Assessing the Effects of Cool Roofs on Indoor Environments and Health in Niue (REFLECT)

Aditi Bunker

Status

Enrolling

Conditions

Aggression

Heat-related Symptoms

Hospitalization

Coping Ability

Systolic Blood Pressure

Indoor Air Temperature

Blood Glucose Control

Sleep Quality

Life Satisfaction

Indoor Heat Index

Dehydration

Physician Diagnosed Heat-related Illnesses

Household Energy Expenditure

Indoor Thermal Comfort

Food Insecurity

Cognition

Healthcare Provider Utilization

Diastolic Blood Pressure

Resting Heart Rate

Inner Ear Canal Temperature

Indoor Relative Humidity

Diet Quality

Health-related Quality of Life

Depression

Productivity

Treatments

Other: Cool roof

Study type

Interventional

Funder types

Other

Identifiers

NCT06570993

226745/Z/22/Z (Other Grant/Funding Number)

3728160

Details and patient eligibility

About

Ambient air temperatures in the Pacific have broken record highs in 2024. Solutions are needed to build heat resilience in communities and adapt to increasing heat from climate change. Sunlight-reflecting cool roof coatings may passively reduce indoor temperatures and energy use to protect home occupants from extreme heat. Occupants living in poor housing conditions in the Pacific are susceptible to increased heat exposure.

Heat exposure can instigate and worsen numerous physical, mental and social health conditions. The worst adverse health effects are experienced in communities that are least able to adapt to heat exposure. By reducing indoor temperatures, cool roof use can promote physical, mental and social wellbeing in household occupants.

The long-term research goal of the investigators is to identify viable passive housing adaptation technologies with proven health benefits to reduce the burden of heat stress in communities affected by heat in Niue. To meet this goal, the investigators will conduct a cluster-randomized controlled trial to establish the effects of cool roof use on health, indoor environment and economic outcomes in Niue.

Full description

Increasing heat exposure from climate change is causing and exacerbating heat-related illnesses in millions worldwide - particularly in low resource settings. June 2024 was the 13th consecutive hottest month on record globally - shattering previous records. Heat exposure can instigate and worsen health conditions including cardiovascular, metabolic, endocrine and respiratory disease, heat-related illnesses, pregnancy complications, and mental health conditions. Adaptation is essential for protecting people from increasing heat exposure. The built environment, especially homes, are ideal for deploying interventions to reduce heat exposure and accelerate adaptation efforts. However, there currently is a lack of evidence on a global scale - generated through empirical studies - guiding the uptake of interventions to reduce heat stress in low resource settings.

Pacific Islands and other small island developing states are among the most vulnerable to the adverse impacts of climate change and are likely to experience increases in ambient air temperature over the coming decades. People in Niue are exposed to heat and humidity year-round. The Pacific Islands have a large burden of non-communicable diseases (NCDs), with nearly three-quarters of deaths due to NCDs. The combined burden of heat and NCDs places Pacific Island populations at greater risk of adverse health effects from heat extremes.

Sunlight-reflecting cool roof coatings passively reduce indoor temperatures and lower energy use, offering protection to home occupants from extreme heat. The investigators therefore aim to conduct a cluster-randomized controlled trial investigating the effects of cool-roof use on health, environmental and economic outcomes in Niue.

The trial will quantify whether cool roofs are an effective passive home cooling intervention with beneficial health effects for vulnerable populations in Niue. Findings will inform regional policy responses on scaling cool roof implementation to protect people from increasing heat exposure driven by climate change.

Enrollment

800 estimated patients

Sex

All

Ages

18+ years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

Participant criteria:

Consenting adults aged 18 years and over.
Expected to be available to participate in the study for at least nine months in the next 12 months.

Household criteria:

House has a metal roof.
House is single-story.

Exclusion criteria

Household criteria:

Unstable house structure that does not permit the application of cool roof materials.
Inaccessible by the research team.
Significant roof damage defined as any penetrative roof defect that results in a hole in the roof OR over 25% of the roof rusted.