hpvsim 2.2.6

HPVsim: Human Papillomavirus Simulator

About HPVsim

HPVsim is a flexible agent-based model for simulation HPV transmission and progression through cervical disease to cancer. The model can be parameterized with country-specific vital dynamics, structured sexual networks, co-transmitting HPV genotypes, B- and T-cell mediated immunity, and high-resolution disease natural history. HPVsim is designed with a user-first lens: it is implemented in pure Python, has built-in tools for simulating commonly-used interventions, has been extensively tested and documented, and runs in a matter of seconds to minutes on a laptop.

In mid-2025, version 3.0 of HPVsim will be released, built on the Starsim Starsim modeling architecture. Since this represents a significant shift, version 3.0 and above will live in a separate repository. The code in this repository will be frozen after version 2.2, aside from any critical bugfixes.

The scientific paper describing HPVsim is available at https://doi.org/10.1371/journal.pcbi.1012181. The recommended citation is:

HPVsim: An agent-based model of HPV transmission and cervical disease (2024). Stuart RM, Cohen JA, Kerr CC, Mathur P , NDMC India, Zimmermann M, Rao DW, Boudreau MC, Lee S, Yang L, Klein DJ. PLOS Computational Biology 20(7): e1012181. https://doi.org/10.1371/journal.pcbi.1012181

Background

HPVsim has been used for analyses in several countries. Academic papers that have been written using HPVsim include:

1. Inferring the natural history of HPV from global cancer registries: insights from a multi-country calibration (2024). Stuart RM, Cohen JA, Abeysuriya RG, Sanz-Leon P, Kerr CC, Rao DW, Klein DJ. Sci Rep 14, 15875. https://doi.org/10.1038/s41598-024-65842-3

2. HPV DNA Screening and Vaccination Strategies in Tunisia (2025). Lahdhiri A, Benzina B, Ennaifer E, Tounsi H, Gzara A, Rammeh-Rommani S, Laraj O, Arfaoui H, Stuart RM Kebir, A, BenMiled S (2025). Sci Rep, forthcoming.

3. Can pruning improve agent-based models’ calibration? An application to HPVsim (2025). Sturman F, Swallow B, Kerr CC, Stuart RM, Panovska-Griffiths J. Journal of Theoretical Biology, forthcoming.

Installation

The easiest way to install is simply via pip: pip install hpvsim. Alternatively, you can clone this repository, then run pip install -e . (don’t forget the dot!) in this folder to install hpvsim and its dependencies. This will make hpvsim available on the Python path. The first time HPVsim is imported, it will automatically download the required data files (~30 MB). You can also download the data manually by running hpvsim-download-data from the terminal.

Usage and documentation

Documentation is available at https://docs.hpvsim.org. Additional usage examples are available in the tests folder.

Contributing

If you wish to contribute, please follow the Starsim style guide at: https://github.com/starsimhub/styleguide. See the code of conduct readme for more information.

Disclaimer

The code in this repository was developed by IDM, the Burnet Institute, and other collaborators to support our joint research on HPV. We’ve made it publicly available under the MIT License to provide others with a better understanding of our research and an opportunity to build upon it for their own work. Note that HPVsim depends on a number of user-installed Python packages that can be installed automatically via pip install. We make no representations that the code works as intended or that we will provide support, address issues that are found, or accept pull requests. You are welcome to create your own fork and modify the code to suit your own modeling needs as contemplated under the MIT License.