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Review
. 2021 Jun;87(6):2493-2501.
doi: 10.1111/bcp.14662. Epub 2020 Dec 7.

Confounding factors in exposure-response analyses and mitigation strategies for monoclonal antibodies in oncology

Sonoko Kawakatsu  1   2 René Bruno  1 Matts Kågedal  1 Chunze Li  1 Sandhya Girish  1 Amita Joshi  1 Benjamin Wu  1
Affiliations
Free article
Review

Confounding factors in exposure-response analyses and mitigation strategies for monoclonal antibodies in oncology

Sonoko Kawakatsu et al. Br J Clin Pharmacol. 2021 Jun.
Free article

Abstract

Dose selection and optimization is an important topic in drug development to maximize treatment benefits for all patients. While exposure-response (E-R) analysis is a useful method to inform dose-selection strategy, in oncology, special considerations for prognostic factors are needed due to their potential to confound the E-R analysis for monoclonal antibodies. The current review focuses on 3 different approaches to mitigate the confounding effects for monoclonal antibodies in oncology: (i) Cox-proportional hazards modelling and case-matching; (ii) tumour growth inhibition-overall survival modelling; and (iii) multiple dose level study design. In the presence of confounding effects, studying multiple dose levels may be required to reveal the true E-R relationship. However, it is impractical for pivotal trials in oncology drug development programmes. Therefore, the strengths and weaknesses of the other 2 approaches are considered, and the favourable utility of tumour growth inhibition-overall survival modelling to address confounding in E-R analyses is described. In the broader scope of oncology drug development, this review discusses the downfall of the current emphasis on E-R analyses using data from single dose level trials and proposes that development programmes be designed to study more dose levels in earlier trials.

Keywords: drug development; oncology; pharmacokinetics-pharmacodynamics; statistics and study design.

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References

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