期刊论文详细信息
BMC Medical Research Methodology
Screened selection design for randomised phase II oncology trials: an example in chronic lymphocytic leukaemia
Lucinda Billingham2  Andrew Pettitt1  Christina Yap3 
[1] Molecular and Clinical Cancer Medicine, University of Liverpool, Liverpool L69 3GA, UK;Cancer Research UK Clinical Trials Unit, University of Birmingham, Birmingham B15 2TT, UK;MRC Midland Hub for Trials Methodology Research, College of Medical and Dental Sciences, University of Birmingham, Birmingham B15 2TT, UK
关键词: Moderate Sample Sizes;    Oncology;    Play-the-Winner;    Screening Design;    Selection Design;    Randomised Phase II;   
Others  :  1092343
DOI  :  10.1186/1471-2288-13-87
 received in 2013-03-21, accepted in 2013-06-26,  发布年份 2013
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【 摘 要 】

Background

As there are limited patients for chronic lymphocytic leukaemia trials, it is important that statistical methodologies in Phase II efficiently select regimens for subsequent evaluation in larger-scale Phase III trials.

Methods

We propose the screened selection design (SSD), which is a practical multi-stage, randomised Phase II design for two experimental arms. Activity is first evaluated by applying Simon’s two-stage design (1989) on each arm. If both are active, the play-the-winner selection strategy proposed by Simon, Wittes and Ellenberg (SWE) (1985) is applied to select the superior arm. A variant of the design, Modified SSD, also allows the arm with the higher response rates to be recommended only if its activity rate is greater by a clinically-relevant value. The operating characteristics are explored via a simulation study and compared to a Bayesian Selection approach.

Results

Simulations showed that with the proposed SSD, it is possible to retain the sample size as required in SWE and obtain similar probabilities of selecting the correct superior arm of at least 90%; with the additional attractive benefit of reducing the probability of selecting ineffective arms. This approach is comparable to a Bayesian Selection Strategy. The Modified SSD performs substantially better than the other designs in selecting neither arm if the underlying rates for both arms are desirable but equivalent, allowing for other factors to be considered in the decision making process. Though its probability of correctly selecting a superior arm might be reduced, it still performs reasonably well. It also reduces the probability of selecting an inferior arm.

Conclusions

SSD provides an easy to implement randomised Phase II design that selects the most promising treatment that has shown sufficient evidence of activity, with available R codes to evaluate its operating characteristics.

【 授权许可】

   
2013 Yap et al.; licensee BioMed Central Ltd.

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【 参考文献 】
  • [1]Pettitt AR, Jackson R, Carruthers S, Dodd J, Dodd S, Oates M, Johnson GG, Schuh A, Matutes E, Dearden CE, et al.: Alemtuzumab in combination with methylprednisolone is a highly effective induction regimen for patients with chronic lymphocytic leukemia and deletion of TP53: final results of the national cancer research institute CLL206 Trial. J Clin Oncol 2012, 30:1647-1655.
  • [2]Hallek M, Cheson BD, Catovsky D, Caligaris-Cappio F, Dighiero G, Dohner H, Hillmen P, Keating MJ, Montserrat E, Rai KR, et al.: Guidelines for the diagnosis and treatment of chronic lymphocytic leukemia: a report from the international workshop on chronic lymphocytic leukemia updating the national cancer institute-working group 1996 guidelines. Blood 2008, 111:5446-5456.
  • [3]Simon R: Optimal two-stage designs for phase II clinical trials. Control Clin Trials 1989, 10:1-10.
  • [4]Simon R, Wittes RE, Ellenberg SS: Randomized phase II clinical trials. Cancer Treat Rep 1985, 69:1375-1381.
  • [5]Jung SH, George SL: Between-arm comparisons in randomized phase II trials. J Biopharma Stat 2009, 19:456-468.
  • [6]Rubinstein LV, Korn EL, Freidlin B, Hunsberger S, Ivy SP, Smith MA: Design issues of randomized phase II trials and a proposal for phase II screening trials. J Clin Oncol 2005, 23:7199-7206.
  • [7]Estey EH, Thall PF: New designs for phase 2 clinical trials. Blood 2003, 102:442-448.
  • [8]Thall PF, Simon R, Ellenberg SS: 2-stage selection and testing designs for comparative clinical-trials. Biometrika 1988, 75:303-310.
  • [9]Liu PY, LeBlanc M, Desai M: False positive rates of randomized phase II designs. Control Clin Trials 1999, 20:343-352.
  • [10]Sargent DJ, Goldberg RM: A flexible design for multiple armed screening trials. Stat Med 2001, 20:1051-1060.
  • [11]Jung SH, Lee T, Kim K, George SL: Admissible two-stage designs for phase II cancer clinical trials. Stat Med 2004, 23:561-569.
  • [12]Cook J: Multc Lean Statistical Tutorial. USA: Department of Biostatistics and Applied Mathematics, University of Texas M. D. Anderson Cancer Center; 2005.
  • [13]Seshan VE: clinfun: Clinical Trial Design and Data Analysis Functions. (R package version 1.0.3.). 2012. http://CRAN.R-project.org/package=clinfun webcite
  • [14]Chen TT: Optimal three-stage designs for phase II cancer clinical tribes. Stat Med 1997, 16:2701-2711.
  • [15]Liu PY, Moon J, LeBlanc M: Phase II selection designs. In Handbook of Statistics in Clinical Oncology. Third edition. Edited by Crowley J, Hoering A. Chapman & Hall/CRC; 2012:151-161.
  • [16]Case L, Morgan T: Design of phase II cancer trials evaluating survival probabilities. BMC Med Res Methodol 2003, 3:6. BioMed Central Full Text
  • [17]Liu PY, Dahlberg S, Crowley J: Selection designs for pilot-studies based on survival. Biometrics 1993, 49:391-398.
  • [18]Bryant J, Day R: Incorporating toxicity considerations into the design of two-stage phase II clinical trials. Biometrics 1995, 51:1372-1383.
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