View clinical trials related to Hookworm.
Filter by:This study is a double-blind randomized clinical trial which aims at providing evidence on the efficacy and safety of two regimens of mebendazole in school-aged children. Thus, our primary objective is to assess the efficacy and safety of: i) 100 mg solid tablets twice a day for 3 days, and ii) one dose of 500 mg solid tablets of mebendazole in participants aged 6-12, inclusive, infected with hookworm. The primary endpoint of the trial is the cure rate (CR) of the 3-day regimen of mebendazole against hookworm and a single dose mebendazole treatment. The secondary objectives are to determine if the multi-dose regimen is superior to the single dose regimen, evaluate the efficacy against concomitant soil-transmitted helminth infections, and assess the safety of both mebendazole regimens. After obtaining informed consent from children's caregiver, the medical history of the participating individuals will be assessed with a standardized questionnaire, in addition to a clinical examination carried out by the study physician on the treatment day. Enrollment will be based on two stool samples which will be collected, if possible, on two consecutive days or otherwise within a maximum of 5 days apart. All stool samples will be examined with duplicated Kato-Katz thick smears by experienced laboratory technicians. Randomization of participants into the two treatment arms will be stratified according to intensity of infection. Participants will be interviewed before treatment for clinical symptoms and 3 hours after every morning treatment and 24 hours after every morning treatment about the occurrence of adverse events. The efficacy of the treatment will be determined 14-21 days post-treatment by collecting another two stool samples. The primary analysis will include all participants with primary end point data (available case analysis). Supplementary, two sensitivity analyses will be conducted imputing all missing endpoint data as treatment failures or all as treatment success. CRs will be calculated as the percentage of egg-positive participants at baseline who become egg-negative after treatment. CRs will be compared by using unadjusted logistic regression. To assess model robustness with respect to covariates, adjusted logistic regressions (adjustment for age, sex, school, weight and strata) will be performed. Geometric and arithmetic mean egg counts will be calculated for the different treatment arms before and after treatment to assess the corresponding ERRs. Bootstrap resampling method with 5,000 replicates will be used to calculate 95% confidence intervals (CIs) for ERRs and the difference of the ERRs.
Small association studies have hypothesised that shoes protect against hookworm infection. The purpose of this pragmatic study was determine, under field conditions, whether school-age children on Pemba Island, Zanzibar, would wear shoes and if shoes protected them against hookworm infection.
Many school children in Kenya are infected with plasmodia and helminth species and are at risk of coinfection. It has been suggested that the immune response evoked by helminth infections may modify immune responses to plasmodia species and consequently alter infection and disease risks. However, studies conducted to date have been typically cross-sectional and produced conflicting results, and there is a need for longitudinal studies to better understand the clinical consequences for individuals harbouring coinfection. This study aims to investigate the impact of intensive (once every 3 months) anthelminthic treatment versus annual treatment on the risk of clinical malaria and on immune responses among school children aged 5-14 years in Western Province. Specifically, this study aims to investigate the impact of intensive anthelminthic treatment on (i) the incidence of clinical malaria in school children, assessed using active case detection; (ii) the prevalence and density of Plasmodium spp. infection, using repeat cross-sectional surveys; and (iii) malaria and helminth specific immune responses. The study hypothesis is that intensive anthelminthic treatment among children infected with either Ascaris lumbricoides or hookworm modifies human host immune responses to plasmodia and helminth infections, and therefore alters the risk of Plasmodium infection and clinical disease. This individually randomised trial will recruit 1,450 children aged 5-14 years found to be infected with either Ascaris lumbricoides or hookworm species. Recruited children will be randomized to receive albendazole treatment either every three months or annually and monitored through periodic surveillance for clinical malaria episodes over 18 months. In addition, blood samples will be collected from sub-sample of children and screened for malaria specific immunoglobulin (Ig)G1 and IgG3 and helminth specific IgE, IgG2, IgG4 and IgM. Cell culture supernatants will be assayed for interferon (IFN)-γ, tumor necrosis factor (TNF)-α, interleukin (IL)-10, IL-5, IL-4 and IL-2.