A protocol for measuring the impact of a smoke-free housing policy on indoor tobacco smoke exposure

Cardozo, Rodrigo Arce; Feinberg, Alexis; Tovar, Albert; Vilcassim, M J Ruzmyn; Shelley, Donna; Elbel, Brian; Kaplan, Sue A.; Wyka, Katarzyna; Rule, Ana M.; Gordon, Terry; Thorpe, Lorna E.

doi:10.1186/s12889-019-7043-3

Cited by 14 publications

(20 citation statements)

References 51 publications

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“…The demographic composition and prevalence of cigarette smoking among NYCHA and Section 8 residents were highly comparable (p>0.05) (Table 1). 19 More than half of residents reported smelling cigarette smoke (60%) and two-thirds report smelling marijuana smoke (67%) in their home over the past year. Cigarette smoking status and smelling SHS were both strong predictors of smelling SHMS.…”

Section: Resultsmentioning

confidence: 99%

“…The study population and procedures have been described elsewhere. 19 Study protocol and procedures were approved by the Institutional Review Board at the New York University School of Medicine on July 20, 2017; IRB number: i17-00968. Written informed consent was obtained from study participants by trained field staff and Memorandums of Understanding were signed by all institutions involved for the appropriate exchange of data following good clinical practice and HIPAA compliance.…”

Section: Methods: Study Populationmentioning

confidence: 99%

“…Using building resident rosters as sampling frames, surveys were administered to NYCHA residents between April-July 2018 (pre-SFH policy implementation) and to Section 8 building residents between August -November 2018. 19 Of 4,628 eligible residents, 1,030 participated (response rates, 35% NYCHA, 32% Section 8).…”

Section: Resident Surveymentioning

confidence: 99%

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Self-reported Secondhand Marijuana Smoke (SHMS) Exposure in Two New York City (NYC) Subsidized Housing Settings, 2018: NYC Housing Authority and Lower-Income Private Sector Buildings

et al. 2019

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Introduction:The percentage of adults in the United States reporting current marijuana use has more than doubled, from 4% to 9% between 2002 and 2018, suggesting that exposure to secondhand marijuana smoke (SHMS) has probably increased. Few studies have characterized the extent to which residents experience SHMS, particularly those living in multi-unit housing. It remains unknown how recently implemented smoke-free housing policies (SFH) targeting cigarette smoke in public housing authorities (PHAs) will affect SHMS exposure.Objective: To characterize prevalence of self-reported SHMS exposure among residents living in two different subsidized housing settings prior to SFH policy implementation in PHAs: New York City Housing Authority (NYCHA) buildings and private sector buildings where most residents receive Section 8 subsidy vouchers (herein 'Section 8' buildings).

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Section: Resultsmentioning

confidence: 99%

Section: Methods: Study Populationmentioning

confidence: 99%

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Self-reported Secondhand Marijuana Smoke (SHMS) Exposure in Two New York City (NYC) Subsidized Housing Settings, 2018: NYC Housing Authority and Lower-Income Private Sector Buildings

et al. 2019

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“…This study followed the Transparent Reporting of Evaluations With Nonrandomized Designs (TREND) reporting guideline. 21 Detailed information on the study population and procedures has been described elsewhere. 22…”

Section: Study Populationmentioning

confidence: 99%

Evaluation of Secondhand Smoke Exposure in New York City Public Housing After Implementation of the 2018 Federal Smoke-Free Housing Policy

et al. 2020

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IMPORTANCE Secondhand smoke (SHS) exposure is associated with many health conditions in children and adults. Millions of individuals in the US are currently exposed to SHS in their homes. OBJECTIVE To investigate whether a federal ban on smoking in public housing settings was associated with a decrease in indoor SHS levels in New York City public housing developments 12 months after the policy's implementation. DESIGN, SETTING, AND PARTICIPANTS This cohort study tracked indoor air quality longitudinally from April 2018 to September 2019 and used difference-indifferences analysis to examine SHS exposure before vs after implementation of the 2018 federal smoke-free housing (SFH) policy in 10 New York City Housing Authority (NYCHA) buildings vs 11 matched low-income buildings not subject to the SFH policy (ie, Section 8 buildings).

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“…After each laboratory calibration, the Airbeam units were deployed in a large, natural experiment evaluating the impact of new smoke-free housing (SFH) policies on air quality in public housing units every 6 months. 11,23 Due to the onset of the COVID-19 pandemic, we were unable to perform Airbeam sensor calibration 24 months post-SFH policy implementation (April-September 2020). A calibration technical error for select Airbeam 2 sensors occurred at 30 months post-SFH policy (December-March 2021), leading to their exclusion from data analysis at that timepoint.…”

Section: Field Sampling Periodsmentioning

confidence: 99%

Feasibility of Low-Cost Particle Sensor Types in Long-Term Indoor Air Pollution Health Studies After Repeated Calibration Over a 2-Year Timeframe

Anastasiou

Vilcassim

Adragna

et al. 2021

Preprint

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Background Previous studies have explored using calibrated low-cost particulate matter (PM) sensors, but important research gaps remain regarding long-term performance and reliability. Objective Evaluate longitudinal performance of low-cost particle sensors by measuring sensor performance changes over 2 years of use. Methods 51 low-cost particle sensors (Airbeam 1 N=29; Airbeam 2 N=22) were calibrated four times over a 2-year timeframe between 2019-2021. Cigarette smoke-specific calibration curves for Airbeam 1 and 2 PM sensors were created by directly comparing simultaneous 1-min readings of a Thermo Scientific Personal DataRAM PDR-1500 unit with a 2.5 µm inlet. Results Inter-sensor variability in calibration coefficient was high, particularly in Airbeam 1 sensors at study initiation. Calibration coefficients for both sensor types trended downwards over time to <1 at final calibration timepoint [Airbeam 1 Mean (SD)= 0.87 (0.20); Airbeam 2 Mean (SD) = 0.96 (0.27)]. We lost more Airbeam 1 sensors (N=27, failure rate 48.2%) than Airbeam 2 (N=2, failure rate 16.7%) due to electronics, battery, or data output issues. Conclusions Evidence suggests degradation over time might depend more on particle sensor type, rather than individual usage. Repeated calibrations of low-cost particle sensors may increase confidence in reported PM levels in longitudinal indoor air pollution studies.

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A protocol for measuring the impact of a smoke-free housing policy on indoor tobacco smoke exposure

Cited by 14 publications

References 51 publications

Self-reported Secondhand Marijuana Smoke (SHMS) Exposure in Two New York City (NYC) Subsidized Housing Settings, 2018: NYC Housing Authority and Lower-Income Private Sector Buildings

Self-reported Secondhand Marijuana Smoke (SHMS) Exposure in Two New York City (NYC) Subsidized Housing Settings, 2018: NYC Housing Authority and Lower-Income Private Sector Buildings

Evaluation of Secondhand Smoke Exposure in New York City Public Housing After Implementation of the 2018 Federal Smoke-Free Housing Policy

Feasibility of Low-Cost Particle Sensor Types in Long-Term Indoor Air Pollution Health Studies After Repeated Calibration Over a 2-Year Timeframe

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