Active clinical trials for "Waterborne Diseases"

Guaranteeing access to safe drinking water is still a challenge in rural households in developing countries, and unsafe water sources are responsible for millions of deaths each year around the world. Coupons for free dilute chlorine solution are a cost-effective and effective way of ameliorating child health and reducing diarrhea incidence. It is still an empirical challenge, however, to see if the positive health effects will be maintained when the program is implemented at scale. In this study, investigators conduct a randomized controlled trial (RCT) at scale to study the impacts of a chlorine coupon program implemented at health clinics on child health, including self-reported diarrhea, fever, and cough incidence in the previous two weeks. Investigators further investigate the pathway of the impact, such as self-reported and objectively measured use of chlorine and frequency of visits to health clinics.

The first objective of our study is to develop a theory-driven evidence-based targeted water, sanitation, and hygiene (WASH) intervention for household members of diarrhea patients in South Kivu, Democratic Republic of the Congo (DRC) through formative research and community engagement. The second objective is to conduct a randomized controlled trial of 2,320 household members of 580 severe diarrhea patients to evaluate the effectiveness of the developed targeted WASH intervention in terms of: 1. reducing diarrheal diseases household members of cholera and severe diarrhea patients; and 2. increasing WASH behaviors.

Approximately 40 million people in the US are served by private, and frequently untreated, wells. Our best estimate is that 1.3 million cases of gastrointestinal illnesses (GI) per year are attributed to consuming water from untreated private wells in the US, but in reality, there are no robust epidemiological data that can be used to estimate cases of GI attributable to these sources. We propose the first randomized controlled trial (RCT) to estimate the burden of GI associated with private well water. We will test if household treatment of private well water by ultraviolet light (UV) vs. sham (inactive UV device) decreases the incidence of GI in children under 5. We will also examine the presence of viral, bacterial, and protozoan pathogens in stool and well water from participants. These data will fill a knowledge gap on sporadic GI associated with federally-unregulated private water supplies in the US.

This study asks the research question "Does enabling families (particularly mothers and other caregivers) to 'assess and act' on drivers of malnutrition through a targeted SBC+ package succeed in a sustained reduction of risk factors thereby improving child health and nutrition?" This study aims to implement and measure the effects of a multi-level multi-sectoral behavior change information intervention in Agago District of Northern Uganda and determine potential for scale up in a complex environment. The study design is a three-arm cluster randomized controlled superiority design (cRCT) with a 1:1:1 allocation ratio. The study arms will be: Group 1: NIPP arm; Group 2: NIPP+ arm; and Group 3: Non-intervention control arm. A barrier analysis will be conducted to ensure appropriate targeting and contextualization of the NIPP and NIPP+ approaches prior to implementation. Each intervention arm will receive a 12-week intervention (NIPP or NIPP+) with active monitoring and longitudinal follow ups post intervention at 2, 6, and 12-months post-intervention. The total sample size for the Barrier Analysis will be a maximum of 450 caregivers; for the main intervention, 900 households (300/arm) will be purposely sampled from the randomly selected communities. Respondents for the qualitative portion will be purposely selected.

The purpose of this study is to assess the drinking water handling practices at household level and to determine the effect of health education on the drinking water handling. Participants from study villages, mainly homemakers, school children and water tank operators who are willing to participate, will be targeted. Baseline assessment of household practices related to water will be done. Followed by a health education regarding the healthy practices will be given to them. Practice of household water chlorination will be promoted. The healthy behavior will be reinforced through reminders and community activities of self help groups for one year. The study participants will be benefited from survey in terms of Improved knowledge and practices of drinking water handling Risk reduction of water borne illness to family members

At least 1.8 billion people globally use a source of drinking water that is faecally contaminated and thus likely to lead to diarrheal illness: nearly 1,000 children die each day due to water and sanitation-related diarrhoeal diseases. Diseases related to the consumption of contaminated drinking-water place a major burden on human health. In 2017, 785 million people still lacked access to an improved drinking water source, and these are mostly the poor and marginalised. Almost a quarter of those people rely on surface water that is untreated and over 90% live in rural areas. Many people are forced to rely on sources that are microbiologically unsafe, leading to a higher risk of contracting waterborne diseases, including typhoid, hepatitis A and E, polio and cholera. The objectives of the SAFEWATER project is to develop technologies to provide clean water to economically deprived communities in rural Colombia and Mexico. These water technologies will be tested under real conditions with the cooperation of the rural communities. The SAFEWATER field trials aims to evaluate the health and behaviour impacts of implementing SAFEWATER water treatment technologies for drinking water disinfection, with a behavioral change intervention, within rural communities in Colombia and Mexico The project has three specific objectives: Assess water quality improvement at household level Assess behaviors and test behavioral interventions' Assess child growth and related health outcomes Three communities in Colombia and one community in Mexico were recruited to take part in the study. Communities were selected based on factors such as current availability of clean water, accessibility, safety, community size and current activities within the communities. Pilot and feasibility studies were carried out prior to commencing field trials, thus the design of the trials vary across countries. Mexico field trial: The trial in Mexico will use a stepped-wedge design, randomized at household level over a 12-month period (6-12 steps dependent on adherence and feasibility). All households (max n200) willing to be involved will be recruited (separate clinicaltrials.gov registration). Colombia field trial: the trial in Colombia will use a non-randomized parallel design (2:1; intervention:control). A maximum of 84 households (54:30; intervention:control) will be recruited to take part, with families with young children (<12 years) prioritized. Outcomes for both countries will include 1) water quality, 2) water-related behaviour (e.g. frequency of system use, uses of treated / raw water), and 3) health, e.g. diarrhoea prevalence, growth (height/weight), school attendance, water insecurity status, gut integrity. Impact: The development and deployment of the SAFEWATER technology has the potential to impact on clean drinking water access for participating communities in Mexico and Colombia, and subsequently on the health and wellbeing of those individuals involved. Additionally if successful, the work will also provide an evidence based model for the provision of improved access to clean drinking water for rural communities in developing regions more widely.

At least 1.8 billion people globally use a source of drinking water that is faecally contaminated and thus likely to lead to diarrheal illness: nearly 1,000 children die each day due to water and sanitation-related diarrhoeal diseases. Diseases related to the consumption of contaminated drinking-water place a major burden on human health. In 2017, 785 million people still lacked access to an improved drinking water source, and these are mostly the poor and marginalised. Almost a quarter of those people rely on surface water that is untreated and over 90% live in rural areas. Many people are forced to rely on sources that are microbiologically unsafe, leading to a higher risk of contracting waterborne diseases, including typhoid, hepatitis A and E, polio and cholera. The objectives of the SAFEWATER project is to develop technologies to provide clean water to economically deprived communities in rural Colombia and Mexico. These water technologies will be tested under real conditions with the cooperation of the rural communities. The SAFEWATER field trials aims to evaluate the health and behaviour impacts of implementing SAFEWATER water treatment technologies for drinking water disinfection, with a behavioral change intervention, within rural communities in Colombia and Mexico The project has three specific objectives: Assess water quality improvement at household level Assess behaviors and test behavioral interventions Assess child growth and related health outcomes Three communities in Colombia and one community in Mexico were recruited to take part in the study. Communities were selected based on factors such as current availability of clean water, accessibility, safety, community size and current activities within the communities. Pilot and feasibility studies were carried out prior to commencing field trials, thus the design of the trials vary across countries. Mexico field trial: The trial in Mexico will use a stepped-wedge design, randomized at household level over a 12-month period (6-12 steps dependent on adherence and feasibility). All households (max n200) willing to be involved will be recruited (separate clinicaltrials.gov registration). Colombia field trial: the trial in Colombia will use a non-randomized parallel design (2:1; intervention:control). A maximum of 84 households (54:30; intervention:control) will be recruited to take part, with families with young children (<12 years) prioritized. Outcomes for both countries will include 1) water quality, 2) water-related behaviour (e.g. frequency of system use, uses of treated / raw water), and 3) health, e.g. diarrhoea prevalence, growth (height/weight), school attendance, water insecurity status, gut integrity. Impact: The development and deployment of the SAFEWATER technology has the potential to impact on clean drinking water access for participating communities in Mexico and Colombia and subsequently on the health and wellbeing of those individuals involved. Additionally if successful, the work will also provide an evidence based model for the provision of improved access to clean drinking water for rural communities in developing regions more widely.

Environmental health-related pathogens include faecal-oral, diarrhoeagenic microbes that may be transmitted via drinking water and are related to sanitation and hygiene. Previous research has suggested that safeguarding household drinking water against recontamination may be a critical intervention that can reduce risks of diarrheal diseases and may be especially important for people living with HIV/AIDS (PLWHA) and other vulnerable populations (Clasen et al. 2007). The investigators propose here a randomised, controlled trial of a household safe storage container for drinking water in a well defined, HIV-impacted population in peri-urban Lusaka, Zambia. After a baseline data collection period (9 months) half of all households (150 households) will be given a safe water storage container specifically designed to prevent recontamination of water in household use. All households will be followed for an additional 9 months. Results of this study will help determine whether this promising water quality intervention can reduce diarrhoea and related outcomes in this and similar vulnerable populations.

A major water supply utilized in the Lambayeque region are acequias. Acequias are irrigation canals that are utilized by the agriculture industry for the cultivation of consumables. Utilization of contaminated water to irrigate consumables can lead to foodborne illnesses. Contamination studies on the acequias in the Lambayeque region have not been performed to date. The purpose of this study is to test contamination of acequias in 9 districts in Lambayeque and determine if a difference in infection rates exists in districts with contaminated acequias vs. districts without contaminated acequias for the following diseases: H. pylori, Adenovirus, Rotavirus.