Andreas Bender scite author profile

To assess the current dynamics of an epidemic, it is central to collect information on the daily number of newly diseased cases. This is especially important in real‐time surveillance, where the aim is to gain situational awareness, for example, if cases are currently increasing or decreasing. Reporting delays between disease onset and case reporting hamper our ability to understand the dynamics of an epidemic close to now when looking at the number of daily reported cases only. Nowcasting can be used to adjust daily case counts for occurred‐but‐not‐yet‐reported events. Here, we present a novel application of nowcasting to data on the current COVID‐19 pandemic in Bavaria. It is based on a hierarchical Bayesian model that considers changes in the reporting delay distribution over time and associated with the weekday of reporting. Furthermore, we present a way to estimate the effective time‐varying case reproduction number based on predictions of the nowcast. The approaches are based on previously published work, that we considerably extended and adapted to the current task of nowcasting COVID‐19 cases. We provide methodological details of the developed approach, illustrate results based on data of the current pandemic, and evaluate the model based on synthetic and retrospective data on COVID‐19 in Bavaria. Results of our nowcasting are reported to the Bavarian health authority and published on a webpage on a daily basis ( https://corona.stat.uni-muenchen.de/ ). Code and synthetic data for the analysis are available from https://github.com/FelixGuenther/nc_covid19_bavaria and can be used for adaption of our approach to different data.

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Online chemical modeling environment (OCHEM): web platform for data storage, model development and publishing of chemical information

Sushko

et al. 2011

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Predictors of clinical effectiveness of Hymenoptera venom immunotherapy

Ruëff

Vos

Elberink

et al. 2014

Clin Experimental Allergy

118

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Properties and prediction of mitochondrial transit peptides from Plasmodium falciparum

Bender

Dooren

Ralph

et al. 2003

Molecular and Biochemical Parasitology

117

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A generalized additive model approach to time-to-event analysis

Bender

Groll

Scheipl

2018

Statistical Modelling

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This tutorial article demonstrates how time-to-event data can be modelled in a very flexible way by taking advantage of advanced inference methods that have recently been developed for generalized additive mixed models. In particular, we describe the necessary pre-processing steps for transforming such data into a suitable format and show how a variety of effects, including a smooth nonlinear baseline hazard, and potentially nonlinear and nonlinearly time-varying effects, can be estimated and interpreted. We also present useful graphical tools for model evaluation and interpretation of the estimated effects. Throughout, we demonstrate this approach using various application examples. The article is accompanied by a new R-package called pammtools implementing all of the tools described here.

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Andreas Bender

Nowcasting the COVID‐19 pandemic in Bavaria

Online chemical modeling environment (OCHEM): web platform for data storage, model development and publishing of chemical information

Predictors of clinical effectiveness of Hymenoptera venom immunotherapy

Properties and prediction of mitochondrial transit peptides from Plasmodium falciparum

A generalized additive model approach to time-to-event analysis

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