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An order restricted multi-arm multi-stage clinical trial design

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An order restricted multi-arm multi-stage clinical trial design. / Serra, A.; Mozgunov, P.; Jaki, T.
In: Statistics in Medicine, Vol. 41, No. 9, 30.04.2022, p. 1613-1626.

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Harvard

Serra, A, Mozgunov, P & Jaki, T 2022, 'An order restricted multi-arm multi-stage clinical trial design', Statistics in Medicine, vol. 41, no. 9, pp. 1613-1626. https://doi.org/10.1002/sim.9314

APA

Serra, A., Mozgunov, P., & Jaki, T. (2022). An order restricted multi-arm multi-stage clinical trial design. Statistics in Medicine, 41(9), 1613-1626. https://doi.org/10.1002/sim.9314

Vancouver

Serra A, Mozgunov P, Jaki T. An order restricted multi-arm multi-stage clinical trial design. Statistics in Medicine. 2022 Apr 30;41(9):1613-1626. Epub 2022 Jan 19. doi: 10.1002/sim.9314

Author

Serra, A. ; Mozgunov, P. ; Jaki, T. / An order restricted multi-arm multi-stage clinical trial design. In: Statistics in Medicine. 2022 ; Vol. 41, No. 9. pp. 1613-1626.

Bibtex

@article{49e54653368d4e57abc4bf861e8f91ab,
title = "An order restricted multi-arm multi-stage clinical trial design",
abstract = "One family of designs that can noticeably improve efficiency in later stages of drug development are multi-arm multi-stage (MAMS) designs. They allow several arms to be studied concurrently and gain efficiency by dropping poorly performing treatment arms during the trial as well as by allowing to stop early for benefit. Conventional MAMS designs were developed for the setting, in which treatment arms are independent and hence can be inefficient when an order in the effects of the arms can be assumed (eg, when considering different treatment durations or different doses). In this work, we extend the MAMS framework to incorporate the order of treatment effects when no parametric dose-response or duration-response model is assumed. The design can identify all promising treatments with high probability. We show that the design provides strong control of the family-wise error rate and illustrate the design in a study of symptomatic asthma. Via simulations we show that the inclusion of the ordering information leads to better decision-making compared to a fixed sample and a MAMS design. Specifically, in the considered settings, reductions in sample size of around 15% were achieved in comparison to a conventional MAMS design. ",
keywords = "adaptive designs, infectious diseases, multi-arm multi-stage, order restriction",
author = "A. Serra and P. Mozgunov and T. Jaki",
year = "2022",
month = apr,
day = "30",
doi = "10.1002/sim.9314",
language = "English",
volume = "41",
pages = "1613--1626",
journal = "Statistics in Medicine",
issn = "0277-6715",
publisher = "John Wiley and Sons Ltd",
number = "9",

}

RIS

TY - JOUR

T1 - An order restricted multi-arm multi-stage clinical trial design

AU - Serra, A.

AU - Mozgunov, P.

AU - Jaki, T.

PY - 2022/4/30

Y1 - 2022/4/30

N2 - One family of designs that can noticeably improve efficiency in later stages of drug development are multi-arm multi-stage (MAMS) designs. They allow several arms to be studied concurrently and gain efficiency by dropping poorly performing treatment arms during the trial as well as by allowing to stop early for benefit. Conventional MAMS designs were developed for the setting, in which treatment arms are independent and hence can be inefficient when an order in the effects of the arms can be assumed (eg, when considering different treatment durations or different doses). In this work, we extend the MAMS framework to incorporate the order of treatment effects when no parametric dose-response or duration-response model is assumed. The design can identify all promising treatments with high probability. We show that the design provides strong control of the family-wise error rate and illustrate the design in a study of symptomatic asthma. Via simulations we show that the inclusion of the ordering information leads to better decision-making compared to a fixed sample and a MAMS design. Specifically, in the considered settings, reductions in sample size of around 15% were achieved in comparison to a conventional MAMS design. 

AB - One family of designs that can noticeably improve efficiency in later stages of drug development are multi-arm multi-stage (MAMS) designs. They allow several arms to be studied concurrently and gain efficiency by dropping poorly performing treatment arms during the trial as well as by allowing to stop early for benefit. Conventional MAMS designs were developed for the setting, in which treatment arms are independent and hence can be inefficient when an order in the effects of the arms can be assumed (eg, when considering different treatment durations or different doses). In this work, we extend the MAMS framework to incorporate the order of treatment effects when no parametric dose-response or duration-response model is assumed. The design can identify all promising treatments with high probability. We show that the design provides strong control of the family-wise error rate and illustrate the design in a study of symptomatic asthma. Via simulations we show that the inclusion of the ordering information leads to better decision-making compared to a fixed sample and a MAMS design. Specifically, in the considered settings, reductions in sample size of around 15% were achieved in comparison to a conventional MAMS design. 

KW - adaptive designs

KW - infectious diseases

KW - multi-arm multi-stage

KW - order restriction

U2 - 10.1002/sim.9314

DO - 10.1002/sim.9314

M3 - Journal article

VL - 41

SP - 1613

EP - 1626

JO - Statistics in Medicine

JF - Statistics in Medicine

SN - 0277-6715

IS - 9

ER -