Your search keyword '"Paulino CT"' showing total 5 results

1. Convergence of SARS-CoV-2 spike antibody levels to a population immune setpoint.

Author

Nilles EJ, Roberts K, de St Aubin M, Mayfield H, Restrepo AC, Garnier S, Abdalla G, Etienne MC, Duke W, Dumas D, Jarolim P, Oasan T, Peña F, Lopez B, Cruz L, Sanchez IM, Murray K, Baldwin M, Skewes-Ramm R, Paulino CT, Lau CL, and Kucharski A

Subjects

Humans, Female, Male, Middle Aged, Adult, Adolescent, Aged, Child, Young Adult, Child, Preschool, COVID-19 immunology, COVID-19 epidemiology, Spike Glycoprotein, Coronavirus immunology, SARS-CoV-2 immunology, Antibodies, Viral immunology, Antibodies, Viral blood

Abstract

Background: Individual immune responses to SARS-CoV-2 are well-studied, while the combined effect of these responses on population-level immune dynamics remains poorly understood. Given the key role of population immunity on pathogen transmission, delineation of the factors that drive population immune evolution has critical public health implications., Methods: We enrolled individuals 5 years and older selected using a multistage cluster survey approach in the Northwest and Southeast of the Dominican Republic. Paired blood samples were collected mid-pandemic (Aug 2021) and late pandemic (Nov 2022). We measured serum pan-immunoglobulin antibodies against the SARS-CoV-2 spike protein. Generalized Additive Models (GAMs) and random forest models were used to analyze the relationship between changes in antibody levels and various predictor variables. Principal component analysis and partial dependence plots further explored the relationships between predictors and antibody changes., Findings: We found a transformation in the distribution of antibody levels from an irregular to a normalized single peak Gaussian distribution that was driven by titre-dependent boosting. This led to the convergence of antibody levels around a common immune setpoint, irrespective of baseline titres and vaccination profile., Interpretation: Our results suggest that titre-dependent kinetics driven by widespread transmission direct the evolution of population immunity in a consistent manner. These findings have implications for targeted vaccination strategies and improved modeling of future transmission, providing a preliminary blueprint for understanding population immune dynamics that could guide public health and vaccine policy for SARS-CoV-2 and potentially other pathogens., Funding: The study was primarily funded by the Centers for Disease Control and Prevention grant U01GH002238 (EN). Salary support was provided by Wellcome Trust grant 206250/Z/17/Z (AK) and the Australian National Health and Medical Research Council Investigator grant APP1158469 (CLL)., Competing Interests: Declaration of interests EJN is the PI on a US Centers for Disease Control and Prevention (CDC) funded U01 award that funded the study. AK and CLL are co-investigators on the same award. DD, MdSA, SG, MCE, WD, GA, MB, and KWR have received salary support, consultancy fees, or travel paid through this award. BL is an employee of the US CDC. CTP, LC, IMS and RSR are employees of the Ministry of Ministry of Health and Social Assistance, Dominican Republic, that was subcontracted with funds from the US CDC award. AK is supported by the Wellcome Trust, UK. CLL is supported by the Australian National Health and Medical Research Council. CDC staff supported the design and manuscript editing. We declare no other competing interests., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

2. Effects of mobility, immunity and vaccination on SARS-CoV-2 transmission in the Dominican Republic: a modelling study.

Author

Finch E, Nilles EJ, Paulino CT, Skewes-Ramm R, Lau CL, Lowe R, and Kucharski AJ

Abstract

Background: COVID-19 dynamics are driven by a complex interplay of factors including population behaviour, new variants, vaccination and immunity from prior infections. We quantify drivers of SARS-CoV-2 transmission in the Dominican Republic, an upper-middle income country of 10.8 million people. We then assess the impact of the vaccination campaign implemented in February 2021, primarily using CoronaVac, in saving lives and averting hospitalisations., Methods: We fit an age-structured, multi-variant transmission dynamic model to reported deaths, hospital bed occupancy, and seroprevalence data until December 2021, and simulate epidemic trajectories under different counterfactual scenarios., Findings: We estimate that vaccination averted 7210 hospital admissions (95% credible interval, CrI: 6830-7600), 2180 intensive care unit admissions (95% CrI: 2080-2280) and 766 deaths (95% CrI: 694-859) in the first 6 months of the campaign. If no vaccination had occurred, we estimate that an additional decrease of 10-20% in population mobility would have been required to maintain equivalent death and hospitalisation outcomes. We also found that early vaccination with CoronaVac was preferable to delayed vaccination using a product with higher efficacy., Interpretation: SARS-CoV-2 transmission dynamics in the Dominican Republic were driven by a substantial accumulation of immunity during the first two years of the pandemic but, despite this, vaccination was essential in enabling a return to pre-pandemic mobility levels without considerable additional morbidity and mortality., Funding: Medical Research Council, Wellcome Trust, Royal Society, US CDC and Australian National Health and Medical Research Council., Competing Interests: EF was supported by the Medical Research Council (MR/N013638/1); AJK was supported by Wellcome Trust (206250/Z/17/Z) and the US CDC (U01GH002238); RL was supported by a Royal Society Dorothy Hodgin Fellowship; EJN was supported by the US CDC (U01GH002238), CLL was supported by an Australian National Health and Medical Research Council Investigator Grant (APP1158469) and the US CDC (U01GH002238). AJK, EF, CLL have received salaries, consultancy fees, or travel paid through the US CDC award (U01GH002238). CTP and RS-R are employees of the Ministry of Health and Social Assistance, Dominican Republic, that was subcontracted with funds from the US CDC award., (© 2024 Published by Elsevier Ltd.)

Published

2024

3. Monitoring Temporal Changes in SARS-CoV-2 Spike Antibody Levels and Variant-Specific Risk for Infection, Dominican Republic, March 2021-August 2022.

Author

Nilles EJ, de St Aubin M, Dumas D, Duke W, Etienne MC, Abdalla G, Jarolim P, Oasan T, Garnier S, Iihoshi N, Lopez B, de la Cruz L, Puello YC, Baldwin M, Roberts KW, Peña F, Durski K, Sanchez IM, Gunter SM, Kneubehl AR, Murray KO, Lino A, Strobel S, Baez AA, Lau CL, Kucharski A, Gutiérrez EZ, Skewes-Ramm R, Vasquez M, and Paulino CT

Subjects

Humans, Dominican Republic epidemiology, Antibodies, Viral, Fever, Spike Glycoprotein, Coronavirus genetics, Antibodies, Neutralizing, SARS-CoV-2, COVID-19 epidemiology

Abstract

To assess changes in SARS-CoV-2 spike binding antibody prevalence in the Dominican Republic and implications for immunologic protection against variants of concern, we prospectively enrolled 2,300 patients with undifferentiated febrile illnesses in a study during March 2021-August 2022. We tested serum samples for spike antibodies and tested nasopharyngeal samples for acute SARS-CoV-2 infection using a reverse transcription PCR nucleic acid amplification test. Geometric mean spike antibody titers increased from 6.6 (95% CI 5.1-8.7) binding antibody units (BAU)/mL during March-June 2021 to 1,332 (95% CI 1,055-1,682) BAU/mL during May-August 2022. Multivariable binomial odds ratios for acute infection were 0.55 (95% CI 0.40-0.74), 0.38 (95% CI 0.27-0.55), and 0.27 (95% CI 0.18-0.40) for the second, third, and fourth versus the first anti-spike quartile; findings were similar by viral strain. Combining serologic and virologic screening might enable monitoring of discrete population immunologic markers and their implications for emergent variant transmission.

Published

2023

4. Tracking immune correlates of protection for emerging SARS-CoV-2 variants.

Author

Nilles EJ, Paulino CT, de St Aubin M, Duke W, Jarolim P, Sanchez IM, Murray KO, Lau CL, Gutiérrez EZ, Ramm RS, Vasquez M, and Kucharski A

Subjects

Humans, SARS-CoV-2, COVID-19

Abstract

Competing Interests: EJN is the Principal Investigator on a US Centers for Disease Control and Prevention (CDC)-funded U01 award that funded the study, and CLL, AK, MdSA, WD, and MV have received salary support, consultancy fees, or travel paid through this award. EZG is an employee of the US CDC. CTP, IMS, and RSR are employees of the Ministry of Health and Social Assistance, Dominican Republic, that was subcontracted with funds from the US CDC award. AK is supported by the Wellcome Trust, UK. PJ and KOM declare no competing interests. The findings and conclusions in this report are those of the authors and do not necessarily represent the official position of the US CDC.

Published

2023

5. SARS-CoV-2 seroprevalence, cumulative infections, and immunity to symptomatic infection - A multistage national household survey and modelling study, Dominican Republic, June-October 2021.

Author

Nilles EJ, Paulino CT, de St Aubin M, Restrepo AC, Mayfield H, Dumas D, Finch E, Garnier S, Etienne MC, Iselin L, Duke W, Jarolim P, Oasan T, Yu J, Wan H, Peña F, Iihoshi N, Abdalla G, Lopez B, Cruz L, Henríquez B, Espinosa-Bode A, Puello YC, Durski K, Baldwin M, Baez AA, Merchant RC, Barouch DH, Skewes-Ramm R, Gutiérrez EZ, Kucharski A, and Lau CL

Abstract

Background: Population-level SARS-CoV-2 immunological protection is poorly understood but can guide vaccination and non-pharmaceutical intervention priorities. Our objective was to characterise cumulative infections and immunological protection in the Dominican Republic., Methods: Household members ≥5 years were enrolled in a three-stage national household cluster serosurvey in the Dominican Republic. We measured pan-immunoglobulin antibodies against the SARS-CoV-2 spike (anti-S) and nucleocapsid glycoproteins, and pseudovirus neutralising activity against the ancestral and B.1.617.2 (Delta) strains. Seroprevalence and cumulative prior infections were weighted and adjusted for assay performance and seroreversion. Binary classification machine learning methods and pseudovirus neutralising correlates of protection were used to estimate 50% and 80% protection against symptomatic infection., Findings: Between 30 Jun and 12 Oct 2021 we enrolled 6683 individuals from 3832 households. We estimate that 85.0% (CI 82.1-88.0) of the ≥5 years population had been immunologically exposed and 77.5% (CI 71.3-83) had been previously infected. Protective immunity sufficient to provide at least 50% protection against symptomatic SARS-CoV-2 infection was estimated in 78.1% (CI 74.3-82) and 66.3% (CI 62.8-70) of the population for the ancestral and Delta strains respectively. Younger (5-14 years, OR 0.47 [CI 0.36-0.61]) and older (≥75-years, 0.40 [CI 0.28-0.56]) age, working outdoors (0.53 [0.39-0.73]), smoking (0.66 [0.52-0.84]), urban setting (1.30 [1.14-1.49]), and three vs no vaccine doses (18.41 [10.69-35.04]) were associated with 50% protection against the ancestral strain., Interpretation: Cumulative infections substantially exceeded prior estimates and overall immunological exposure was high. After controlling for confounders, markedly lower immunological protection was observed to the ancestral and Delta strains across certain subgroups, findings that can guide public health interventions and may be generalisable to other settings and viral strains., Funding: This study was funded by the US CDC., Competing Interests: E.J.N. is the PI on a US CDC funded U01 award that funded the study, and C.L.L., A.K., D.D., M.d.S.A., A.C.R., H.M., S.G., M.C.E., W.D., N.I., G.A., B.H., K.D., M.B., E.F., and L.I. have received salaries, consultancy fees, or travel paid through this award. E.Z.G., B.L., and A.E.-B. are employees of the US CDC. B.H., C.T., L.C., F.P., and R.S.-R. are employees of the Ministry of Ministry of Health and Social Assistance, Dominican Republic, that was subcontracted with funds from the US CDC award. A.K. and E.F. are supported by the Welcome Trust, UK. D.B. had a patent for COVID-19 vaccine licensed to Janssen. We declare no other competing interests., (© 2022 The Author(s).)

Published

2022