Sunday, April 08, 2018

Clinical Trials Using Historical Control in Rare Disease Drug Development


While the randomized, control clinical trial has become and remains to be the golden standard in drug development, we also see the increased use of non-randomized, single-arm study where the effectiveness of the testing drug is compared to the historical control.

When a pivotal study is a single arm and has no concurrent control, the results from the study will need to be compared to the historical control or a common standard that has been accepted by the medical community or regulatory agencies. This seems to be more common in the oncology area and in rare disease areas.

Without any specific statistics, I can only say this is my impression that the historical control seems to be more accepted by the US FDA in its approvals in oncology and rare disease areas. Here are three examples of recent drug approvals based on historical control:

Venetoclax in Relapsed / Refractory Chronic Lymphocytic Leukemia (CLL)

The pivotal study is a single-arm study without concurrent control and the primary efficacy endpoint is objective response rate (ORR). The result is compared with the historical / standard rate of 40%.

eteplirsen in Duchenne Muscular Dystrophy (DMD)

The original study was a randomized, double-blind, placebo control study with three arms (eteplirsen 30 mg/kg weekly; eteplirsen 50 mg/kg weekly, and placebo) – 4 subjects in each arm for a total 12 subjects. All subjects including placebo subjects were rolled over to an open-label extension study for long-term assessment.

The results from double-blind portion of the study did not provide the strong evidence for efficacy. The sponsor conducted a post-hoc comparison with a historical control.

FDA was not convinced with eteplirsen’s efficacy and conducted the advisory committee. In the end, the eteplirsen was approved as the first treatment in Duchenne Muscular Dystrophy with a lot of controversies. The comparison with historical control (while hotly debated) was a big part of the evidence contributing to the approval.

Brineura for Batten Disease

The entire clinical program included: 
  • A natural history study with 69 subjects (42 evaluable)
  • A Phase 1/2 FIM single-arm study with 24 subjects (23 completed)
  • A long-term follow-up study with 23 subjects

Natural history study was based on registry data; Provided the basis as the historical control group
Comparability between natural history study and phase 1/2 study were extensively debated during the review process.

FDA finally approved Brineura for Treating Batten disease in 2017.

The use of historical control is not new. It was stated in the ICH guideline E10 “CHOICE OF CONTROL GROUP AND RELATED ISSUES IN CLINICAL TRIALS”
Historical control was again mentioned in FDA’s guidance for industry “Rare Diseases: Common Issues in Drug Development”. FDA encourages the natural history study to establish the historical control.

During the FDA advisory committee meeting, Dr Temple gave a presentation about "Historically Controlled Trials": see FDA's presentation slides (Dr Temple's presentation started from page 20).

In FDA's statistical review of eteplirsen in DMD, the following comments were made on the use of historical control: 
Historical Control Cohort
The comparison of eteplirsen with historical controls was not part of an adequate and wellcontrolled study. The applicant obtained historical data after observations were made for the eteplirsen patients. Historical data were obtained from 2 DMD patient registries (Italian DMD Registry and the Leuven Neuromuscular Reference Center – NMRC) for comparison to eteplirsen-treated patients
……
According to the ICH E10 guidance on Control Group and Related Issues in Clinical Trials, the major and well-recognized limitation of externally controlled (including historical control) trials is inability to control bias. The best group and control group can be dissimilar with respect to a wide range of observable and unobservable factors that could affect outcome. It may be possible to match the historical control group to the test group in observed factors but there is no assurance for any unobserved factors. “The lack of randomization and blinding, and the resultant problems with lack of assurance of comparability of test group and control group, make the possibility of substantial bias inherent in this design and impossible to quantitate.”
 Because of the serious concern about the inability to control bias, the use of the external control design is restricted only to unusual circumstances.
  • ICH E10 states that “an externally controlled trial should generally be considered only when prior belief in the superiority of the test therapy to all available alternatives is so strong that alternative designs appear unacceptable…” However, such prior belief does not exist for eteplirsen.
  • ICH E10 states that “use of external controls should be limited to cases in which the endpoints are objective…” however, performance on the 5-minute walk test can be influenced by motivation. Patients may not achieve maximal 6MWT due to concerns of falling or injury, or patients could try harder with encouragement and with the expectation that the drug might be effective.
  • Pocock’s criteria for acceptability of a historical control group require that “the methods of treatment evaluation must be the same,” and “the previous study must have been performed in the same organization with largely the same clinical investigators.” This is especially important when assessing endpoints such as 6MWT, in contrast to hard endpoints such as mortality. For this NDA, these requirements are not met.
Moreover, the historical control group was identified post-hoc in this NDA, leading to potential selection bias that cannot be quantified. If a historical control is to be utilized, selection of the control group and matching on selection criteria should be prospectively planned without knowing the outcome of the drug group and control group.
 Based on ICH E10, “a consequence of the recognized inability to control bias is that the potential persuasiveness of findings from externally controlled trials depends on obtaining much more extreme levels of statistical significance and much larger estimated differences between treatments than would be considered necessary in concurrently controlled trials.” The success criteria for this historical control study were not discussed or pre-specified in the protocol.
 Given all these concerns, including issues of comparability of eteplirsen-treated patients and historical control cohort patients, the fact that 6MWT is not a “hard” efficacy endpoint, the potential of selection bias due to the post-hoc identification of the control cohort by the applicant, and all the known pitfalls with the use of historical controls, the comparison of the eteplirsen with historical control is not statistically interpretable. 


However, even though the statistical review on the use of historical control was very negative, the eteplirsen was still approved as the first drug treating the DMD and presumably the results from the comparison to historical control played the pivotal role in decision. 

In general, the use of historical control can be accepted in some situations especially in rare disease area where there is no approved drug available. Whenever the historical control is used, the following factors need to be considered:
  • If the proposed historical control cohort is a priori or post hoc. It is encouraged to collect historical control information from natural history studies. 
  • if the patient population from historical control is comparable
  • If the outcome measurement is comparable
  • if the outcome measurement is a hard endpoint (such as death) or soft endpoint (such as 6MWD)
  • If the endpoint measure is easily affected by other factors
  • if the endpoint is a soft endpoint (such as objective response rate ORR), whether or not any approach is implemented to avoid the bias (such as using central reader)

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