View clinical trials related to Dysentery, Bacillary.
Filter by:Diarrhea remains a leading cause of death among young children, with the majority of diarrhea deaths occurring in low- and middle-income countries. Childhood diarrhea caused by a type of bacteria called "Shigella" is responsible for an estimated 60,000 deaths each year and may cause particularly severe illness among children. Currently, there are several promising vaccines to prevent Shigella diarrhea in development, but key information is still needed to inform future vaccine studies. The purpose of this study, titled Enterics for Global Health (or the "EFGH"), is to determine the number and rate of new cases of Shigella diarrhea among children 6 to 35 months of age presenting to health facilities with diarrhea or dysentery. Over a two-year period, the EFGH study will enroll 1,400 children from each of the seven countries: Peru, Pakistan, Bangladesh, Mali, Malawi, Kenya, and The Gambia (9,800 children total).
The study is a first-in-human Phase 1/2a randomized, double-blind, placebo-controlled trial to assess the clinical safety and efficacy of ShigActive in healthy adults with experimental Shigella challenge.
The purpose of this study is to evaluate the efficacy, immunogenicity and safety of S. Flexneriza-S. Sonnei Bivalent Conjugate Vaccine in infants and children aged from 6 months to 5 years.
Background (brief): Shigellosis is the second leading cause of death due to diarrheal diseases worldwide (>200,000 deaths/year). Though the mortality rate associated with Shigellosis has decreased, the fact that the bacteria have acquired resistance to multiple antibiotics, is a cause for major concern. Oral azithromycin and intravenous ceftriaxone are the recommend first and second line therapies, respectively in Bangladesh. Approximately 20% of Shigella isolates are resistant to azithromycin suggesting that a substantial number of children will require second-line therapy. While resistance to ceftriaxone in shigellosis is low in Bangladesh at 5%, the potential for rapid emergence of antibiotic resistance to this third-generation cephalosporin and ceftriaxone's resource-intensive delivery method, underscore the need for evidence-based alternative antibiotic regimens for multidrug resistant Shigella infections Hypothesis: Children treated with tebipenem-pivoxil will have no worse clinical and microbiologic failure rates compared to ceftriaxone. Primary Aim To determine whether tebipenem-pivoxil is clinically non-inferior to the currently WHO-recommended second line Shigella therapy (ceftriaxone) 3 days after treatment initiation. Hypothesis: Children randomized to tebipenem-pivoxil experience no more clinical failures than children treated with ceftriaxone 3 days after treatment initiation. Secondary Aim: To determine whether tebipenem-pivoxil is clinically non-inferior to the currently WHO-recommended second line Shigella therapy (ceftriaxone) 7 and 30 days after treatment initiation. To determine whether tebipenem-pivoxil is microbiologically non-inferior to the currently WHO-recommended second line Shigella therapy (ceftriaxone) 7 and 30 days after treatment initiation. Describe the number of adverse events, between children with shigellosis treated with oral tebipenem-pivoxil or IV ceftriaxone. Compare the prevalence of ceftriaxone and carbapenam resistance, as well as ESBL-and carbapenemase-producing Escherichia coli, in children treated with tebipenem-pivoxil or ceftriaxone 7 and 30-days after initiation of second-line therapy. Methods: Investigators propose a phase IIb randomized controlled trial (RCT) to determine the efficacy and safety of oral tebipenem-pivoxil, compared to IV ceftriaxone, for children with Shigella infections unresponsive to first-line antibiotic therapy. Bangladeshi children aged 24 to 59 months with suspected Shigella infections and no clinical improvement within 48 hours of first-line therapy will be randomized to a 3-day course of oral tebipenem-pivoxil (4 mg/kg 3x daily) or 3-days of IV ceftriaxone (50 mg/kg 1x daily). The children will be evaluated for key clinical, microbiologic, and safety outcomes during the subsequent 30-day period. Additionally, investigators propose a lead in study of 15 patients to confirm the safety profile and pharmacokinetics and efficacy of tebipenem in the study population. During this pharmacokinetic study period investigators will compare 15 children with oral Tebipenem randomizing with 15 children with oral Azithromycin arm. Investigators will also check invitro susceptibility of Tebipenem-pivoxil in 200 shigella isolates prior to the clinical trial in collaboration with Infectious Diseases Division, icddr,b. Randomization Block randomization (1:1) in random sized blocks of will be used to assign treatment groups at study enrollment by an independent statistician. Treatment allocation (once assigned) will be known to the managing clinician and the participant due to the differing drug delivery mechanisms of the two antibiotics (oral vs. injectable). However, the team conducting the statistical analyses will be blinded to treatment allocation (allocation will appear A and B).
The study consists of two arms: 1) intervention group using eggs as supplementary food given from 2nd trimester of pregnancy to birth, and 2) observational group of pregnant mothers. it aims to assess the effectiveness of improving dietary quality during pregnancy on the epigenetic and stunting related outcomes (growth and development) in infants, who will be followed up until 24 months old