Cross-sectional cycle threshold values reflect epidemic dynamics of COVID-19 in Madagascar

Soa Fy Andriamandimby; Cara E. Brook; Norosoa Razanajatovo; Tsiry H. Randriambolamanantsoa; Jean-Marius Rakotondramanga; Fidisoa Rasambainarivo; Vaomalala Raharimanga; Iony Manitra Razanajatovo; Reziky Mangahasimbola; Richter Razafindratsimandresy; Santatra Randrianarisoa; Barivola Bernardson; Joelinotahiana Hasina Rabarison; Mirella Randrianarisoa; Frédéric Stanley Nasolo; Roger Mario Rabetombosoa; Anne-Marie Ratsimbazafy; Vololoniaina Raharinosy; Aina H. Rabemananjara; Christian H. Ranaivoson; Helisoa Razafimanjato; Rindra Randremanana; Jean-Michel Héraud; Philippe Dussart

Epidemics (Mar 2022)

Cross-sectional cycle threshold values reflect epidemic dynamics of COVID-19 in Madagascar

Soa Fy Andriamandimby,
Cara E. Brook,
Norosoa Razanajatovo,
Tsiry H. Randriambolamanantsoa,
Jean-Marius Rakotondramanga,
Fidisoa Rasambainarivo,
Vaomalala Raharimanga,
Iony Manitra Razanajatovo,
Reziky Mangahasimbola,
Richter Razafindratsimandresy,
Santatra Randrianarisoa,
Barivola Bernardson,
Joelinotahiana Hasina Rabarison,
Mirella Randrianarisoa,
Frédéric Stanley Nasolo,
Roger Mario Rabetombosoa,
Anne-Marie Ratsimbazafy,
Vololoniaina Raharinosy,
Aina H. Rabemananjara,
Christian H. Ranaivoson,
Helisoa Razafimanjato,
Rindra Randremanana,
Jean-Michel Héraud,
Philippe Dussart

Affiliations

Soa Fy Andriamandimby: Virology Unit, Institut Pasteur de Madagascar, Madagascar; Corresponding author.
Cara E. Brook: Department of Ecology and Evolution, University of Chicago, United States
Norosoa Razanajatovo: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Tsiry H. Randriambolamanantsoa: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Jean-Marius Rakotondramanga: Epidemiology and Clinical Research Unit, Institut Pasteur de Madagascar, Madagascar
Fidisoa Rasambainarivo: Department of Ecology and Evolutionary Biology, Princeton University, United States
Vaomalala Raharimanga: Epidemiology and Clinical Research Unit, Institut Pasteur de Madagascar, Madagascar
Iony Manitra Razanajatovo: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Reziky Mangahasimbola: Epidemiology and Clinical Research Unit, Institut Pasteur de Madagascar, Madagascar
Richter Razafindratsimandresy: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Santatra Randrianarisoa: Department of Veterinary Sciences and Medicine, University of Antananarivo, Madagascar
Barivola Bernardson: Epidemiology and Clinical Research Unit, Institut Pasteur de Madagascar, Madagascar
Joelinotahiana Hasina Rabarison: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Mirella Randrianarisoa: Epidemiology and Clinical Research Unit, Institut Pasteur de Madagascar, Madagascar
Frédéric Stanley Nasolo: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Roger Mario Rabetombosoa: Epidemiology and Clinical Research Unit, Institut Pasteur de Madagascar, Madagascar
Anne-Marie Ratsimbazafy: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Vololoniaina Raharinosy: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Aina H. Rabemananjara: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Christian H. Ranaivoson: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Helisoa Razafimanjato: Virology Unit, Institut Pasteur de Madagascar, Madagascar
Rindra Randremanana: Virology Unit, Institut Pasteur de Madagascar, Madagascar; Epidemiology and Clinical Research Unit, Institut Pasteur de Madagascar, Madagascar
Jean-Michel Héraud: Virology Unit, Institut Pasteur of Dakar, Senegal
Philippe Dussart: Virology Unit, Institut Pasteur de Madagascar, Madagascar

Journal volume & issue: Vol. 38
p. 100533

Abstract

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As the national reference laboratory for febrile illness in Madagascar, we processed samples from the first epidemic wave of COVID-19, between March and September 2020. We fit generalized additive models to cycle threshold (Ct) value data from our RT-qPCR platform, demonstrating a peak in high viral load, low-Ct value infections temporally coincident with peak epidemic growth rates estimated in real time from publicly-reported incidence data and retrospectively from our own laboratory testing data across three administrative regions. We additionally demonstrate a statistically significant effect of duration of time since infection onset on Ct value, suggesting that Ct value can be used as a biomarker of the stage at which an individual is sampled in the course of an infection trajectory. As an extension, the population-level Ct distribution at a given timepoint can be used to estimate population-level epidemiological dynamics. We illustrate this concept by adopting a recently-developed, nested modeling approach, embedding a within-host viral kinetics model within a population-level Susceptible-Exposed-Infectious-Recovered (SEIR) framework, to mechanistically estimate epidemic growth rates from cross-sectional Ct distributions across three regions in Madagascar. We find that Ct-derived epidemic growth estimates slightly precede those derived from incidence data across the first epidemic wave, suggesting delays in surveillance and case reporting. Our findings indicate that public reporting of Ct values could offer an important resource for epidemiological inference in low surveillance settings, enabling forecasts of impending incidence peaks in regions with limited case reporting.

Published in Epidemics

ISSN: 1755-4365 (Print); 1878-0067 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Medicine: Internal medicine: Infectious and parasitic diseases
Website: http://www.journals.elsevier.com/epidemics/

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