1/2- Bangladesh Center for Global Environmental and Occupational Health- Bangladesh

Not Applicable

Recruiting

• Conditions: Cardiopulmonary Function; mHealth Intervention; Immune Function; Air Pollution
• Interventions: Behavioral: mHealth based behavioral change communication intervention

• Registration Number: NCT05570552
• Lead Sponsor: International Centre for Diarrhoeal Disease Research, Bangladesh

Brief Summary

Almost 3 billion people worldwide, including 89% people in Bangladesh, are exposed to harmful household air pollutants (HAP) emitted from combustion of biomass (wood, agricultural residue, cow dung, etc.) fuel use for cooking. While health risks associated with air-pollution have been reasonably well-studied in developed countries, there is little evidence on health benefits achievable by HAP reduction through clean fuel use, especially in low- and middle-income countries (LMICs). Earlier the investigators showed that Liquid Petroleum Gas (LPG) for 24 months, reduced personal PM2.5 exposure by 58.17 percent which induced novel changes in immune and inflammatory responses in the participants; however cardiopulmonary markers remained relatively stable in post-intervention assessment.

In this study, the investigators aim to evaluate the effects of mobile phone based (mHealth) Behavioural Change Communication (BCC) intervention on adoption and exclusive use of LPG. The investigators also aimed to observe whether long-term effects of HAP reduction can impact the subclinical measures of cardio-vascular and pulmonary dysfunction and regulate innate and inflammatory immune function among women and children in semi-rural settings in Bangladesh. The investigators will also investigate the influence of exposure to HAP on antibody response to vaccines (adaptive immunity). The BCC intervention will be provided by conducting a large household level randomized controlled trial by educational intervention using mHealth based technology. In addition, the investigators will continue following the cohort and will conduct rigorous and repeated personalized (24 hours) and area (over 5 days) assessments of PM2.5 and black carbon (BC) exposure to examine the long-term effects of HAP reduction on subclinical measures of cardio-pulmonary and immune dysfunction including effect of HAP exposure on antibody response to vaccine.

Detailed Description

Background:

Almost 3 billion people worldwide, including 89% people in Bangladesh, are exposed to harmful household air pollutants (HAP) emitted from combustion of biomass fuel (wood, agricultural residue, cow dung, etc.) used for cooking. While health risks associated with air-pollution have been reasonably well-studied in developed countries, there is little evidence on health benefits achievable by HAP reduction through clean fuel use such as Liquid Petroleum Gas, especially in low- and middle-income countries (LMICs).

Rationale: In the earlier GEOHealth (Round-I) study, the investigators have shown that LPG for 24 months, reduced personal PM2.5 exposure by 58.2 percent which induced novel changes in innate immune and inflammatory responses in women but the changes in chronic cardio-pulmonary markers were not prominent, most likely due to short duration of follow up and probably impact of ambient pollution. Moreover, sustained use of LPG could be challenging as earlier GEOHealth (Round-I) study provided the cook stove and supply of LPG free of cost. A post-completion screening showed \>70% households continued using LPG albeit not exclusively. It is plausible that an intervention using mobile phone-based application can improve the exclusive use of LPG in the communities.

Hypothesis:

1. The mobile phone based (mHealth) Behavioural Change Communication (BCC) intervention can be easily incorporated in Government policy that can promote adoption, and increase exclusive use of LPG in the communities.

The long-term effect of HAP reduction can be associated with-

2. subclinical measures of cardio-vascular and pulmonary dysfunction.

3. balanced changes in innate/ inflammatory and adaptive immune function (vaccine response).

Objectives: To evaluate

1. The effects of a scalable educational intervention (using mHealth application) on adoption and exclusive use of LPG.

2. The long-term effects of HAP reduction on subclinical measures of cardio-vascular and pulmonary dysfunction.

3. The long-term effects of HAP reduction on innate/ inflammatory immune function among women and children and to investigate the influence of HAP exposure on antibody response to vaccines (adaptive immunity).

Methods: The investigators will conduct a large household level randomized controlled trial by educational intervention using mobile phone (mHealth) based technology. In addition, the investigators will continue following the cohort and will conduct rigorous and repeated personalized (24 hours) and area-wise (over 5 days) assessments of PM2.5 and black carbon (BC) exposure to examine the long-term effects of HAP reduction on subclinical measures of cardio-pulmonary and immune dysfunction including effect of HAP exposure on antibody response to vaccine.

Outcome measures/variables: Personal and surrounding area PM2.5 and BC level will be measured at pre- and post-intervention. Lung function and lung pathology will be assessed through spirometry, Chest X-ray, and High-resolution Computed tomography of the chest (HRCT). Preclinical makers of cardiovascular diseases (CVD) will include blood pressure and EKG. Markers of metabolic dysfunction will be assesses by measuring HbA1c and fasting lipid profile. Immune function will be assessed by phenotyping of Immune cells, functional cytotoxic killer cells, oxidative stress of lymphocytes.

Study Timeline

• Study First Submitted: 2022-08-29
• Study First Submitted QC: 2022-10-04
• Study First Posted: 2022-10-06
• Study Start: 2023-06-20
• Status Verified: 2024-03
• Last Update Submitted: 2024-03-20
• Last Update Posted: 2024-03-22
• Primary Completion: 2027-05
• Study Completion: 2027-06

Recruitment & Eligibility

• Status: RECRUITING
• Sex: Female
• Target Recruitment: 1000

Inclusion Criteria

• Participants in the previous GEOHEALTH round-I study
• Aged between 25 and 70 years
• Live in biomass-using home with traditional stoves
• Non-smoker and live with non-smokers
• Exposed to <10 µg/L of water arsenic

Exclusion Criteria

• Known to have immune related illness or taking any prescription medication (particularly those that suppress or enhance immune function)
• Known to have any clinical events of CVD or lung disease, including stroke or coronary heart disease.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
mHealth arm	mHealth based behavioral change communication intervention	mHealth arm will receive mobile phone based behavior change communication intervention to exclusively use clean fuel LPG for domestic cooking.

Primary Outcome Measures

Name	Time	Method
Measurement of cardiovascular disease (CVD) markers by performing EKG	Two-year post intervention	Preclinical markers of CVD assessment by EKG
Assessment of immune function in blood cells	Two-year post intervention	Immune function will be assessed by phenotyping using flowcytometry
Ambient air pollution	Two-year post intervention	Measurement of ambient air pollution (PM2.5) by ambient air monitoring device
Measurement of cardiovascular disease (CVD) markers by measuring blood pressure	Two-year post intervention	Preclinical markers of CVD assessment by blood pressure
Personal air pollution	Two-year post intervention	Measurement of personal air pollution (PM2.5 and BC level) by personal air pollution monitoring device
Evaluation of metabolic markers (diabetes) in blood at baseline.	Pre-intervention	Assessment of metabolic dysfunction by measuring HbA1c
Evaluation of metabolic markers (CVD) in blood.	Two-year post intervention	Assessment of metabolic dysfunction by measuring fasting lipid profile.
Lung function assessment by spirometry	Two-year post intervention	Lung function assessment by spirometry
Assessment lung pathology by chest X-ray and High-resolution Computed tomography	Two-year post intervention	Lung pathology will be assessed by chest X-ray for all participants and high-resolution Computed tomography of the chest (HRCT) will be performed in selected participants.
Evaluation of metabolic markers (diabetes) in blood after intervention.	Two-year post intervention	Assessment of metabolic dysfunction by measuring HbA1c

Trial Locations

Locations (1)

International Centre for Diarrhoeal Diseases Research, Bangladesh; 🇧🇩 Dhaka, Bangladesh