Rotavirus genotype diversity in Tanzania during Rotavirus vaccine implementation between 2013 and 2018 | Scientific … – Nature.com

HomeVaccineRotavirus genotype diversity in Tanzania during Rotavirus vaccine implementation between 2013 and 2018 | Scientific … – Nature.com
December 10, 2023

Clark, A. et al. Estimating global, regional and national rotavirus deaths in children aged <5years: Current approaches, new analyses and proposed improvements. PLoS ONE 12, e0183392 (2017).

Article PubMed PubMed Central Google Scholar

Troeger, C. et al. Rotavirus vaccination and the global burden of rotavirus diarrhea among children younger than 5 years. JAMA Pediatr. 172, 958965 (2018).

Article PubMed PubMed Central Google Scholar

Troeger, C. et al. Estimates of the global, regional, and national morbidity, mortality, and aetiologies of diarrhoea in 195 countries: A systematic analysis for the Global Burden of Disease Study 2016. Lancet Infect. Dis 18, 12111228 (2018).

Article Google Scholar

Burnett, E., Jonesteller, C. L., Tate, J. E., Yen, C. & Parashar, U. D. Global impact of rotavirus vaccination on childhood hospitalizations and mortality from diarrhea. J. Infect. Dis. 215, 16661672 (2017).

Article PubMed Google Scholar

Parashar, U. D., Hummelman, E. G., Bresee, J. S., Miller, M. A. & Glass, R. I. Global illness and deaths caused by rotavirus disease in children. Emerg. Infect. Dis. 9, 565 (2003).

Article PubMed PubMed Central Google Scholar

WHO. Rotavirus vaccines: WHO position paperJuly 2021Vaccins antirotavirus: Note de synthse de lOMSJuillet 2021. Wkly. Epidemiol. Rec. Relev pidmiol. Hebd. 96, 301219 (2021).

Google Scholar

WHO. Rotavirus vaccines: WHO position paperJanuary 2013. Wkly. Epidemiol. Rec. Relev pidmiol. Hebd. 88, 4964 (2013).

Google Scholar

Carvalho, M. F. & Gill, D. Rotavirus vaccine efficacy: Current status and areas for improvement. Hum. Vaccines Immunother. https://doi.org/10.1080/21645515.2018.1520583 (2018).

Article Google Scholar

Platts-Mills, J. A. et al. Impact of rotavirus vaccine introduction and postintroduction etiology of diarrhea requiring hospital admission in Haydom, Tanzania, a rural African setting. Clin. Infect. Dis. 65, 11441151 (2017).

Article CAS PubMed PubMed Central Google Scholar

Mahamba, D. et al. Prevalence and factors associated with rotavirus infection among vaccinated children hospitalized for acute diarrhea in Mwanza City, Tanzania: A cross sectional study. Open J. Pediatr. 10, 392403 (2020).

Article CAS Google Scholar

Temu, A. et al. Prevalence and factors associated with Group A rotavirus infection among children with acute diarrhea in Mwanza, Tanzania. J. Infect. Dev. Ctries. 6, 508515 (2012).

Article PubMed Google Scholar

Jani, B. et al. Detection of rotavirus before and after monovalent rotavirus vaccine introduction and vaccine effectiveness among children in mainland Tanzania. Vaccine 36, 71497156 (2018).

Article PubMed Google Scholar

McNulty MS. Rotaviruses. J. Gen. Virol. 40(1), 18 (1978)

WHO. Manual of Rotavirus Detection and Characterization Methods (World Health Organization, 2009).

Google Scholar

Esona, M. D. & Gautam, R. Rotavirus. Clin. Lab. Med. 35, 363391 (2015).

Article PubMed Google Scholar

Santos, N. & Hoshino, Y. Global distribution of rotavirus serotypes/genotypes and its implication for the development and implementation of an effective rotavirus vaccine. Rev. Med. Virol. 15, 2956 (2005).

Article PubMed Google Scholar

Malakalinga, J. J., Misinzo, G., Msalya, G. M. & Kazwala, R. R. Rotavirus burden, genetic diversity and impact of vaccine in children under five in Tanzania. Pathogens 8, 210 (2019).

Article CAS PubMed PubMed Central Google Scholar

Kirkwood, C. D., Boniface, K., Barnes, G. L. & Bishop, R. F. Distribution of rotavirus genotypes after introduction of rotavirus vaccines, Rotarix and RotaTeq, into the National Immunization Program of Australia. Pediatr. Infect. Dis. J. 30, S48S53 (2011).

Article PubMed Google Scholar

Roczo-Farkas, S. et al. The impact of rotavirus vaccines on genotype diversity: A comprehensive analysis of 2 decades of Australian surveillance data. J. Infect. Dis. 218, 546554 (2018).

Article PubMed Google Scholar

Mokomane, M. et al. Diversity of rotavirus strains circulating in Botswana before and after introduction of the monovalent rotavirus vaccine. Vaccine 37, 63246328 (2019).

Article CAS PubMed Google Scholar

Gibory, M. et al. Genetic diversity of rotavirus strains circulating in Norway before and after the introduction of rotavirus vaccination in children. J. Med. Virol. 94, 26242631 (2022).

Article CAS PubMed Google Scholar

Seheri, L. et al. Rotavirus strain diversity in Eastern and Southern African countries before and after vaccine introduction. Vaccine 36, 72227230 (2018).

Article CAS PubMed Google Scholar

Hokororo, A. et al. Predominance of rotavirus G1 [P8] genotype among under-five children with gastroenteritis in Mwanza, Tanzania. J. Trop. Pediatr. 60, 393396 (2014).

Article PubMed PubMed Central Google Scholar

Moyo, S. J. et al. Genetic diversity of circulating rotavirus strains in Tanzania prior to the introduction of vaccination. PLoS One 9, 10 (2014).

Article Google Scholar

WHO. Generic Portocols for (i) Hospital-Based Surveillance to Estimate the Burden of Rotavirus Gastroenteritis in Children and (ii) a Community-Based Survey on Utilization of Health Care Services for Gastroenteritis in Children: Field Test Version (World Health Organization, 2002).

Google Scholar

Akran, V. et al. Molecular characterization and genotyping of human rotavirus strains in Abidjan, Cote dIvoire. J. Infect. Dis. 202(1), 220224 (2010).

Article Google Scholar

Das, B. K. et al. Characterization of rotavirus strains from newborns in New Delhi, India. J. Clin. Microbiol. 32, 18201822 (1994).

Article CAS PubMed PubMed Central Google Scholar

Cunliffe, N. A. et al. Rotavirus G and P types in children with acute diarrhea in Blantyre, Malawi, from 1997 to 1998: Predominance of novel P [6] G8 strains. J. Med. Virol. 57, 308312 (1999).

Article CAS PubMed Google Scholar

Abeid, K. A. et al. Monovalent rotavirus vaccine effectiveness and impact on rotavirus hospitalizations in Zanzibar, Tanzania: Data from the first 3 years after introduction. J. Infect. Dis. 215, 8 (2017).

Google Scholar

ORyan, M. Rotarix(RIX4414): An oral human rotavirus vaccine. Expert Rev. Vaccines 6, 1119 (2007).

Article PubMed Google Scholar

Mchaile, D. N. et al. Prevalence and genotypes of Rotavirus among children under 5 years presenting with diarrhoea in Moshi, Tanzania: A hospital based cross sectional study. BMC Res. Notes 10, 6 (2017).

Article Google Scholar

Mhango, C. et al. Rotavirus genotypes in hospitalized children with acute gastroenteritis before and after rotavirus vaccine introduction in Blantyre, Malawi, 19972019. J. Infect. Dis. 15, 9 (2022).

Google Scholar

Ruiz-Palacios, G. M. et al. Safety and efficacy of an attenuated vaccine against severe rotavirus gastroenteritis. N. Engl. J. Med. 354, 1122 (2006).

Article CAS PubMed Google Scholar

Yen, C. et al. Monovalent rotavirus vaccine provides protection against an emerging fully heterotypic G9P [4] rotavirus strain in Mexico. J. Infect. Dis. 204, 783786 (2011).

Article CAS PubMed Google Scholar

Correia, J. B. et al. Effectiveness of monovalent rotavirus vaccine (Rotarix) against severe diarrhea caused by serotypically unrelated G2P [4] strains in Brazil. J. Infect. Dis. 201, 6 (2010).

Article Google Scholar

Malakalinga, J. J., Misinzo, G., Msalya, G. M., Shayo, M. J. & Kazwala, R. R. Prevalence and genomic characterization of rotavirus group A genotypes in piglets from southern highlands and eastern Tanzania. Heliyon 8, e11750 (2022).

Article CAS PubMed PubMed Central Google Scholar

Steele, A. D. et al. Human rotavirus vaccine Rotarix provides protection against diverse circulating rotavirus strains in African infants: A randomized controlled trial. BMC Infect. Dis. 12, 8 (2012).

Article Google Scholar

Clarke, E. & Desselberger, U. Correlates of protection against human rotavirus disease and the factors influencing protection in low-income settings. Mucosal Immunol. 8, 117 (2015).

Article CAS PubMed Google Scholar

Svensson, L., Sheshberadaran, H., Vesikari, T., Norrby, E. & Wadell, G. Immune response to rotavirus polypeptides after vaccination with heterologous rotavirus vaccines (RIT 4237, RRV-1). J. Gen. Virol. 68, 19931999 (1987).

Article CAS PubMed Google Scholar

Sadiq, A. & Bostan, N. Comparative analysis of G1P [8] rotaviruses identified prior to vaccine implementation in Pakistan with Rotarix and RotaTeq vaccine strains. Front. Immunol. 11, 562282 (2020).

Article CAS PubMed PubMed Central Google Scholar

Ward, R. L. Possible mechanisms of protection elicited by candidate rotavirus vaccines as determined with the adult mouse model. Viral Immunol. 16, 1724 (2003).

Article CAS PubMed Google Scholar

Ianiro, G., Recanatini, C., DErrico, M. M., Monini, M., RotaNet-Italy Study Group. Uncommon G9P [4] group A rotavirus strains causing dehydrating diarrhea in young children in Italy. Infect. Genet. Evol. 64, 5764 (2018).

Article PubMed Google Scholar

Degiuseppe, J. I., Stupka, J. A. & Network, A. R. S. Emergence of unusual rotavirus G9P [4] and G8P [8] strains during post vaccination surveillance in Argentina, 20172018. Infect. Genet. Evol. 93, 104940 (2021).

Article CAS PubMed Google Scholar

Tatte, V. S., Maran, D., Walimbe, A. M. & Gopalkrishna, V. Rotavirus G9P [4], G9P [6] and G1P [6] strains isolated from children with acute gastroenteritis in Pune, western India, 20132015: evidence for recombination in genes encoding VP3, VP4 and NSP1. J. Gen. Virol. 100, 16051630 (2019).

Article CAS PubMed Google Scholar

Go here to read the rest:

Rotavirus genotype diversity in Tanzania during Rotavirus vaccine implementation between 2013 and 2018 | Scientific ... - Nature.com

Related Posts
Tags: