OBJECTIVE: Overall, police officers have higher rates of several adverse health conditions (e.g., cardiovascular health profiles and post-traumatic stress disorder (PTSD)) compared to persons in many other occupations. Our objective was to conduct a comparative study of occupational exposures and health outcomes among police officers across: (a) a 7-year period, from the baseline examination (2004-2009) to the 1st follow-up examination (2011-2015) and (b) a 12-year period, from baseline to the 2nd follow-up examination (2015-2019). METHODS: Participants were from the Buffalo Cardio-Metabolic Occupational Police Stress (BCOPS) Study. Variables were assessed through self-report, standardized validated questionnaires, or standardized medical procedures. We computed the 7- and 12-year changes in mean values (for continuous/numeric variables) or prevalence (for categorical variables) and the corresponding 95% confidence intervals (CIs) using MIXED and GENMOD procedures in SAS. RESULTS: Occupational stress significantly increased over 12 years [3.4; (95% CI 1.2, 5.6)]. The percentage of officers who reported excellent/very good health significantly decreased across both time periods: [- 11.8%; (- 17.8, - 5.9)] across seven years and [- 17.3%; (- 24.2, - 10.4)] across 12 years. The prevalence of metabolic syndrome increased over seven years [10.7%; (5.3-16.0)] and over 12 years [7.4%; (0.1-14.0)]. Abdominal obesity and glucose intolerance significantly increased over both time periods while hypertension and elevated triglyceride levels increased slightly but not significantly over both time periods. CONCLUSION: Occupational stressors and some health outcomes of officers worsened over time indicating the need for self-health monitoring and wellness programs for police.

Many respiratory diseases, including COVID-19, can be spread by aerosols expelled by infected people when they cough, talk, sing, or exhale. Exposure to these aerosols indoors can be reduced by portable air filtration units (air cleaners). Homemade or Do-It-Yourself (DIY) air filtration units are a popular alternative to commercially produced devices, but performance data is limited. Our study used a speaker-audience model to examine the efficacy of two popular types of DIY air filtration units, the Corsi-Rosenthal cube and a modified Ford air filtration unit, in reducing exposure to simulated respiratory aerosols within a mock classroom. Experiments were conducted using four breathing simulators at different locations in the room, one acting as the respiratory aerosol source and three as recipients. Optical particle spectrometers monitored simulated respiratory aerosol particles (0.3-3 μm) as they dispersed throughout the room. Using two DIY cubes (in the front and back of the room) increased the air change rate as much as 12.4 over room ventilation, depending on filter thickness and fan airflow. Using multiple linear regression, each unit increase of air change reduced exposure by 10%. Increasing the number of filters, filter thickness, and fan airflow significantly enhanced the air change rate, which resulted in exposure reductions of up to 73%. Our results show DIY air filtration units can be an effective means of reducing aerosol exposure. However, they also show performance of DIY units can vary considerably depending upon their design, construction, and positioning, and users should be mindful of these limitations.