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Literature DB >> 31741544

A Bayesian Phase I/II Trial Design for Immunotherapy.

Abstract

Immunotherapy is an innovative treatment approach that stimulates a patient's immune system to fight cancer. It demonstrates characteristics distinct from conventional chemotherapy and stands to revolutionize cancer treatment. We propose a Bayesian phase I/II dosefinding design that incorporates the unique features of immunotherapy by simultaneously considering three outcomes: immune response, toxicity and efficacy. The objective is to identify the biologically optimal dose, defined as the dose with the highest desirability in the risk-benefit tradeoff. An Emax model is utilized to describe the marginal distribution of the immune response. Conditional on the immune response, we jointly model toxicity and efficacy using a latent variable approach. Using the accumulating data, we adaptively randomize patients to experimental doses based on the continuously updated model estimates. A simulation study shows that our proposed design has good operating characteristics in terms of selecting the target dose and allocating patients to the target dose.

Entities: Chemical Disease Gene Species

Keywords: Bayesian adaptive design; Immunotherapy; dose finding; immune response; phase I/II trial; risk-benefit tradeoff

Year: 2018 PMID： 31741544 PMCID： PMC6860919 DOI： 10.1080/01621459.2017.1383260

Source DB: PubMed Journal: J Am Stat Assoc ISSN： 0162-1459 Impact factor: 5.033

24 in total

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Review 6. Cancer immunotherapy comes of age.

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9. Utility-based optimization of combination therapy using ordinal toxicity and efficacy in phase I/II trials.

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2. A Bayesian phase I/II biomarker-based design for identifying subgroup-specific optimal dose for immunotherapy.

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3. TITE-BOIN12: A Bayesian phase I/II trial design to find the optimal biological dose with late-onset toxicity and efficacy.

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10. SCI: A Bayesian adaptive phase I/II dose-finding design accounting for semi-competing risks outcomes for immunotherapy trials.

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