Bayesian prediction modelling for two-stage experimental trials for Poisson or Gamma distributed data


Abstract


We consider Bayesian prediction modelling to evaluate a satisfaction index after a first phase of experiment in order to decide to stop or continue at the second stage. We apply this method to Poisson and Gamma distributed outcomes in many fields such as reliability or survival analysis for early termination due to either futility or efficacy. We look at two kinds of decisions making: an hybrid Bayesian-frequentist or a full Bayesian approach.


DOI Code: 10.1285/i20705948v13n1p268

Keywords: Bayesian predictive distribution; satisfaction indices; two-stage sequential analysis; experimental trials; Poison and Gamma outcomes.

References


Anisimov, V. V. (2008). Using Mixed Poisson Models in Patient Recruitment in Multicentre Clinical Trials. Proceedings of the World Congress on Engineering, 2:1046-1049.

Bakhshi, A. (2011). Modelling and predicting patient recruitment in multi-centre clinicaltrials. University of Glasgow: Master of Science, diss.

Blot, W.J., Meeter, D.A. (1973). Sequential Experimental Design Procedures. The American Statistical Association, 68:586-593.

Chow, S.C., Berry, S.M., Carlin, B.P., Lee, J.J and Muller, P. (2011). Bayesian Adaptive Methods for Clinical Trials. New York: Biostatistics Chapman and Hall/CRC.

Gelman, A., Carlin, J.B., Stern, H.S., Dunson, D.B., Vehtari, A. and Rubinl, D.B.(2014). Bayesian Data Analysis. 3rd ed. U.S: Taylor and Francis Group.

Hamada, M.S., Wilson, A.G., Reese, C.S and Martz, H.F. (2008). Bayesian Reliability. New York: Springer Series in Statistics.

Hand, A.L., Scott, J.A., Young, P.D., Stamey, J.D. and Young, D.M. (2016). Bayesian adaptive two-stage design for determining person-time in Phase II clinical trials with Poisson data. Journal of Applied Statistics, 43:1625-1635.

Jennison, C., Turnbull, B.(1999). Group sequential methods with applications to clinical trials. U.S.A: Chapman and Hall/CRC Interdisciplinary Statistics.

Johnson, N.L., Kemp, A.W., Kotz, S. (2005). Univariate Discrete Distributions. New Jersey: John Wiley and Sons.

Kachiashvili, K.J. (2014). The Methods of Sequential Analysis of Bayesian Type for the Multiple Testing Problem. Sequential Analysis: Design Methods and Applications, 33:23-38.

Koop, G., Poirier, D.J. and Tobias, J.L. (2007). Bayesian Econometric Methods. New York: Cambridge University Press.

Lai, T.L. (2001). Sequential analysis: some classical problems and new challenges. Statistica Sinica, 11:303-351.

Lakshmi, R.V., Vaidyanathan, V.S. (2015). Parameter Estimation in Gamma Mixture Model using Normal-based Approximation. Statistical Theory and Applications, 15:25-35.

Lecoutre, B., Derzko, G., Grouin, J.M. (1995). Bayesian predictive approach for inference about proportion. Statistics in Medicine, 14:1057-1063.

Merabet, H. (2004). Index and prevision of satisfaction in exponential models for clinical trials. Statistica, LXIV:441-453.

Merabet, H. (2013). Bayesian sequential analysis of clinical trials feedback. Statistica, LXXIII:363-377.

Merabet, H., Labdaoui. A. and Druilhet, P. (2017). Bayesian prediction for sequential analysis in clinical trials designs. Communications in Statistics-Theory and methods, 46:9807-9816.

Morita, S., Thall, P. F. and Muller, P. (2008). Determining the effective sample size of parametric prior. Biometrics, 64:595-602.

Nitis, M. and Basil, M. S. (2009). Sequential methods and their applications. U.S: Chapman and Hall/CRC, Taylor and Francis Group.

Pauwels, E., Lajaunie, C. and Vert, J.P. (2014). A Bayesian active learning strategy for sequential experimental design in systems biology. BMC Systems Biology, 8:1-11.

Sackrowitz, H., Cahn, E.S. (1999). P Values as Random Variables-Expected P Values. The American Statistician, 53:326-331.

Saville, B.R., Connor, J.T., Ayers, G.D. and Alvarez, J. (2014). The utility of Bayesian predictive probabilities for interim monitoring of clinical trials. Clinical Trials, 11:485-493.

Shih, M.C. and Lavori, P.W. (2013). The utility of Sequential methods for comparative effectiveness experiments: point of care clinical trials. Statistica Sinica, 23:1775-1791.

Spiegelhalter, D.J., Abrams, K.R. and Myles, J.P. (2004). Bayesian Approaches to Clinical Trials and Health-Care Evaluation. England: John Wiley and Sons.

Stallard, N. (1998). Sample size determination for Phase II clinical trials based on Bayesian decision theory. Biometrics, 54:279-294.

Tanwir Akhtar and Athar Ali Khan. (2017). Bayesian analysis of poisson reliability model with r and jags. International Journal of Recent Scientific Research , 8(11):21837-21841.

Todd, S., Whitehead, A., Stallard, N. and Whitehead, J. (2011). Interim analyses and sequential designs in phase III studies. Br J Clin Pharmacol, 51:394-399.

Vanlier, J., Tiemann, C.A., Hilbers, P.A.J. and van Riel, N.A.W. 2012. A Bayesian approach to targeted experiment design. bioinformatics, 28:1136-1142.

Zaslavsky, B.G. (2010). The utility of Empirical Bayes models of Poisson clinical trials and sample size determination. Pharm. Stat , 9:133-141.


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