When external controls collide with the FDA: two recent cases and what they teach us

When trials don’t use a traditional control — What the FDA guidance says

In the usual drug-development pathway, regulators expect a trial where patients are randomly assigned either to receive the investigational drug or a comparator (placebo or active treatment). This randomized-controlled-trial (RCT) design is the “gold standard” for showing that a drug works (i.e., that the benefit is due to the drug not to other factors). For NDA/BLA approvals, FDA issued two guidance documents:

• Demonstrating Substantial Evidence of Effectiveness for  Human Drug and Biological Products
• Demonstrating Substantial Evidence of Effectiveness With One Adequate and Well-Controlled Clinical Investigation and Confirmatory Evidence

However, there are settings—rare diseases, rapidly progressive conditions, or severe unmet need—where recruiting a traditional randomized control arm is difficult or ethically questionable. In those settings, sponsors may propose to compare patients treated under an investigational protocol against a group of patients drawn from an outside dataset (e.g., prior trials, patient registries, real-world data) who did not receive the investigational drug. Such a comparison group is often called an external control (sometimes “synthetic control” or “historical control”).

In this design:

• The treatment arm is prospective, treated under a defined protocol.

• The control arm comes from a separate dataset (regardless of when or how collected) and did not receive the investigational product under the same protocol.
  Because the groups were not randomized together, there are extra risks of bias and confounding. The key question is: can the FDA rely on such evidence to reach its statutory standard of “substantial evidence of effectiveness”?
  In February 2023 the FDA issued a draft guidance for industry titled “Considerations for the Design and Conduct of Externally Controlled Trials for Drug and Biological Products”. 

Here are some of the most important take-aways from that guidance:

• The guidance explicitly recognizes that externally-controlled trials may, in some circumstances, serve as an adequate and well-controlled investigation to support approval of a drug or biologic. 

• But the guidance is cautious: it states that in many cases “the likelihood of credibly demonstrating the effectiveness of a drug of interest with an external control is low.” 

• The guidance puts heavy emphasis on using patient-level data (not just summary published numbers) for the external control. 

• It emphasizes key threats: unmeasured confounding, bias, differences in assessment or follow-up, intercurrent events, immortal time bias, and temporal changes in standard of care or diagnostics. 

• It recommends early and frequent communication between sponsor and FDA if an external control design is under consideration. 

• It doesn’t endorse a single statistical adjustment method (propensity scores, Bayesian modelling, etc.). Instead, it says the analytic plan must be prespecified, transparent, and justified in the context of the specific trial. 

• The guidance makes clear this is not the default approach—it remains a specialized tool rather than the standard route.

In short: the FDA is signaling openness to external controls in selected settings—but the bar remains high.

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How this ties to the two recent cases

Here’s how the guidance connects to the two real-world situations.

Case 1: uniQure and AMT-130 in Huntington’s disease

• uniQure reported a treated cohort using AMT-130 (a one-time gene therapy) and compared outcomes to a natural-history/external cohort.

• The agency essentially pushed back: although the signals were strong, the design raised concerns (especially given the lack of randomization, external control issues) and the company reported that pre-BLA discussions did not confirm a clean path.

• Under the FDA external-control guidance, the concerns would include: are the treated and external groups sufficiently similar (baseline disease features, prior therapies, timing)? Was the index date (“time zero”) aligned? Are the outcome assessments the same, and is the follow-up and endpoint definition comparable? Are missing data or unmeasured confounders plausibly influencing the result? The guidance states that if any of these are weak, the design may not credibly distinguish drug effect from other influences. 

• The uniQure case illustrates: even with promising effect size, the agency may conclude that uncertainties tied to external control reduce confidence in the evidence.

Case 2: Biohaven Pharmaceuticals and Vyglxia (troriluzole) in Spinocerebellar ataxia

• Biohaven’s NDA included a large externally-controlled dataset (real-world evidence for the control arm) reporting disease-slowing.

• The FDA issued a Complete Response Letter (CRL) citing concerns with the external-control-based evidence (e.g., bias, data‐quality, missing/unmeasured information). According to Biohaven, the agency rejected its drug, called troriluzole, due to issues that can be "inherent to real-world evidence and external control studies, including potential bias, design flaws, law of pre-specification and unmeasured confounding factors."

• According to the guidance, when the anticipated treatment effect size is modest, an externally controlled trial is less likely to be acceptable unless the design is very strong. 

• Also the guidance emphasizes that outcome ascertainment, timing, and data source differences between arms are key threats. The Biohaven case appears to reflect those issues.

• This case reinforces that external controls are not a way to bypass rigorous design—they still demand high‐quality data, pre-specification, and detailed justification.

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What this means for patients, clinicians and developers

• For patients & clinicians: When you see a newly approved drug whose pivotal evidence is based on an external control rather than a randomized trial, ask: how comparable were the groups? How solid was the external data (patient-level, good follow-up, similar measurement)? Has a confirmatory trial been required or planned?

• For developers: If you plan to rely on an external control, start very early: identify and curate the external dataset, lock the eligibility and analytic plan, engage FDA in frequent meetings, anticipate the agency will probe data quality, comparability, missing data and bias. Treat the external control design as a rigorous undertaking—not a shortcut.

• For the field of rare diseases and high-unmet-need areas (for example your interest area of pulmonary arterial hypertension): External controls offer a promising option when randomization is infeasible—but you must make the case strongly. The FDA’s guidance gives you the checklist: patient­-level data, alignment of arms, clear index date, consistent endpoint measurement, robust analytics. If you can’t satisfy those, a randomized or concurrent control may still be needed.

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Final thoughts

The FDA’s external‐control guidance is a signal that regulators recognize the realities of these challenging settings—but it does not mean external controls are easy, or will automatically yield approval. The recent uniQure and Biohaven cases are a clear reminder: you may have impressive effect size or compelling unmet need—but the agency will still closely scrutinize design, data source, comparability, missing data, and bias.

FDA Commissioner's National Priority Voucher (CNPV) program versus Priority Review Voucher (PRV)

FDA created a new voucher program called "Commissioner's National Priority Voucher (CNPV) Pilot Program" to accelerate Drug Review for Companies Supporting U.S. National Interests. The CNPV pilot program offers an unprecedented opportunity to reduce drug and biological product application or efficacy supplement (ES) review times from 10-12 months to just 1-2 months. Announced in June 2025, this innovative program uses a collaborative tumor board style review process to accelerate approvals for companies aligned with critical U.S. national health priorities.

On October 16, 2025, FDA Awards First-Ever National Priority Vouchers to Nine Sponsors. The following 9 products were selected:

• Pergoveris for infertility
• Teplizumab for Type I diabetes
• Cytisinicline for nicotine vaping addiction
• DB-OTO for deafness
• Cenegermin-bkbj for blindness
• RMC-6236 for pancreatic cancer
• Bitopertin for porphyria
• Ketamine for domestic manufacturing of a critical drug for general anesthesia
• Augmentin XR for domestic manufacturing of a common antibiotic 

On November 06, 2025, FDA Awards Second Batch of National Priority Vouchers. The following 6 products were selected following external applications and internal nominations from FDA review divisions:

• Zongertinib for HER2 lung cancer
• Bedaquiline for drug-resistant tuberculosis in young children
• Dostarlimab for rectal cancer
• Casgevy for sickle cell disease
• Orforglipron for obesity and related health conditions
• Wegovy for obesity and related health conditions

The new voucher program was criticized in this NEJM article “Flaws in the FDA’s New Priority Voucher Program” by Carpenter, Hwang, and Kesselheim. The authors argue that while the program seeks to promote innovation and address public health needs, it has significant shortcomings. They note that regulatory review already represents a small portion of total drug-development time and that past voucher programs have shown little evidence of spurring innovation while straining FDA resources. The paper warns that the CNPV program, created without congressional authorization and with vague eligibility criteria, risks politicizing FDA decisions, fostering conflicts of interest, and undermining public trust. Moreover, the compressed review timelines could compromise drug safety and overburden staff. The authors suggest that if implemented, the program should focus on generic drugs where expedited review could have tangible benefits, and should incorporate strong transparency, conflict-of-interest safeguards, and legislative oversight to maintain the integrity of the FDA’s regulatory process.

In a previous post, the FDA's Priority Review Voucher (PRV) programs were discussed. Here’s a side-by-side comparison table summarizing the key similarities and differences between the Commissioner’s National Priority Voucher (CNPV) and the Priority Review Voucher (PRV) programs such as the Rare Pediatric Disease PRV:

Feature	Commissioner’s National Priority Voucher (CNPV)	Priority Review Voucher (PRV) – e.g., Rare Pediatric Disease
Origin / Authorization	Created by the FDA Commissioner in 2025 as a pilot program without explicit congressional authorization.	Created by Congress through legislative action (e.g., the 2012 FDA Safety and Innovation Act for rare pediatric diseases).
Purpose	To accelerate review for drugs aligned with U.S. national health priorities, including unmet needs, national security, innovation, and affordability.	To incentivize development of drugs for neglected or rare conditions (e.g., tropical or rare pediatric diseases).
Review Time Benefit	Shortens FDA review time for selected drugs to 1–2 months, much faster than any existing program.	Converts a standard 10-month review to a priority 6-month review for another drug application.
Eligibility Criteria	Broad and somewhat opaque—drugs must align with “national priorities,” such as public health crises or domestic manufacturing.	Clearly defined by statute—applies to drugs for designated rare pediatric diseases (or other legislatively defined conditions).
Voucher Transferability	Nontransferable (can only be used by the same sponsor; valid if company ownership changes).	Transferable—can be sold or traded to another company, often for hundreds of millions of dollars.
Voucher Expiration	Expires after 2 years if unused.	Does not expire.
Selection and Oversight	Controlled by the FDA Commissioner’s office, raising concerns about political influence and conflicts of interest.	Statutory oversight and criteria limit discretion; implementation and tracking are agency-administered but legislatively mandated.
Scope / Eligible Products	Focused on drugs supporting U.S. national interests (innovation, security, affordability).	Focused on drugs addressing specific rare or neglected diseases.
Impact on FDA Workload	Could significantly burden FDA staff due to extremely short review timelines and unfunded mandates.	Adds workload but within a manageable 6-month priority window, and user fees help fund FDA resources.
Pilot Structure / Limits	Initially limited to five awardees in the first year; long-term limits unclear.	Ongoing statutory program with defined eligibility and reporting mechanisms.
Evidence of Effectiveness	No evidence yet; experts predict limited impact on overall development time and potential risks to review quality.	Empirical studies show limited evidence of incentivizing innovation but measurable market and financial impacts.
Key Concerns	Politicization, conflicts of interest, safety risks from rushed reviews, lack of transparency, and legal vulnerability due to lack of statutory basis.	Limited innovation incentive, windfall profits for some sponsors, and added workload, but more transparent and regulated.
Suggested Improvements	Apply to generic drugs, establish clear criteria, ensure independent review, legislative authorization, and transparency.	Better alignment between voucher incentives and public health impact; continue to monitor postmarket safety.

While both CNPV and PRV programs aim to accelerate access to important therapies, the CNPV is a politically driven, non-statutory pilot emphasizing national priorities, with potentially risky acceleration timelines and limited oversight. In contrast, the PRV system—though imperfect—has a clear legislative framework, defined eligibility, and established oversight mechanisms that maintain greater regulatory transparency and accountability.