HPV clearance and the neglected role of stochasticity.
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2015-03
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Abstract
Clearance of anogenital and oropharyngeal HPV infections is attributed primarily to a successful adaptive immune response. To date, little attention has been paid to the potential role of stochastic cell dynamics in the time it takes to clear an HPV infection. In this study, we combine mechanistic mathematical models at the cellular level with epidemiological data at the population level to disentangle the respective roles of immune capacity and cell dynamics in the clearing mechanism. Our results suggest that chance-in form of the stochastic dynamics of basal stem cells-plays a critical role in the elimination of HPV-infected cell clones. In particular, we find that in immunocompetent adolescents with cervical HPV infections, the immune response may contribute less than 20% to virus clearance-the rest is taken care of by the stochastic proliferation dynamics in the basal layer. In HIV-negative individuals, the contribution of the immune response may be negligible.
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Ryser, MD, ER Myers and R Durrett (2015). HPV clearance and the neglected role of stochasticity. PLoS Comput Biol, 11(3). p. e1004113. 10.1371/journal.pcbi.1004113 Retrieved from https://hdl.handle.net/10161/9545.
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Scholars@Duke
Marc Daniel Ryser
Marc D. Ryser conducts research in cancer early detection, with a particular focus on breast cancer overdiagnosis and overtreatment. Using a multi-scale approach, his group generates and analyzes biologic, clinical and population data using a variety of mathematical, statistical and computational tools. Dr. Ryser teaches an immersive research seminar for undergraduate students called “Math & Medicine.”
Website: https://sites.duke.edu/marcdryser/
Evan Robert Myers
My research interests are broadly in the application of quantitative methods, especially mathematical modeling and decision analysis, to problems in women's health. Recent and current activities include integration of simulation modeling and systematic reviews to inform decisions surrounding cervical, ovarian, and breast cancer prevention and control, screening for postpartum depression, and management of uterine fibroids. We are also engaged in exploring methods for integrating guidelines development and research prioritization. In addition, I have ongoing collaborations using the tools of decision analysis with faculty in other clinical areas Research is conducted through the Division of Reproductive Sciences in the Department of Obstetrics and Gynecology, the Evidence Synthesis Group in the Duke Clinical Research Institute, and the Duke Cancer Institute. I'm also the course director for CRP 259, "Decision Sciences in Clinical Research", in Duke's Clinical Research Training Program.
Richard Timothy Durrett
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