Literature DB >> 20622508

Performance of rotavirus vaccines in developed and developing countries.

Victoria Jiang1, Baoming Jiang, Jacqueline Tate, Umesh D Parashar, Manish M Patel.   

Abstract

The World Health Organization estimates that rotavirus diarrhea results in approximately half a million deaths and approximately 2.4 million hospitalizations in developing countries each year. Two live oral rotavirus vaccines, RotaTeq® (RV 5; Merck) and Rotarix® (RV 1; GlaxoSmithKline) with good efficacy against severe rotavirus disease and a reassuring safety profile could substantially impact the burden of rotavirus disease. In April 2009, WHO provided a recommendation for global introduction of these vaccines in national immunization programs of developing countries worldwide. In this article, we review published data on previous candidate rotavirus vaccines and vaccines in current use, with emphasis on their performance in developed versus developing countries. In developed countries, both first and second generation rotavirus vaccines have demonstrated high efficacy against severe rotavirus disease (pooled efficacy = 73% and 85%, respectively). In developing countries, small early trials for the first generation vaccines failed to provide protection against rotavirus disease (pooled efficacy = 20%), however, trials of the second generation vaccines yielded substantial improvements in efficacy in developing countries (pooled efficacy of 51%), leading to a global recommendation for rotavirus vaccine introduction by WHO. Future efforts for these vaccines should focus on optimizing the efficacy and delivery of these vaccines in challenging target populations of Asia and Africa with the greatest burden of severe rotavirus disease.

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Year:  2010        PMID: 20622508      PMCID: PMC3322519          DOI: 10.4161/hv.6.7.11278

Source DB:  PubMed          Journal:  Hum Vaccin        ISSN: 1554-8600


  80 in total

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Review 7.  The development of multivalent bovine rotavirus (strain WC3) reassortant vaccine for infants.

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  74 in total

1.  Health Promotion Through Existing Community Structures: A Case of Churches' Roles in Promoting Rotavirus Vaccination in Rural Zambia.

Authors:  Austin Wesevich; Jenala Chipungu; Mercy Mwale; Samuel Bosomprah; Roma Chilengi
Journal:  J Prim Care Community Health       Date:  2016-01-20

2.  Milk Oligosaccharides Inhibit Human Rotavirus Infectivity in MA104 Cells.

Authors:  Daniel R Laucirica; Vassilis Triantis; Ruud Schoemaker; Mary K Estes; Sasirekha Ramani
Journal:  J Nutr       Date:  2017-06-21       Impact factor: 4.798

3.  Evaluation of the Influence of Gastrointestinal Coinfections on Rotavirus Vaccine Effectiveness in Botswana.

Authors:  Margaret Mokomane; Jacqueline E Tate; Andrew P Steenhoff; Mathew D Esona; Michael D Bowen; Kwana Lechiile; Jeffrey M Pernica; Ishmael Kasvosve; Umesh D Parashar; David M Goldfarb
Journal:  Pediatr Infect Dis J       Date:  2018-03       Impact factor: 2.129

4.  Maternal Helminth Infection Is Associated With Higher Infant Immunoglobulin A Titers to Antigen in Orally Administered Vaccines.

Authors:  Carolyn E Clark; Michael P Fay; Martha E Chico; Carlos A Sandoval; Maritza G Vaca; Alexis Boyd; Philip J Cooper; Thomas B Nutman
Journal:  J Infect Dis       Date:  2016-02-16       Impact factor: 5.226

5.  Cost-effectiveness of rotavirus vaccination in Bolivia from the state perspective.

Authors:  Emily R Smith; Emily E Rowlinson; Volga Iniguez; Kizee A Etienne; Rosario Rivera; Nataniel Mamani; Rick Rheingans; Maritza Patzi; Percy Halkyer; Juan S Leon
Journal:  Vaccine       Date:  2011-09-02       Impact factor: 3.641

Review 6.  Evaluation of vaccines against enteric infections: a clinical and public health research agenda for developing countries.

Authors:  John Clemens
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2011-10-12       Impact factor: 6.237

7.  Evolution of P[8], P[4], and P[6] VP8* genes of human rotaviruses globally reported during 1974 and 2017: possible implications for rotavirus vaccines in development.

Authors:  Daniel E Velasquez; Baoming Jiang
Journal:  Hum Vaccin Immunother       Date:  2019-06-13       Impact factor: 3.452

8.  Influence of gut microbiota on mucosal IgA antibody response to the polio vaccine.

Authors:  Ting Zhao; Jing Li; Yuting Fu; Hui Ye; Xiaochang Liu; Guoliang Li; Xiaolei Yang; Jingsi Yang
Journal:  NPJ Vaccines       Date:  2020-06-09       Impact factor: 7.344

9.  Multiple Introductions and Antigenic Mismatch with Vaccines May Contribute to Increased Predominance of G12P[8] Rotaviruses in the United States.

Authors:  Kristen M Ogden; Yi Tan; Asmik Akopov; Laura S Stewart; Rendie McHenry; Christopher J Fonnesbeck; Bhinnata Piya; Maximilian H Carter; Nadia B Fedorova; Rebecca A Halpin; Meghan H Shilts; Kathryn M Edwards; Daniel C Payne; Mathew D Esona; Slavica Mijatovic-Rustempasic; James D Chappell; John T Patton; Natasha B Halasa; Suman R Das
Journal:  J Virol       Date:  2018-12-10       Impact factor: 5.103

10.  Full-genome characterization of a G8P[8] rotavirus that emerged among children with diarrhea in Croatia in 2006.

Authors:  Roberto Delogu; Alessandra Lo Presti; Franco Maria Ruggeri; Eleonora Cella; Marta Giovanetti; Massimo Ciccozzi; Suncanica Ljubin-Sternak; Suzana Bukovski-Simonoski; Amarela Lukic-Grlic; Giovanni Ianiro; Lucia Fiore
Journal:  J Clin Microbiol       Date:  2013-02-20       Impact factor: 5.948
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