Thursday, December 01, 2022

Sample size re-estimation or sample size increase?

Recently, a press release from a biotech company caught my eye. This seems to be an example of the adaptive design with sample size re-estimation, however, it is unusual that the sample size is decreased as usually the sample size re-estimation results in an increase in sample size. 
Bellerophon Therapeutics, Inc. (Nasdaq: BLPH) (“Bellerophon” or the “Company”), a clinical-stage biotherapeutics company focused on developing treatments for cardiopulmonary diseases, announced today that the U.S. Food and Drug Administration (FDA) has accepted the Company’s proposal to reduce the study size for its ongoing registrational REBUILD Phase 3 trial of INOpulse® for the treatment of fibrotic Interstitial Lung Disease (fILD). The new study size of 140 subjects does not impact the trial’s principal objective or endpoints and maintains power of >90% (p-value < 0.01) for the primary endpoint of Moderate to Vigorous Physical Activity (MVPA) based on the effect size observed in Phase 2.

Following the evaluation of baseline MVPA characteristics, as measured by actigraphy, compliance to treatment and review of safety data of the randomized subjects in the ongoing Phase 3 REBUILD study, the trial’s independent Data Monitoring Committee (DMC) supported reducing the target study size from 300 to 140 subjects.
Sample size re-estimation is one type of adaptive design where the sample size can be adjusted during the study based on a prespecified rule. Sample size re-estimation has its special features:  

Group Sequential Design (GSD) and Sample Size Re-estimation

Clinical trials with adaptive design can be in different forms depending on what the adaptations are. Two commonly utilized adaptive designs are group sequential design (GSD) and sample size re-estimation (SSR). Implementation of both GSD and SSR is through the interim analyses conducted by the independent data monitoring committee. In GSD studies, we set a large sample size and hope to stop the trial early due to the overwhelming efficacy, futility, or safety at the interim analyses. In adaptive design with SSR, we start with a small study and possibly increase the sample size post an interim analysis. Both GSD and SSR can achieve the same benefits of reduced sample size and potentially an earlier conclusion. 

Blinded Sample Size Re-estimation and Unblinded Sample Size Re-estimation

In FDA guidance "Adaptive Designs for Clinical Trials of Drugs and Biologics", sample size re-estimation was described in section B "adaptations to the sample size". Blinded sample size re-estimation is based on interim estimates of nuisance parameters such as the standard deviation for continuous outcome measure and overall event rate for discreet outcome measure. The unblinded sample size re-estimation is a type of adaptive design where adaptation is to prospectively plan modifications to the sample size based on comparative interim results. Blinded sample size re-estimation may be conducted by the sponsor statistician while unblinded sample size re-estimation must be through an independent data monitoring committee.  

Sample Size Re-estimation and Sample Size Increase

In clinical trials with prospectively planned sample size re-estimation, the sample size is usually increased. It is very rare that the sample size is decreased after the interim analysis. For adaptive clinical trials with adaptation on sample size (i.e., sample size re-estimation), the initial sample size estimation can be based on more aggressive assumptions that result in a smaller sample size. In the middle of the study, interim analyses are performed and the decision can be made (by independent DMC and through a prespecified rule) whether or not the sample size should be increased. 

In FDA's guidance discussing the Adaptations to Sample Sizes, while the terms 'sample size re-estimation' and 'sample size adaptation' are used, the sample size increase is really implied. 

Sample Size Adaptation and Sample Size Increase by a Fixed Number

The sample size re-estimation or sample size adaptation is really a binary decision. If the decision is to increase the sample size (after the interim analysis), the sample size will be increased by a pre-specified, fixed number, not increased by a number that is based on the observed treatment effect at the interim analysis. 

If the sample size is increased by a very exact level calculated from the observed treatment effect at the interim analysis to bring the conditional power up to a target level, there is a potential to reverse calculate the effect size or to at least make an educated guess about what the effect size is from the interim analysis

This potential for an educated guess about the effect size is a huge issue from the regulatory point of view. This specific concern is discussed in FDA's guidance ""Adaptive Designs for Clinical Trials of Drugs and Biologics".

Finally, there are additional challenges in maintaining trial integrity in the presence of sample size adaptations. For example, sample size modification rules are often based on maintaining the conditional probability of a statistically significant treatment effect at the end of the trial (often called the conditional power) at or near some desired level. In this scenario, knowledge of the adaptation rule and the adaptively chosen sample size allows a relatively straightforward back-calculation of the interim estimate of treatment effect. Therefore, additional steps should be taken to limit personnel with this detailed knowledge so that trial integrity can be maintained.

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