [Hib-TT]). Ten months later, these children underwent another round of randomization within each group to receive a full dose of PsA-TT, a one-fifth dose of PsACWY, or a full dose of Hib-TT, with 589 of the original participants receiving a booster dose. In study B, 900 subjects between 2 and 29 years of age were randomly assigned to receive PsA-TT or PsACWY. Safety and reactogenicity were evaluated, and immunogenicity was assessed by measuring the activity of group A serum bactericidal antibody (SBA) with rabbit complement and performing an IgG group A-specific enzyme-linked immunosorbent assay. RESULTS: In study A, 96.0% of the subjects in the PsA-TT group and 63.7% of those in the PsACWY group had SBA titers that were at least four times as high as those at baseline; in study B, 78.2% of the subjects in the PsA-TT group and 46.2% of those in the PsACWY group had SBA titers that were at least four times as high as those at baseline. The geometric mean SBA titers in the PsA-TT groups in studies A and B were greater by factors of 16 and 3, respectively, than they were in the PsACWY groups (P<0.001). In study A, the PsA-TT group had higher antibody titers at week 40 than the PsACWY group and had obvious immunologic memory after receiving a polysaccharide booster vaccine. Safety profiles were similar across vaccine groups, although PsA-TT recipients were more likely than PsACWY recipients to have tenderness and induration at the vaccination site. Adverse events were consistent with age-specific morbidity in the study areas; no serious vaccine-related adverse events were reported. CONCLUSIONS: The PsA-TT vaccine elicited a stronger response to group A antibody than the PsACWY vaccine. (Funded by the Meningitis Vaccine Project through a grant from the Bill and Melinda Gates Foundation; Controlled-Trials.com numbers, ISRCTN78147026 and ISRCTN87739946.). |
A miniature disk electrostatic aerosol classifier (mini-disk EAC) for personal nanoparticle sizers
Li L , Chen DR , Qi C , Kulkarni PS . J Aerosol Sci 2009 40 (11) 982-992 We have developed a miniature disk electrostatic aerosol classifier (mini-disk EAC) for use in electrical mobility-based personal nanoparticle instrumentation for measurement of personal exposures to nanoaerosols. The prototype consists of two parallel disk electrodes separated by an electrically insulating spacer, to create the particle classification zone. The aerosol enters and exits the classification zone along the bottom disk electrode. An additional, particle-free sheath flow is used to improve the measurement resolution. The transmission measurement of the mini-disk EAC for DMA-classified particles shows that particle losses due to diffusion and electrical image forces were low. The particle penetration at 10 nm diameter (the designed lower size limit for the classifier) was 67% when the prototype was operated at the aerosol and sheath flow rates of 0.5 and 1.0 l min-1, respectively. The performance of the mini-disk EAC was experimentally characterized using the particle cutoff curves that describe their penetration through the classifier as a function of applied voltage across the two disk electrodes. Based on the measurement of particle penetration at different aerosol and sheath flows, it was found that the aerosol and sheath flow rates of 0.5 and 1.5 l min-1 were optimal for classifier operation. Finally, a semi-empirical model was also developed to describe the transfer function of the mini-disk EAC for non-diffusive particles. |
- Page last reviewed:Feb 1, 2024
- Page last updated:Jan 13, 2025
- Content source:
- Powered by CDC PHGKB Infrastructure