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Review
. 2018 Dec:2:1-11.
doi: 10.1200/CCI.17.00029.

Microsimulation Modeling in Oncology

Çağlar Çağlayan  1 Hiromi Terawaki  1 Qiushi Chen  1 Ashish Rai  1 Turgay Ayer  1 Christopher R Flowers  1
Affiliations
Review

Microsimulation Modeling in Oncology

Çağlar Çağlayan et al. JCO Clin Cancer Inform. 2018 Dec.

Abstract

Purpose: Microsimulation is a modeling technique that uses a sample size of individual units (microunits), each with a unique set of attributes, and allows for the simulation of downstream events on the basis of predefined states and transition probabilities between those states over time. In this article, we describe the history of the role of microsimulation in medicine and its potential applications in oncology as useful tools for population risk stratification and treatment strategy design for precision medicine.

Methods: We conducted a comprehensive and methodical search of the literature using electronic databases-Medline, Embase, and Cochrane-for works published between 1985 and 2016. A medical subject heading search strategy was constructed for Medline searches by using a combination of relevant search terms, such as "microsimulation model medicine," "multistate modeling cancer," and "oncology."

Results: Microsimulation modeling is particularly useful for the study of optimal intervention strategies when randomized control trials may not be feasible, ethical, or practical. Microsimulation models can retain memory of prior behaviors and states. As such, it allows an explicit representation and understanding of how various processes propagate over time and affect the final outcomes for an individual or in a population.

Conclusion: A well-calibrated microsimulation model can be used to predict the outcome of the event of interest for a new individual or subpopulations, assess the effectiveness and cost effectiveness of alternative interventions, and project the future disease burden of oncologic diseases. In the growing field of oncology research, a microsimulation model can serve as a valuable tool among the various facets of methodology available.

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Conflict of interest statement

Çağlar Çaglayan

No relationship to disclose

Hiromi Terawaki

No relationship to disclose

Qiushi Chen

No relationship to disclose

Ashish Rai

No relationship to disclose

Turgay Ayer

No relationship to disclose

Christopher R. Flowers

Consulting or Advisory Role: OptumRx, Seattle Genetics, Bayer, Gilead Sciences, Spectrum Pharmaceuticals

Speakers' Bureau: Karyopharm Therapeutics

Research Funding: Acerta Pharma (Inst), Infinity Pharmaceuticals (Inst), Onyx Pharmaceuticals (Inst), Janssen Oncology (Inst), Gilead Sciences (Inst), Celgene (Inst), TG Therapeutics (Inst), Genentech (Inst), Pharmacyclics (Inst), AbbVie (Inst), Immune Design (Inst)

Travel, Accommodations, Expenses: Gilead Sciences, Celgene, Genentech

Figures

Fig 1.
Fig 1.
PRISMA diagram. CISNET, Cancer Intervention and Surveillance Modeling Network; NCI, National Cancer Institute.
Fig 2.
Fig 2.
General formulation of Cancer Intervention and Surveillance Modeling Network models.
See this image and copyright information in PMC

References

    1. National Cancer Institute : Cancer Intervention and Surveillance Modeling Network. https://cisnet.cancer.gov
    1. Statistics Canada : What is dynamic social science microsimulation? https://www.statcan.gc.ca/eng/microsimulation/modgen/new/chap1/chap1
    1. Pauker SG, Kassirer JP: Decision analysis. N Engl J Med 316:250-258, 1987 - PubMed
    1. Hennessy DA, Flanagan WM, Tanuseputro P, et al. : The Population Health Model (POHEM): An overview of rationale, methods and applications. Popul Health Metr 13:24, 2015 - PMC - PubMed
    1. Cronin KA, Legler JM, Etzioni RD: Assessing uncertainty in microsimulation modelling with application to cancer screening interventions. Stat Med 17:2509-2523, 1998 - PubMed

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