Your search keyword '"Collender, Philip"' showing total 4 results

1. A hierarchical model for analyzing multisite individual‐level disease surveillance data from multiple systems.

Author

Zhang, Yuzi, Chang, Howard H., Cheng, Qu, Collender, Philip A., Li, Ting, He, Jinge, and Remais, Justin V.

Subjects

STANDARD deviations, TUBERCULOSIS

Abstract

Passive surveillance systems are widely used to monitor diseases occurrence over wide spatial areas due to their cost‐effectiveness and integration into broadly distributed healthcare systems. However, such systems are generally associated with imperfect ascertainment of disease cases and with heterogeneous capture probabilities arising from factors such as differential access to care. Augmenting passive surveillance systems with other surveillance efforts provides a way to estimate the true number of incident cases. We develop a hierarchical modeling framework for analyzing data from multiple surveillance systems that allows for individual‐level covariate‐dependent heterogeneous capture probabilities, and borrows information across surveillance sites to improve estimation of the true number of incident cases. Inference is carried out via a two‐stage Bayesian procedure. Simulation studies illustrated superior performance of the proposed approach with respect to bias, root mean square error, and coverage compared to a model that does not borrow information across sites. We applied the proposed model to data from three surveillance systems reporting pulmonary tuberculosis (PTB) cases in a major center of ongoing transmission in China. The analysis yielded bias‐corrected estimates of PTB cases from the passive system and led to the identification of risk factors associated with PTB rates, as well as factors influencing the operating characteristics of the implemented surveillance systems. [ABSTRACT FROM AUTHOR]

Published

2023

2. Early Evidence of Inactivated Enterovirus 71 Vaccine Impact Against Hand, Foot, and Mouth Disease in a Major Center of Ongoing Transmission in China, 2011–2018: A Longitudinal Surveillance Study.

Author

Head, Jennifer R, Collender, Philip A, Lewnard, Joseph A, Skaff, Nicholas K, Li, Ling, Cheng, Qu, Baker, Julia M, Li, Charles, Chen, Dehao, Ohringer, Alison, Liang, Song, Yang, Changhong, Hubbard, Alan, Lopman, Benjamin, and Remais, Justin V

Subjects

*INFECTIOUS disease transmission, *COXSACKIEVIRUSES, *ENTEROVIRUS diseases, *ENTEROVIRUSES, *IMMUNIZATION, *LONGITUDINAL method, *PUBLIC health surveillance, *REGRESSION analysis, *VACCINES, *DISEASE incidence, *HAND, foot & mouth disease

Abstract

Background Enterovirus 71 (EV71) is a major causative agent of hand, foot, and mouth disease (HFMD), associated with severe manifestations of the disease. Pediatric immunization with inactivated EV71 vaccine was initiated in 2016 in the Asia-Pacific region, including China. We analyzed a time series of HFMD cases attributable to EV71, coxsackievirus A16 (CA16), and other enteroviruses in Chengdu, a major transmission center in China, to assess early impacts of immunization. Methods Reported HFMD cases were obtained from China's notifiable disease surveillance system. We compared observed postvaccination incidence rates during 2017–2018 with counterfactual predictions made from a negative binomial regression and a random forest model fitted to prevaccine years (2011–2015). We fit a change point model to the full time series to evaluate whether the trend of EV71 HFMD changed following vaccination. Results Between 2011 and 2018, 279 352 HFMD cases were reported in the study region. The average incidence rate of EV71 HFMD in 2017–2018 was 60% (95% prediction interval [PI], 41%–72%) lower than predicted in the absence of immunization, corresponding to an estimated 6911 (95% PI, 3246–11 542) EV71 cases averted over 2 years. There were 52% (95% PI, 42%–60%) fewer severe HFMD cases than predicted. However, the incidence rate of non-CA16 and non-EV71 HFMD was elevated in 2018. We identified a significant decline in the trend of EV71 HFMD 4 months into the postvaccine period. Conclusions We provide the first real-world evidence that programmatic vaccination against EV71 is effective against childhood HFMD and present an approach to detect early vaccine impact or intended consequences from surveillance data. [ABSTRACT FROM AUTHOR]

Published

2020

3. Mass Gatherings and Diarrheal Disease Transmission Among Rural Communities in Coastal Ecuador.

Author

Collender, Philip A, Morris, Christa, Glenn-Finer, Rose, Acevedo, Andrés, Chang, Howard H, Trostle, James A, Eisenberg, Joseph N S, and Remais, Justin V

Subjects

*CLIMATOLOGY, *INFECTIOUS disease transmission, *CONFIDENCE intervals, *CROWDS, *DIARRHEA, *PUBLIC health surveillance, *RAINFALL, *RURAL population, *TRAVEL, *DISEASE incidence, *ODDS ratio, *DISEASE risk factors

Abstract

Mass gatherings exacerbate infectious disease risks by creating crowded, high-contact conditions and straining the capacity of local infrastructure. While mass gatherings have been extensively studied in the context of epidemic disease transmission, the role of gatherings in incidence of high-burden, endemic infections has not been previously studied. Here, we examine diarrheal incidence among 17 communities in Esmeraldas, Ecuador, in relation to recurrent gatherings characterized using ethnographic data collected during and after the epidemiologic surveillance period (2004–2007). Using distributed-lag generalized estimating equations, adjusted for seasonality, trend, and heavy rainfall events, we found significant increases in diarrhea risk in host villages, peaking 2 weeks after an event's conclusion (incidence rate ratio, 1.21; confidence interval, adjusted for false coverage rate of ≤0.05: 1.02, 1.43). Stratified analysis revealed heightened risks associated with events where crowding and travel were most likely (2-week-lag incidence rate ratio, 1.51; confidence interval, adjusted for false coverage rate of ≤0.05: 1.09, 2.10). Our findings suggest that community-scale mass gatherings might play an important role in endemic diarrheal disease transmission and could be an important focus for interventions to improve community health in low-resource settings. [ABSTRACT FROM AUTHOR]

Published

2019

4. Spatiotemporal Error in Rainfall Data: Consequences for Epidemiologic Analysis of Waterborne Diseases.

Author

Levy, Morgan C, Collender, Philip A, Carlton, Elizabeth J, Chang, Howard H, Strickland, Matthew J, Eisenberg, Joseph N S, and Remais, Justin V

Subjects

*COMMUNICABLE disease epidemiology, *DIARRHEA, *EPIDEMIOLOGICAL research, *SPACE flight, *AQUATIC microbiology, *WEATHER, *MEASUREMENT errors, *DISEASE incidence

Abstract

The relationship between rainfall, especially extreme rainfall, and increases in waterborne infectious diseases is widely reported in the literature. Most of this research, however, has not formally considered the impact of exposure measurement error contributed by the limited spatiotemporal fidelity of precipitation data. Here, we evaluate bias in effect estimates associated with exposure misclassification due to precipitation data fidelity, using extreme rainfall as an example. We accomplished this via a simulation study, followed by analysis of extreme rainfall and incident diarrheal disease in an epidemiologic study in Ecuador. We found that the limited fidelity typical of spatiotemporal rainfall data sets biases effect estimates towards the null. Use of spatial interpolations of rain-gauge data or satellite data biased estimated health effects due to extreme rainfall (occurrence) and wet conditions (accumulated totals) downwards by 35%–45%. Similar biases were evident in the Ecuadorian case study analysis, where spatial incompatibility between exposed populations and rain gauges resulted in the association between extreme rainfall and diarrheal disease incidence being approximately halved. These findings suggest that investigators should pay greater attention to limitations in using spatially heterogeneous environmental data sets to assign exposures in epidemiologic research. [ABSTRACT FROM AUTHOR]

Published

2019