3 Clinical Trials for Various Conditions
Yearly in the United States over 500,000 newborns are delivered prematurely. This population is at high risk of catastrophic bowel disease known as necrotizing enterocolitis. Infants with necrotizing enterocolitis are at high risk of death, and survivors are at increased risk of mental retardation. Metronidazole is an antibiotic that is often administered to infants with suspected or confirmed necrotizing enterocolitis. Unfortunately, the appropriate dose of metronidazole in premature infants has not been established and it is likely to be different from older children and adults. The investigators will investigate the appropriate metronidazole dose in very premature infants by: 1) determining how premature infants eliminate metronidazole from the body and 2) determining the safest and most effective dose of metronidazole in premature infants. The investigators hypothesis are: 1) The rate of removal of metronidazole will increase with infant maturity and 2) an appropriate metronidazole dosing regimen will result in necessary drug levels to treat bacteria involved in necrotizing enterocolitis.
This project is a pilot study of an adapted intervention of an existing Opioid Use Disorder (OUD) treatment retention intervention called Recovery Management Checkups (RMC). This intervention has been adapted to better fit the experiences and unique issues of those that have been hospitalized with serious injection related infections (SIRI) based on the findings from a prior qualitative study from the principal investigator. This project plans to test the adapted intervention within a smaller group of participants to assess feasibility, acceptability, and calculate early findings of intervention efficacy. Hospitalizations for SIRIs are a unique entry point for patients to start their recovery journey with medications for OUD (MOUD), but many people do not remain on long-term treatment, despite evidence that indicates MOUDs reduce death and re-hospitalization after SIRIs. The study objectives are to: * Assess the implementation feasibility of the adapted RMC model for patients with SIRI and OUD. * Establish preliminary estimates of intervention efficacy. * Make further adaptions to the intervention that will reduce both known and unknown barriers to care and increase effectiveness in future larger scale trials. Findings from this pilot study will result in further intervention refinement to better fit the target population, and serve as the basis for a larger randomized control trial that will have aims focused on more in-depth analysis of the efficacy of this program
The CLEAN (ChLorine to reduce Enteric and Antibiotic resistant infections in Neonates) cluster randomized controlled trial in western Kenya will evaluate the impact of a multi-component chlorination intervention in health care facilities on maternal and neonatal health. Intervention facilities will receive a passive chlorination technology for water supply treatment and a reliable supply of sodium hypochlorite disinfectant. Both intervention and treatment facilities will receive infection prevention and control messaging. The goal of the study is to evaluate the impact of the intervention on bacterial contamination of water supply, on staff hands, and on high-touch surfaces in maternity wards, and the following outcomes among facility-born neonates and their mothers: (1) gut carriage of bacterial pathogens associated with sepsis one week post-birth, (2) gut carriage of antibiotic resistant bacteria one week post-birth, and (3) symptoms of possible serious bacterial infection one week following birth.