Your search keyword '"Cerhan, James R."' showing total 3 results

1. Modeling variation in mixture effects over space with a Bayesian spatially varying mixture model.

Author

Boyle, Joseph, Ward, Mary H., Cerhan, James R., Rothman, Nat, and Wheeler, David C.

Subjects

NON-Hodgkin's lymphoma, STATISTICAL power analysis, MIXTURES

Abstract

Mixture analysis is an emerging statistical tool in epidemiological research that seeks to estimate the health effects associated with mixtures of several exposures. This approach acknowledges that individuals experience many simultaneous exposures and it can estimate the relative importance of components in the mixture. Health effects due to mixtures may vary over space driven by to political, demographic, environmental, or other differences. In such cases, estimating a global mixture effect without accounting for spatial variation would induce bias in effect estimates and potentially lower statistical power. To date, no methods have been developed to estimate spatially varying chemical mixture effects. We developed a Bayesian spatially varying mixture model that estimates spatially varying mixture effects and the importance weights of components in the mixture, while adjusting for covariates. We demonstrate the efficacy of the model through a simulation study that varies the number of mixtures (one and two) and spatial pattern (global, one‐dimensional, radial) and magnitude of mixture effects, showing that the model is able to accurately reproduce the spatial pattern of mixture effects across a diverse set of scenarios. Finally, we apply our model to a multi‐center case‐control study of non‐Hodgkin lymphoma (NHL) in Detroit, Iowa, Los Angeles, and Seattle. We identify significant spatially varying positive and inverse associations with NHL for two mixtures of pesticides in Iowa and do not find strong spatial effects at the other three centers. In conclusion, the Bayesian spatially varying mixture model represents a novel method for modeling spatial variation in mixture effects. [ABSTRACT FROM AUTHOR]

Published

2024

2. Modeling historic neighborhood deprivation and non-Hodgkin lymphoma risk.

Author

Boyle, Joseph, Ward, Mary H., Cerhan, James R., Rothman, Nathaniel, and Wheeler, David C.

Subjects

*HISTORIC districts, *NON-Hodgkin's lymphoma, *INCOME, *NEIGHBORHOODS, *SOCIAL determinants of health

Abstract

Many studies have identified associations between neighborhood deprivation and disease, emphasizing the importance of social determinants of health. However, when studying diseases with long latency periods such as cancers, considering the timing of exposures for deprivation becomes more important. In this study, we estimated the associations between neighborhood deprivation indices at several time points and risk of non-Hodgkin lymphoma (NHL) in a population-based case-control study at four study centers – Detroit, Iowa, Los Angeles County, and Seattle (1998–2000). We used the Bayesian index regression model and residential histories to estimate neighborhood deprivation index effects in crude models and adjusted for four chemical mixtures measured in house dust and individual-level covariates. We found that neighborhood deprivation in 1980, approximately twenty years before study entry, provided better model fit than did neighborhood deprivation at 1990 and 2000. We identified several statistically significant associations between neighborhood deprivation in 1980 and NHL risk in Iowa and among long-term (20+ years) residents of Detroit. The most important variables in these indices were median gross rent as a percentage of household income in Iowa and percent of single-parent households with at least one child and median household income in Detroit. Associations remained statistically significant after adjustment for individual-level covariates and chemical mixtures, providing evidence for historic neighborhood deprivation as a risk factor for NHL and motivating future research to uncover the specific carcinogens driving these associations in deprived areas. • Considering historic exposures is necessary for diseases with long latencies. • We modeled associations of historic neighborhood deprivation & non-Hodgkin lymphoma. • Such historic deprivation was significantly associated with NHL in Iowa and Detroit. [ABSTRACT FROM AUTHOR]

Published

2023

3. Modeling historic environmental pollutant exposures and non-Hodgkin lymphoma risk.

Author

Boyle, Joseph, Ward, Mary H., Cerhan, James R., Rothman, Nathaniel, and Wheeler, David C.

Subjects

*POLLUTANTS, *ENVIRONMENTAL exposure, *NON-Hodgkin's lymphoma, *PESTICIDES, *HOMESITES, *ENVIRONMENTAL indicators, *POLYCHLORINATED biphenyls, *ENVIRONMENTAL risk

Abstract

Environmental exposures to chemicals are suspected risk factors for non-Hodgkin lymphoma (NHL), but few studies have assessed historic environmental risk factors. In this study, we estimated the associations between NHL and 1) historic environmental pollutant emissions from the Risk Screening Environmental Indicators (RSEI) model, which uses a database from the Environmental Protection Agency of toxic release emissions to air, water, and land, and 2) chemical mixtures measured in house dust (groups of PCBs, PAHs, and two mixtures of pesticides) for study participants enrolled in the NCI-SEER population-based case-control study (1998–2000) at four SEER centers – Detroit, Iowa, Los Angeles County, and Seattle. We assigned 11 years of annual temporally-varying historic environmental exposure scores by intersecting residential locations from participants' residential histories with a fine grid from the RSEI model and by performing inverse distance weighting between facilities releasing specific carcinogenic chemicals and residential locations for spatially-precise exposure assignments. We used Bayesian index low-rank kriging multiple membership models to identify important lag times for RSEI scores, cumulative effects of RSEI scores, and specific carcinogenic chemical releases into the environment. We found a significant positive association between RSEI scores and NHL at the maximum time lag of 11 years (OR = 1.17, 95% CI (1.06, 1.32)) and a significant cumulative RSEI score effect (OR = 1.30, 95% CI (1.02, 1.84)) for long-term residents in Detroit, where benzene and trichloroethylene were the most important chemicals driving this association. Additionally, we identified significant inverse associations for two study centers and time lags that did not persist in cumulative exposure models. Large weights for dichloromethane and pentachlorophenol in models of cumulative exposure also support evidence for their association with NHL risk. These results underscore the importance of considering historic and cumulative environmental exposures and using residential histories for diseases with long latency periods such as NHL. • We assigned 11 years of historic environmental exposure scores based on residence. • Used Bayesian index low-rank kriging multiple membership models to identify lags. • Found a significant positive association between exposure scores and NHL. • Benzene and trichloroethylene were the most important chemicals. • Results show importance of considering historic environmental exposures. [ABSTRACT FROM AUTHOR]

Published

2023