When Is Mass Prophylaxis Cost-Effective for Epidemic Control? A Comparison of Decision Approaches

Malloy, Giovanni S. P.; Brandeau, Margaret L.

doi:10.1177/0272989x221098409

Cited by 2 publications

(2 citation statements)

References 39 publications

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“…One approach to reducing the computational burden uses an emulator or metamodel that serves as a surrogate of the original complex simulation model (often referred to as a simulator) by mapping the relationship between the inputs and outputs of the simulator (7). An emulator is a proxy model that is less complex and faster than a simulator, can replace a simulator to predict outcomes, and is often used in other model-based analyses, such as sensitivity analysis (8), calibration procedures (9), policy optimization (7,10), cost-effectiveness analysis (11), and extrapolating findings to other settings (12). Using emulators for Bayesian calibration can reduce the computational time without losing the possibility of producing outcomes that match observed data (9,13).…”

Section: Introductionmentioning

confidence: 99%

Emulator-Based Bayesian Calibration of the CISNET Colorectal Cancer Models

Pineda-Antunez,

Seguin,

van Duuren

et al. 2024

Med Decis Making

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Purpose To calibrate Cancer Intervention and Surveillance Modeling Network (CISNET)’s SimCRC, MISCAN-Colon, and CRC-SPIN simulation models of the natural history colorectal cancer (CRC) with an emulator-based Bayesian algorithm and internally validate the model-predicted outcomes to calibration targets. Methods We used Latin hypercube sampling to sample up to 50,000 parameter sets for each CISNET-CRC model and generated the corresponding outputs. We trained multilayer perceptron artificial neural networks (ANNs) as emulators using the input and output samples for each CISNET-CRC model. We selected ANN structures with corresponding hyperparameters (i.e., number of hidden layers, nodes, activation functions, epochs, and optimizer) that minimize the predicted mean square error on the validation sample. We implemented the ANN emulators in a probabilistic programming language and calibrated the input parameters with Hamiltonian Monte Carlo–based algorithms to obtain the joint posterior distributions of the CISNET-CRC models’ parameters. We internally validated each calibrated emulator by comparing the model-predicted posterior outputs against the calibration targets. Results The optimal ANN for SimCRC had 4 hidden layers and 360 hidden nodes, MISCAN-Colon had 4 hidden layers and 114 hidden nodes, and CRC-SPIN had 1 hidden layer and 140 hidden nodes. The total time for training and calibrating the emulators was 7.3, 4.0, and 0.66 h for SimCRC, MISCAN-Colon, and CRC-SPIN, respectively. The mean of the model-predicted outputs fell within the 95% confidence intervals of the calibration targets in 98 of 110 for SimCRC, 65 of 93 for MISCAN, and 31 of 41 targets for CRC-SPIN. Conclusions Using ANN emulators is a practical solution to reduce the computational burden and complexity for Bayesian calibration of individual-level simulation models used for policy analysis, such as the CISNET CRC models. In this work, we present a step-by-step guide to constructing emulators for calibrating 3 realistic CRC individual-level models using a Bayesian approach. Highlights We use artificial neural networks (ANNs) to build emulators that surrogate complex individual-based models to reduce the computational burden in the Bayesian calibration process. ANNs showed good performance in emulating the CISNET-CRC microsimulation models, despite having many input parameters and outputs. Using ANN emulators is a practical solution to reduce the computational burden and complexity for Bayesian calibration of individual-level simulation models used for policy analysis. This work aims to support health decision scientists who want to quantify the uncertainty of calibrated parameters of computationally intensive simulation models under a Bayesian framework.

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Section: Introductionmentioning

confidence: 99%

Emulator-Based Bayesian Calibration of the CISNET Colorectal Cancer Models

Pineda-Antunez,

Seguin,

van Duuren

et al. 2024

Med Decis Making

View full text Add to dashboard Cite

show abstract

“…One approach to reducing the computational burden uses an emulator or metamodel that serves as a surrogate of the original complex simulation model (often referred to as a simulator) by mapping the relationship between the inputs and outputs of the simulator (11,12). An emulator is a proxy model that is less complex and faster than a simulator, can replace a simulator to predict outcomes, and is often used in other model-based analyses, such as calibration procedures (8), policy optimization (11,13), cost-effectiveness analysis (14), extrapolating findings to other settings (15) and probabilistic analysis (16). Using emulators for Bayesian calibration can reduce the computational time to obtain a sample from the model parameters posterior distribution, which has already been shown to work with a considerable reduction of time (8,17).…”

Section: Introductionmentioning

confidence: 99%

Emulator-based Bayesian calibration of the CISNET colorectal cancer models

Pineda-Antúnez¹,

Seguin

Duuren

et al. 2023

Preprint

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PurposeTo calibrate Cancer Intervention and Surveillance Modeling Network (CISNET) ‘s SimCRC, MISCAN-Colon, and CRC-SPIN simulation models of the natural history colorectal cancer (CRC) with an emulator-based Bayesian algorithm and internally validate the model-predicted outcomes to calibration targets.MethodsWe used Latin hypercube sampling to sample up to 50,000 parameter sets for each CISNET-CRC model and generated the corresponding outputs. We trained multilayer perceptron artificial neural networks (ANN) as emulators using the input and output samples for each CISNET-CRC model. We selected ANN structures with corresponding hyperparameters (i.e., number of hidden layers, nodes, activation functions, epochs, and optimizer) that minimize the predicted mean square error on the validation sample. We implemented the ANN emulators in a probabilistic programming language and calibrated the input parameters with Hamiltonian Monte Carlo-based algorithms to obtain the joint posterior distributions of the CISNET-CRC models’ parameters. We internally validated each calibrated emulator by comparing the model-predicted posterior outputs against the calibration targets.ResultsThe optimal ANN for SimCRC had four hidden layers and 360 hidden nodes, MISCAN-Colon had 4 hidden layers and 114 hidden nodes, and CRC-SPIN had one hidden layer and 140 hidden nodes. The total time for training and calibrating the emulators was 7.3, 4.0, and 0.66 hours for SimCRC, MISCAN-Colon, and CRC-SPIN, respectively. The mean of the model-predicted outputs fell within the 95% confidence intervals of the calibration targets in 98 of 110 for SimCRC, 65 of 93 for MISCAN, and 31 of 41 targets for CRC-SPIN.ConclusionsUsing ANN emulators is a practical solution to reduce the computational burden and complexity for Bayesian calibration of individual-level simulation models used for policy analysis, like the CISNET CRC models.

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When Is Mass Prophylaxis Cost-Effective for Epidemic Control? A Comparison of Decision Approaches

Cited by 2 publications

References 39 publications

Emulator-Based Bayesian Calibration of the CISNET Colorectal Cancer Models

Emulator-Based Bayesian Calibration of the CISNET Colorectal Cancer Models

Emulator-based Bayesian calibration of the CISNET colorectal cancer models

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