Your search keyword '"Glimm, Ekkehard [0000-0003-3624-961X]"' showing total 2 results

1. Familywise error rate control for block response-adaptive randomization

Author

Ekkehard Glimm, David S Robertson, Glimm, Ekkehard [0000-0003-3624-961X], Robertson, David S [0000-0001-6207-0416], and Apollo - University of Cambridge Repository

Subjects

Statistics and Probability, power, Random Allocation, Health Information Management, Epidemiology, Research Design, multiple testing, Conditional invariance principle, Humans, type I error rate, Probability

Abstract

Response-adaptive randomization allows the probabilities of allocating patients to treatments in a clinical trial to change based on the previously observed response data, in order to achieve different experimental goals. One concern over the use of such designs in practice, particularly from a regulatory viewpoint, is controlling the type I error rate. To address this, Robertson and Wason (Biometrics, 2019) proposed methodology that guarantees familywise error rate control for a large class of response-adaptive designs by re-weighting the usual [Formula: see text]-test statistic. In this article, we propose an improvement of their method that is conceptually simpler, in the context where patients are allocated to the experimental treatment arms in a trial in blocks (i.e. groups) using response-adaptive randomization. We show the modified method guarantees that there will never be negative weights for the contribution of each block of data to the adjusted test statistics, and can also provide a substantial power advantage in practice.

Published

2023

2. Adjusting for treatment selection in phase II/III clinical trials with time to event data

Author

Khan, Josephine N, Kimani, Peter K, Glimm, Ekkehard, Stallard, Nigel, Kimani, Peter K [0000-0001-8200-3173], Glimm, Ekkehard [0000-0003-3624-961X], and Apollo - University of Cambridge Repository

Subjects

Statistics and Probability, multi-arm multi-stage, survival data, Bias, Epidemiology, Patient Selection, Humans, adaptive seamless design, point estimation, Selection Bias

Abstract

Phase II/III clinical trials are efficient two-stage designs that test multiple experimental treatments. In stage 1, patients are allocated to the control and all experimental treatments, with the data collected from them used to select experimental treatments to continue to stage 2. Patients recruited in stage 2 are allocated to the selected treatments and the control. Combined data of stage 1 and stage 2 are used for a confirmatory phase III analysis. Appropriate analysis needs to adjust for selection bias of the stage 1 data. Point estimators exist for normally distributed outcome data. Extending these estimators to time to event data is not straightforward because treatment selection is based on correlated treatment effects and stage 1 patients who do not get events in stage 1 are followed-up in stage 2. We have derived an approximately uniformly minimum variance conditional unbiased estimator (UMVCUE) and compared its biases and mean squared errors to existing bias adjusted estimators. In simulations, one existing bias adjusted estimator has similar properties as the practically unbiased UMVCUE while the others can have noticeable biases but they are less variable than the UMVCUE. For confirmatory phase II/III clinical trials where unbiased estimators are desired, we recommend the UMVCUE or the existing estimator with which it has similar properties.

Published

2023