placebo status (166.5 days vs. 430.5 days, respectively, p = 0.35), and the median time to death was not significantly different by vaccine or placebo status (137 days vs. 379 days, respectively, p = 0.17). No statistical differences were seen between the age at death or time to death among the HIV-exposed
infants Selumetinib cell line receiving vaccine vs. placebo (data not shown). In the Kenya site of the multi-country efficacy trial of PRV, the incidence of SAEs and mortality were not statistically different between the vaccine and placebo groups. We did not detect any case of intussusception despite study training to recognize and manage it, and comprehensive safety evaluation. Evaluation of the intensive safety surveillance cohort did not reveal significant differences between treatment groups with respect to all adverse events, in particular with respect to vomiting, diarrhea or elevated temperature, the
events of focus for the intensive safety surveillance cohort. Data from this trial should be reassuring for the many countries in Africa and Asia which are planning to introduce rotavirus vaccine, based on the 2009 WHO recommendation [20]. We observed significantly higher rates of vomiting, diarrhea or elevated temperature in both vaccine and placebo recipients in our trial compared to those BIBF 1120 solubility dmso observed during the earlier Rotavirus Efficacy and Safety Trial (REST) [10]; we did not, however, observe significant differences between the vaccine and placebo groups. It is likely our population was less healthy than the study population of the REST trial. These data represent the first systematic evaluation of PRV in HIV-infected and HIV-exposed infants and demonstrate no significant safety differences between those receiving the vaccine vs. placebo. Overall 5 (23.8%) HIV-infected vaccine recipients and 2 (12.5%) HIV-infected placebo recipients, and 4/88 (4.5%) HIV-exposed vaccine recipients and 4/89 Ketanserin (4.5%) HIV-exposed placebo recipients
reported a severe adverse event within 14 days of vaccination. There were proportionately more SAEs in the HIV-infected participants who received vaccine vs. placebo. Furthermore, we observed a tendency towards more HIV-infected vaccine recipients than HIV-infected placebo recipients having died, and having died at younger ages. This could not be explained by differences in levels of immunosuppression, nutritional status, or other clinical/demographic differences at the time of enrollment or throughout the trial between the two groups. This tendency was not observed among the HIV-exposed participants. Despite these differences among HIV-infected participants, the number of events was small and these differences could have been due to chance alone. Indeed, the excess of deaths observed in the HIV-infected vaccine recipients were not due to gastroenteritis, suggesting that these deaths were not vaccine-related.