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COVID-19 was declared a pandemic by the World Health Organization (WHO) on March 11, 2020. Since then, efforts were initiated to develop safe and effective vaccines. Till date, 11 vaccines have been included in the WHO’s emergency use list. The emergence and spread of variant strains of SARS-CoV-2 has altered the disease transmission dynamics, thus creating a need for continuously monitoring the real-world effectiveness of various vaccines and assessing their overall impact on disease control. To achieve this goal, the Indian Council of Medical Research (ICMR) along with the Ministry of Health and Family Welfare, Government of India, took the lead to develop the India COVID-19 Vaccination Tracker by synergizing three different public health databases: National COVID-19 testing database, CoWIN vaccination database and the COVID-19 India portal. A Vaccine Data Analytics Committee (VDAC) was constituted to advise on various modalities of the proposed tracker. The VDAC reviewed the data related to COVID-19 testing, vaccination and patient outcomes available in the three databases and selected relevant data points for inclusion in the tracker, following which databases were integrated, using common identifiers, wherever feasible. Multiple data filters were applied to retrieve information of all individuals ?18 yr who died after the acquisition of COVID-19 infection with or without vaccination, irrespective of the time between vaccination and test positivity. Vaccine effectiveness (VE) against the reduction of mortality and hospitalizations was initially assessed. As compared to the hospitalization data, mortality reporting was found to be much better in terms of correctness and completeness. Therefore, hospitalization data were not considered for analysis and presentation in the vaccine tracker. The vaccine tracker thus depicts VE against mortality, calculated by a cohort approach using person-time analysis. Incidence of COVID-19 deaths among one- and two-dose vaccine recipients was compared with that among unvaccinated groups, to estimate the rate ratios (RRs). VE was estimated as 96.6 and 97.5 per cent, with one and two doses of the vaccines, respectively, during the period of reporting. The India COVID-19 Vaccination Tracker was officially launched on September 9, 2021. The high VE against mortality, as demonstrated by the tracker, has helped aid in allaying vaccine hesitancy, augmenting and maintaining the momentum of India’s COVID-19 vaccination drive
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Objective: To study the effect of 2 weeks of prophylactic zinc supplementation on incidence and duration of acute respiratory infections. Design: Randomized double blind controlled trial. Setting: Community based; urban resettlement area in North- East Delhi, India. Participants: 272 children aged 6-11 months with acute respiratory infections. Children receiving zinc supplement within the past 3 months, severely malnourished, immuno-deficient, on steroid therapy, with severe illness requiring hospitalization, or children of families likely to migrate from the study area were excluded. Intervention: Placebo (syrup base) or zinc (20 mg/5 mL elemental zinc as zinc sulfate) orally given for a period of 2 weeks. Main outcome measure(s): Incidence, type and duration of acute respiratory infections, and adverse effects. Results: No effect on incidence of acute respiratory infections was noted. A decrease of 15% (0.78-0.94) in days and 12% (0.78- 0.94) in duration of episode in acute respiratory infections was observed. Incidence of acute lower respiratory infections decreased by 62% (0.26-0.36) and the effect remained for full five months of follow up. There were no drop outs due to side effects. Conclusions: Prophylactic zinc supplementation for two weeks may reduce the morbidity due to acute lower respiratory infections but not overall rate of acute respiratory infections in infants aged 6-11 months in similar populations.
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Rotavirus is currently by far the most common cause of severe diarrhea in infants and young children worldwide and of diarrheal deaths in developing countries. Worldwide Rotavirus is responsible for 611,000 childhood deaths out of which more than 80% occur in low-income countries. The resistance of rotavirus to commonly used disinfectants and ineffectiveness of oral rehydration therapy due to severe vomiting indicates that if an effective vaccine is the preferred option. WHO has recommended inclusion of rotavirus vaccine in the National Schedules where under 5 mortality due to diarrheal diseases is ≥ 10%. Currently two vaccines are available against rotavirus. Rotarix (GlaxoSmithKline) is a monovalent vaccine recommended to be orally administered in two doses at 6-12 weeks. Rota Teq (Merck) is a pentavalent vaccine recommended to be orally administered in three doses starting at 6-12 weeks of age. Serodiversity of rotavirus in India and its regional variation favor either a monovalent vaccine that can induce heterotypic immunity or a polyvalent vaccine incorporating majority of serotypes prevalent in the country. However, the efficacy of available rotavirus vaccines is less in low-income countries. Both the candidate vaccines when coadministered with OPV, immune response to first dose of these vaccines is reduced. However, immune responses to subsequent rotavirus vaccine doses are not affected. In view of this, WHO recommends three doses of either vaccine to be given to children in developing countries to produce the optimum response. Indigenous vaccine, 116E (Bharat Biotech) based on human rotavirus of serotype G9P [11] is still under Phase 2 trials. Another multivalent vaccine is being developed by Shantha Biotechnics in India. The cost effectiveness of the three dose schedule of the available and the rsults of the field trials of the indigenous vaccines should be assessed before inclusion of rotavirus vaccine in the National Immunization Schedule.