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This study will examine how breathing wildfire-related air pollution (WRAP) for one hour affects healthy adults. The main question the study will answer if the effect of WRAP exposure on p-tau, a blood marker of cognitive decline. The changes in p-tau concentrations after exposure to WRAP will be compared to the changes in p-tau after exposure to clean air. Participants will: * Have 2 study visits - one visit with exposure to clean air and one visit with exposure to simulated wildfire smoke * Have blood drawn before and after each exposure * Complete cognitive tests and memory tasks before and after each exposure
This is a small pilot intervention tria lfor exercise and air pollution.
The goal of this clinical trial is to learn about whether indoor air quality will improve over time in homes where occupants receive personalized information about levels of health-relevant air pollutants that includes practical, budget-friendly, and culturally relevant recommendations on actions they can take to improve their home's air quality. The rationale for the investigators' approach is that a rigorous intervention study design will generate robust evidence on the value of the in-home environmental data. Participating homes in both the intervention and control groups will receive three, one-week Home Health Box deployments spaced six weeks apart. After each of the first two deployments, homes in the intervention group will receive a Home Health Report with personalized information about in-home levels of health-relevant air pollutants and cost-sensitive recommendations on actions occupants can take to improve their home's air quality. The investigators will (a) investigate whether and how air quality changes over time in control and intervention homes and (b) survey intervention households on the utility of the Home Health Reports.
Fine particulate matter \<2.5 µm (PM2.5) air pollution is the fifth leading risk factor for global mortality, with the largest portion of deaths due to cardiovascular disease (CVD). While several mechanisms are responsible, PM2.5-induced elevations in blood pressure (BP) may be relevant. Indoor portable air cleaners (PACs) are a novel approach to reduce exposure to PM2.5 and potentially lower blood pressure. The current study is being conducted to provide evidence that PACs reduce PM2.5 exposure and lower systolic blood pressure (SBP) in key patient populations.
Alaska Native children experience a high burden of respiratory disease, especially those in the Yukon-Kuskokwim (YK) Delta. Studies have shown that things like wood stove use, poor ventilation, and indoor tobacco smoke exposure can lead to poor indoor air quality inside the children's homes. This leads to more frequent and more severe respiratory infections in children. In the Yukon-Kuskokwim (YK) Delta, it's common for homes to have exposure to woodstoves and tobacco use. Both of these activities affect indoor air quality in homes. We know that high efficiency particulate air (HEPA) purifiers can reduce particulate matter and make air quality better. One way that we measure air quality is through particulate matter (PM2.5). One of the few studies that looked at this in the YK Delta found that PM2.5 levels that were nearly twice as high as homes with woodstoves in other states. We believe it is important to reduce the PM2.5 in YK Delta homes. However, the few studies that looked at HEPA purifiers in rural Alaska did not include homes where smokers lived. We know that breathing air with PM2.5 harms the lungs. We also know that HEPA filters can reduce PM2.5, which can mean reducing cough and wheeze in people with chronic lung conditions. We want to learn how HEPA filters work in homes with woodstoves or where a smoker lives, as it's likely these homes may have more PM2.5 than other homes. We expect that using HEPA filters will make the indoor air better and will mean decreased respiratory symptoms. We plan to include 15 households with a child less than 5 years old in the family. Households that join will be asked to: * Set up study equipment in their homes. * Run the study equipment for 12 weeks and do a weekly report of child's respiratory symptoms by phone or text. * Return the air-quality monitor equipment to the study team and keep the HEPA filters.
This double-blind, randomized, crossover trial aims to test the hypothesis that longer-term indoor air filtration intervention can slow atherothrombosis progression by reducing indoor fine particulate matter (PM2.5) exposure in adults with ischemic heart disease history.
The purpose of the study is to better understand the mechanisms of lung injury from ozone exposure. Subjects will participate in two exposure sessions: filtered air and 0.2 ppm ozone. The exposure visits will be at least 2 weeks apart. Subjects will be asked to produce sputum through coughing after each exposure. The samples will be analyzed for macrophage activity.
The goal of this randomized, double-blind, crossover trial is to test the hypothesis that a longer-term indoor HEPA filtration intervention can improve cardiometabolic profiles by reducing indoor PM2.5 exposures in at-risk individuals.
Purpose: To determine whether 3-day consecutive exposures to levels of fine particulate matter (PM2.5) that are close to the current 24-hr national standard will cause changes in inflammatory and cardiopulmonary endpoints in healthy young individuals. Participants: 20 healthy males and females aged 18-35 years. Procedures (methods): Subjects will be randomly exposed to three consecutive days of filtered air (4 hr/day) and three consecutive days of PM2.5 (approximately 35 µg/m3; 4 hr/day) in an exposure chamber. Blood collection for inflammatory factors such as C-reactive protein (CRP), clotting factors; heart rate variability (HRV); spirometry; and a symptom questionnaire will be conducted before and after each exposure.
The overarching goal of this project is to conduct a pilot intervention in high-risk Kaiser Permanente Northern California patients with chronic obstructive pulmonary disease to mitigate their exposure to poor air quality and decrease exacerbations of lung disease.