Optimizing Ventilation to Improve Health

NCT03894995 | Completed

• 1 other identifier: 46212
• Study Type: interventional
• Target: 240
• Locations: 1 country
• Sites: 1

Brief Summary

Our overall goal is to optimize preferred, ventilating windows/apertures/vents in low-income neighborhoods of Dhaka, Bangladesh. We will: I. Collect baseline data on housing types and finalize windows/vents protoypes. II. Measure the impact of improved ventilation on air exchange rates in houses in low-income neighborhoods of Dhaka and characterize the current and potential market for windows/vents in households in low-income neighborhoods of Dhaka, Bangladesh. III. Understand recipients' (tenants and landords) perceived benefits of installed window/vent designs and difficulties faced with adoption of each design

Conditions

Pollution; Exposure

Keywords

Ventilation

Outcome Measures

Primary Outcomes (13)

• Household air exchange rate - spring (Part 3)

  Repeated household measurements of effective point ventilation to approximate air exchange rates in both treatment and control households will be obtained. Air exchange rates will be reported as air changes per hour for the home as well as liters of air per cubic meter per second per person.

  50 minutes

• Household air exchange rate - summer (Part 3)

  Repeated household measurements of effective point ventilation to approximate air exchange rates in both treatment and control households will be obtained. Air exchange rates will be reported as air changes per hour for the home as well as liters of air per cubic meter per second per person.

  50 minutes

• Household air exchange rate - fall (Part 3)

  Repeated household measurements of effective point ventilation to approximate air exchange rates in both treatment and control households will be obtained. Air exchange rates will be reported as air changes per hour for the home as well as liters of air per cubic meter per second per person.

  50 minutes

• Household air exchange rate - winter (Part 3)

  Repeated household measurements of effective point ventilation to approximate air exchange rates in both treatment and control households will be obtained. Air exchange rates will be reported as air changes per hour for the home as well as liters of air per cubic meter per second per person.

  50 minutes

• Number of households that adopt the intervention (Part 3)

  Takeup of the intervention will be defined by whether a household had a ventilation design installed, either by winning the BDM auction paying the full price or by accepting a free installation after previously losing the BDM auction.

  20 minutes

• Revealed willingness-to-pay for ventilation (Part 3)

  We will obtain stated willingness-to-pay for the ventilation designs through the BDM auction mechanism, which will be used to trace out a demand curve for ventilation, plotting the number of households that are willing to pay for a window agaist their stated price.

  20 minutes

• Concentration of radon gas in house (Part 3)

  We will assess the concentration gas in a subset of study households.

  7 days

• Concentration of indoor particulate matter 2.5 (Part 3)

  We will determine the indoor PM2.5 levels in study households, as well as the number of hours with indoor PM2.5 exceeding 50 and 100 µg/m3 during the observation period. A subset of households will have longer tests for quality control.

  48 hours for normal tests; 72 hours for quality control tests.

• Concentration of indoor particulate matter 2.5 (Part 2)

  We will determine the indoor PM2.5 levels in study households, as well as the number of hours with indoor PM2.5 exceeding 50 and 100 µg/m3 during the observation period.

  up to 5 hours

• Concentration of outdoor particulate matter 2.5 (Part 2)

  We will determine the outdoor PM2.5 levels near the study households.

  up to 5 hours

• Personal exposure to particulate matter 2.5 - mother (Part 2)

  We will determine the PM2.5 levels near the mother using a monitor worn on her body.

  up to 5 hours

• Personal exposure to particulate matter 2.5 - child (Part 2)

  We will determine the PM2.5 levels near the child using a monitor worn on her body.

  up to 5 hours

• Number of non-study, neighboring households that adopt the intervention and their willingness to pay (Part 4)

  We will survey households that neighbor enrolled study households to ask if they have installed a window on their own since the enrollment for the randomized control trial. If they did install a window, we will ask how much they paid.

  15 minutes

Study Arms (5)

Part 1. Focus group discussions on ventilation preferences

NO INTERVENTION

Participant's perceived benefits/detriments of having ventilation options in the household and their opinions on the behavior change material developed to encourage increased household ventilation will be explored using 6-9 focus group discussions with 10-12 participants each.

Part 2. PM 2.5 pilot

NO INTERVENTION

Indoor, outdoor, and personal particulate matter concentrations among ten mother-child pairs and their homes will be monitored.

Part 3. Intervention

EXPERIMENTAL

Households will participate in a baseline survey and a Beck-DeGroot-Marshak auction to establish willingness-to-pay for ventilation. If the household wins, or if it is decided to install ventilation in all intervention households, the household will receive installation of a ventilating mechanism.

Other: Installation of ventilation

Part 3. Control

NO INTERVENTION

For 12 month after intervention, the air exchange rate will be measured in all control households.

Part 4. Spillover

NO INTERVENTION

Households that neighbor enrolled study households will be surveyed and asked whether they, on their own, chose to install a window. If they did install a window, they will be asked how much they paid.

Interventions

Installation of ventilation OTHER

The intervention is installation of a ventilating structure, in this case a window in the house roof.

Part 3. Intervention

Eligibility Criteria

• Age: 18 Years+
• Sex: all
• Healthy Volunteers: Yes
• Age Groups: Adult (18-64), Older Adult (65+)

You may qualify if:

• \) lack cross-ventilation at the time of enrollment
• \) have obtained landlord permission to make adjustments to their dwelling,
• \) have a free roof where a window can be installed

You may not qualify if:

• \) Household reports receiving dust from nearby machine that pulverizes materials for making roads

Sponsors & Collaborators

• Stanford University: lead
• International Centre for Diarrhoeal Disease Research, Bangladesh: collaborator
• Johns Hopkins University: collaborator
• University at Buffalo: collaborator

Study Sites (1)

International Centre for Diarrhoeal Disease Research, Bangladesh

Dhaka, 1212, Bangladesh

Location

MeSH Terms

Conditions

Respiratory Aspiration

Condition Hierarchy (Ancestors)

Respiration Disorders; Respiratory Tract Diseases; Pathologic Processes; Pathological Conditions, Signs and Symptoms

Study Officials

• Stephen P Luby, Dr.

  Stanford University

  PRINCIPAL INVESTIGATOR

Study Design

• Study Type: interventional
• Phase: not applicable
• Allocation: RANDOMIZED
• Masking: NONE
• Purpose: PREVENTION
• Intervention Model: PARALLEL
• Sponsor Type: OTHER
• Responsible Party: PRINCIPAL INVESTIGATOR
• PI Title: Professor of Medicine (Infectious Diseases)

Study Record Dates

• First Submitted: March 27, 2019
• First Posted: March 29, 2019
• Study Start: June 19, 2018
• Primary Completion: November 1, 2021
• Study Completion: June 30, 2022
• Last Updated: October 12, 2022

Record last verified: 2022-10

Data Sharing

• IPD Sharing: Will not share

Locations

BA (1)