Your search keyword '"Kimberly Vermeer"' showing total 7 results

1. In-home environmental exposures predicted from geospatial characteristics of the built environment and electronic health records of children with asthma

Author

Matthew Bozigar, Catherine L. Connolly, Aaron Legler, William G. Adams, Chad W. Milando, David B. Reynolds, Fei Carnes, Raquel B. Jimenez, Komal Peer, Kimberly Vermeer, Jonathan I. Levy, and Maria Patricia Fabian

Subjects

Mice, Epidemiology, Air Pollution, Indoor, Housing, Animals, Electronic Health Records, Humans, Cockroaches, Environmental Exposure, Built Environment, Asthma, Rats

Abstract

Children may be exposed to numerous in-home environmental exposures (IHEE) that trigger asthma exacerbations. Spatially linking social and environmental exposures to electronic health records (EHR) can aid exposure assessment, epidemiology, and clinical treatment, but EHR data on exposures are missing for many children with asthma. To address the issue, we predicted presence of indoor asthma trigger allergens, and estimated effects of their key geospatial predictors.Our study samples were comprised of children with asthma who provided self-reported IHEE data in EHR at a safety-net hospital in New England during 2004-2015. We used an ensemble machine learning algorithm and 86 multilevel features (e.g., individual, housing, neighborhood) to predict presence of cockroaches, rodents (mice or rats), mold, and bedroom carpeting/rugs in homes. We reduced dimensionality via elastic net regression and estimated effects by the G-computation causal inference method.Our models reasonably predicted presence of cockroaches (area under receiver operating curves [AUC] = 0.65), rodents (AUC = 0.64), and bedroom carpeting/rugs (AUC = 0.64), but not mold (AUC = 0.54). In models adjusted for confounders, higher average household sizes in census tracts were associated with more reports of pests (cockroaches and rodents). Tax-exempt parcels were associated with more reports of cockroaches in homes. Living in a White-segregated neighborhood was linked with lower reported rodent presence, and mixed residential/commercial housing and newer buildings were associated with more reports of bedroom carpeting/rugs in bedrooms.We innovatively applied a machine learning and causal inference mixture methodology to detail IHEE among children with asthma using EHR and geospatial data, which could have wide applicability and utility.

Published

2022

2. Sensitivity of modeled residential fine particulate matter exposure to select building and source characteristics: A case study using public data in Boston, MA

Author

Chad W. Milando, Fei Carnes, Kimberly Vermeer, Jonathan I. Levy, and M. Patricia Fabian

Subjects

Air Pollutants, Environmental Engineering, Environmental Exposure, Pollution, Air Pollution, Indoor, Housing, Environmental Chemistry, Humans, Particulate Matter, Particle Size, Child, Waste Management and Disposal, Boston, Environmental Monitoring

Abstract

Many techniques for estimating exposure to airborne contaminants do not account for building characteristics that can magnify contaminant contributions from indoor and outdoor sources. Building characteristics that influence exposure can be challenging to obtain at scale, but some may be incorporated into exposure assessments using public datasets. We present a methodology for using public datasets to generate housing models for a test cohort, and examined sensitivity of predicted fine particulate matter (PM

Published

2022

3. Modeling the resiliency of energy-efficient retrofits in low-income multifamily housing

Author

Megan Sandel, Jessica H. Leibler, Maria Patricia Fabian, Gary Adamkiewicz, Jonathan I. Levy, Kimberly Vermeer, and Lindsay Jeanne Underhill

Subjects

Low income, Weatherization, Environmental Engineering, medicine.medical_treatment, Nitrogen Dioxide, 0211 other engineering and technologies, Conservation of Energy Resources, 02 engineering and technology, 010501 environmental sciences, complex mixtures, 01 natural sciences, Article, law.invention, Indoor air quality, law, 021105 building & construction, HVAC, medicine, Humans, Cooking, Poverty, Weather, 0105 earth and related environmental sciences, Air Pollutants, business.industry, Public Health, Environmental and Occupational Health, Environmental Exposure, Building and Construction, Environmental economics, Ventilation, Air Pollution, Indoor, Ventilation (architecture), Housing, Smoking cessation, Environmental science, Particulate Matter, business, Window opening, Boston, Efficient energy use

Abstract

Residential energy efficiency and ventilation retrofits (e.g., building weatherization, local exhaust ventilation, HVAC filtration) can influence indoor air quality (IAQ) and occupant health, but these measures’ impact varies by occupant activity. In this study, we used the multi-zone airflow and IAQ analysis program CONTAM to simulate the impacts of energy retrofits on indoor concentrations of PM(2.5) and NO(2) in a low-income multifamily housing complex in Boston, Massachusetts (USA). We evaluated the differential impact of residential activities, such as low- and high-emission cooking, cigarette smoking, and window-opening, on IAQ across two seasons. We found that a comprehensive package of energy and ventilation retrofits was resilient to a range of occupant activities, while less holistic approaches without ventilation improvements led to increases in indoor PM(2.5) or NO(2) for some populations. In general, homes with simulated concentration increases included those with heavy cooking and no local exhaust ventilation, and smoking homes without HVAC filtration. Our analytical framework can be used to identify energy efficient home interventions with indoor retrofit resiliency (i.e., those that provide IAQ benefits regardless of occupant activity), as well as less resilient retrofits that can be coupled with behavioral interventions (e.g., smoking cessation) to provide cost-effective, widespread benefits.

Published

2018

4. Indoor environmental quality benefits of apartment energy retrofits

Author

Gary Adamkiewicz, Federico Noris, William J. Fisk, Marion L. Russell, Michael Spears, Toshifumi Hotchi, William W. Delp, Brett C. Singer, and Kimberly Vermeer

Subjects

Pollutant, Engineering, Environmental Engineering, Apartment, Waste management, business.industry, Geography, Planning and Development, Environmental engineering, Humidity, Building and Construction, Attic, Energy consumption, chemistry.chemical_compound, chemistry, Carbon dioxide, Nitrogen dioxide, business, Environmental quality, Civil and Structural Engineering

Abstract

Sixteen apartments serving low-income populations in three buildings were retrofit with the goal of simultaneously reducing energy consumption and improving indoor environmental quality (IEQ). Retrofit measures varied among apartments and included, among others, envelope sealing, installation of continuous mechanical ventilation systems, upgrading bathroom fans and range hoods, attic insulation, replacement of heating and cooling systems, and adding wall-mounted particle air cleaners. IEQ parameters were measured, generally for two one-week periods before and after the retrofits. The measurements indicate an overall improvement in IEQ conditions after the retrofits. Comfort conditions, bathroom humidity, and concentrations of carbon dioxide, acetaldehyde, volatile organic compounds, and particles generally improved. Formaldehyde and nitrogen dioxide levels decreased in the building with the highest concentrations, were unchanged in a second building, and increased in a third building. IEQ parameters other than particles improved more in apartments with continuous mechanical ventilation systems installed. In general, but not consistently, larger percent increases in air exchange rates were associated with larger percent decreases in indoor levels of the pollutants that primarily come from indoor sources.

Published

2013

5. Protocol for maximizing energy savings and indoor environmental quality improvements when retrofitting apartments

Author

Brett C. Singer, Federico Noris, Gary Adamkiewicz, William J. Fisk, William W. Delp, and Kimberly Vermeer

Subjects

Protocol (science), Engineering, Architectural engineering, Waste management, Apartment, business.industry, Mechanical Engineering, Building energy, Building and Construction, Retrofitting, Electrical and Electronic Engineering, business, Energy (signal processing), Environmental quality, Civil and Structural Engineering

Abstract

The current focus on building energy retrofit provides an opportunity to simultaneously improve indoor environmental quality (IEQ). Toward this end, we developed a protocol for selecting packages of retrofits that both save energy and improve IEQ in apartments. The protocol specifies the methodology for selecting retrofits from a candidate list while addressing expected energy savings, IEQ impacts, and costs in an integrated manner. Interviews, inspections and measurements are specified to collect the needed input information. The protocol was applied to 17 apartments in three buildings in two different climates within California. Diagnostic measurements and surveys conducted before and after retrofit implementation indicate enhanced apartment performance.

Published

2013

6. Modeling Environmental Tobacco Smoke (ETS) Infiltration in Low-Income Multifamily Housing before and after Building Energy Retrofits

Author

Kimberly Vermeer, Gary Adamkiewicz, Sharon K. Lee, Jonathan I. Levy, Lindsay J. Underhill, and Maria Patricia Fabian

Subjects

Architectural engineering, 010504 meteorology & atmospheric sciences, building retrofits, Public housing, Health, Toxicology and Mutagenesis, Conservation of Energy Resources, lcsh:Medicine, environmental tobacco smoke, Stack effect, 010501 environmental sciences, building simulation, 01 natural sciences, Article, smoking, energy savings, Indoor air quality, HVAC, Humans, Computer Simulation, 0105 earth and related environmental sciences, Public Housing, Apartment, business.industry, lcsh:R, Public Health, Environmental and Occupational Health, Environmental Exposure, Environmental exposure, Models, Theoretical, Infiltration (HVAC), Ventilation, Smoke-Free Policy, Air conditioning, Air Pollution, Indoor, Environmental science, Tobacco Smoke Pollution, indoor air quality, business, Boston

Abstract

Secondhand exposure to environmental tobacco smoke (ETS) in multifamily housing remains a health concern despite strong recommendations to implement non-smoking policies. Multiple studies have documented exposure to ETS in non-smoking units located in buildings with smoking units. However, characterizing the magnitude of ETS infiltration or measuring the impact of building interventions or resident behavior on ETS is challenging due to the complexities of multifamily buildings, which include variable resident behaviors and complex airflows between numerous shared compartments (e.g., adjacent apartments, common hallways, elevators, heating, ventilating and air conditioning (HVAC) systems, stack effect). In this study, building simulation models were used to characterize changes in ETS infiltration in a low income, multifamily apartment building in Boston which underwent extensive building renovations targeting energy savings. Results suggest that exterior wall air sealing can lead to increases in ETS infiltration across apartments, while compartmentalization can reduce infiltration. The magnitude and direction of ETS infiltration depends on apartment characteristics, including construction (i.e., level and number of exterior walls), resident behavior (e.g., window opening, operation of localized exhaust fans), and seasonality. Although overall ETS concentrations and infiltration were reduced post energy-related building retrofits, these trends were not generalizable to all building units. Whole building smoke-free policies are the best approach to eliminate exposure to ETS in multifamily housing.

Published

2016

7. Protocol for Maximizing Energy Savings and Indoor Environmental Quality Improvements when Retrofiting Apartments

Author

Federico Noris, William W. Delp, Kimberly Vermeer, Gary Adamkiewicz, Brett C. Singer, and William J. Fisk

Published

2012