A Bayesian hierarchical model for bridging across patient subgroups in phase I clinical trials with animal data.

Incorporating preclinical animal data, which can be regarded as a special kind of historical data, into phase I clinical trials can improve decision making when very little about human toxicity is known. In this paper, we develop a robust hierarchical modelling approach to leverage animal data into new phase I clinical trials, where we bridge across non-overlapping, potentially heterogeneous patient subgroups. Translation parameters are used to bring both historical and contemporary data onto a common dosing scale. This leads to feasible exchangeability assumptions that the parameter vectors, which underpin the dose-toxicity relationship per study, are assumed to be drawn from a common distribution. Moreover, human dose-toxicity parameter vectors are assumed to be exchangeable either with the standardised, animal study-specific parameter vectors, or between themselves. Possibility of non-exchangeability for each parameter vector is considered to avoid inferences for extreme subgroups being overly influenced by the other. We illustrate the proposed approach with several trial data examples, and evaluate the operating characteristics of our model compared with several alternatives in a simulation study. Numerical results show that our approach yields robust inferences in circumstances, where data from multiple sources are inconsistent and/or the bridging assumptions are incorrect.

[1]  Yi Tsong Statistical Considerations on Design and Analysis of Bridging and Multiregional Clinical Trials , 2012, Journal of biopharmaceutical statistics.

[2]  K. Yonemori,et al.  Exploring Ethnic Differences in Toxicity in Early-Phase Clinical Trials for Oncology Drugs , 2014, Therapeutic innovation & regulatory science.

[3]  T. Tamura,et al.  Current Status of Single-Agent Phase I Trials in Japan: Toward Globalization. , 2015, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[4]  Heinz Schmidli,et al.  On the Use of Co-Data in Clinical Trials , 2016 .

[5]  S. Morita,et al.  Bayesian dose‐finding phase I trial design incorporating historical data from a preceding trial , 2018, Pharmaceutical statistics.

[6]  Ning Li,et al.  Practical and Statistical Considerations on Simultaneous Global Drug Development , 2012, Journal of biopharmaceutical statistics.

[7]  Y. Uyama,et al.  Significant Differences in Drug Lag in Clinical Development Among Various Strategies Used for Regulatory Submissions in Japan , 2014, Clinical pharmacology and therapeutics.

[8]  A. Mishra,et al.  Drug Lag and Key Regulatory Barriers in the Emerging Markets , 2010, Perspectives in clinical research.

[9]  J O'Quigley,et al.  Two-sample continual reassessment method. , 1999, Journal of biopharmaceutical statistics.

[10]  Shein-Chung Chow,et al.  Statistical Methods for Bridging Studies , 2012, Journal of biopharmaceutical statistics.

[11]  Haiyan Zheng,et al.  A Bayesian decision‐theoretic approach to incorporate preclinical information into phase I oncology trials , 2019, Biometrical journal. Biometrische Zeitschrift.

[12]  Ying Yuan,et al.  Bridging continual reassessment method for phase I clinical trials in different ethnic populations , 2015, Statistics in medicine.

[13]  Haiyan Zheng,et al.  Borrowing of information across patient subgroups in a basket trial based on distributional discrepancy , 2019, Biostatistics.

[14]  Joseph G Ibrahim,et al.  Bayesian adaptive basket trial design using model averaging. , 2019, Biostatistics.

[15]  Ying Yuan,et al.  Bayesian Model Averaging Continual Reassessment Method in Phase I Clinical Trials , 2009 .

[16]  Ying Yuan,et al.  A Bayesian basket trial design using a calibrated Bayesian hierarchical model , 2018, Clinical trials.

[17]  Lisa V Hampson,et al.  Extrapolation of efficacy and other data to support the development of new medicines for children: A systematic review of methods , 2018, Statistical methods in medical research.

[18]  Oprs Alert Guidance for Industry Estimating the Maximum Safe Starting Dose in Initial Clinical Trials for Therapeutics in Adult Healthy Volunteers , 2005 .

[19]  M. Kamrin Toxicology-A Primer on Toxicology Principles and Applications , 1988 .

[20]  P. Müller,et al.  Determining the Effective Sample Size of a Parametric Prior , 2008, Biometrics.

[21]  N. Wages,et al.  A Phase I/II adaptive design for heterogeneous groups with application to a stereotactic body radiation therapy trial , 2015, Pharmaceutical statistics.

[22]  M. G. Pittau,et al.  A weakly informative default prior distribution for logistic and other regression models , 2008, 0901.4011.

[23]  Satrajit Roychoudhury,et al.  Robust exchangeability designs for early phase clinical trials with multiple strata , 2016, Pharmaceutical statistics.

[24]  J Whitehead,et al.  Bayesian decision procedures based on logistic regression models for dose-finding studies. , 1998, Journal of biopharmaceutical statistics.

[25]  K. K. Gordon Lan,et al.  Design and Sample Size Considerations for Simultaneous Global Drug Development Program , 2012, Journal of biopharmaceutical statistics.

[26]  Chin-Fu Hsiao,et al.  A TWO-STAGE DESIGN FOR BRIDGING STUDIES , 2004, Journal of biopharmaceutical statistics.

[27]  R Core Team,et al.  R: A language and environment for statistical computing. , 2014 .

[28]  Lisa V Hampson,et al.  A robust Bayesian meta-analytic approach to incorporate animal data into phase I oncology trials , 2020, Statistical methods in medical research.

[29]  Olga V. Marchenko,et al.  Bridging data across studies using frequentist and Bayesian estimation , 2017, Journal of biopharmaceutical statistics.

[30]  Andrew Thomas,et al.  The BUGS project: Evolution, critique and future directions , 2009, Statistics in medicine.

[31]  Xiaoyu Dong,et al.  Weighted Evidence Approach of Bridging Study , 2012, Journal of biopharmaceutical statistics.

[32]  D. Sargent,et al.  Statistical controversies in clinical research: basket trials, umbrella trials, and other master protocols: a review and examples. , 2016, Annals of oncology : official journal of the European Society for Medical Oncology.

[33]  P. Dehaen The drug lag--does it exist in Europe? , 1975 .

[34]  Michael Branson,et al.  Critical aspects of the Bayesian approach to phase I cancer trials , 2008, Statistics in medicine.

[35]  Roderik F Viergever,et al.  Trends in global clinical trial registration: an analysis of numbers of registered clinical trials in different parts of the world from 2004 to 2013 , 2015, BMJ Open.

[36]  Chikayuki Naito,et al.  Ethnic Factors in the Acceptability of Foreign Clinical Data , 1998 .

[37]  Alexia Iasonos,et al.  Bridging Solutions in Dose-Finding Problems , 2014, Statistics in biopharmaceutical research.