News, Analysis, Trends, Management Innovations for
Clinical Laboratories and Pathology Groups
Hosted by Robert Michel

News, Analysis, Trends, Management Innovations for
Clinical Laboratories and Pathology Groups
Hosted by Robert Michel

Sign In

FDA Proposes Reclassifying Oncology Companion Diagnostics, Potentially Easing Approval Path and Expanding Patient Access

Dec 29, 2025 | Compliance, Legal, and Malpractice, Laboratory News

The agency says shifting certain companion diagnostic tests from Class III to Class II could reduce regulatory burden, shorten review timelines, and encourage more manufacturers to enter the market.

The US Food and Drug Administration (FDA) has released a proposal that could significantly alter the regulatory pathway for oncology companion diagnostics, aiming to reduce barriers to market entry while maintaining assurances of safety and effectiveness.

In a notice published Nov. 25 in the Federal Register, the FDA said it plans to reclassify certain companion diagnostic assays from Class III medical devices to Class II devices. The proposal applies to specific nucleic acid–based in vitro diagnostic tests that are indicated for use with a corresponding FDA-approved oncology therapeutic product.

Under the current framework, Class III devices require premarket approval (PMA), the

FDA’s most rigorous and resource-intensive review process. Class II devices, by contrast, are typically cleared through the 510(k) premarket notification pathway, which is generally faster and less costly for manufacturers.

FDA Cites Maturing Technologies and Robust Safety Data to Support Reclassification

According to the agency, Class II devices are those for which “general controls by themselves are insufficient,” but for which “there is sufficient information to establish special controls to provide assurance of safety and effectiveness.” These special controls can include performance standards, postmarket surveillance, patient registries, and the development of guidelines and recommendations.

The proposed reclassification would cover in vitro diagnostic devices intended to detect specific genetic variants or other nucleic acid biomarkers in human clinical specimens. These tests rely on nucleic acid amplification technologies and/or sequencing technologies and are specifically tied to approved cancer therapies.

“Based upon the extensive [premarket approval] data available to FDA … published peer-reviewed literature studying the longstanding and well-understood technologies, and data available to the agency demonstrating a lack of significant postmarket safety signals with oncology therapeutic nucleic acid-based test systems, FDA believes there is sufficient information to reclassify these devices from Class III (premarket approval) into Class II (special controls),” the agency wrote.

Credit: Image by Max from Pixabay.

The FDA emphasized that the proposal reflects both the maturity of the underlying technologies and the agency’s experience overseeing these products once they are on the market. Many companion diagnostics have been used clinically for years, generating substantial performance and safety data.

Reduced Regulatory Burden Could Accelerate Market Entry and Patient Access

If finalized, the change could have meaningful implications for diagnostic developers and patients alike. The FDA said the reclassification would “decrease regulatory burden on industry” by allowing manufacturers to pursue the “less burdensome” and “generally more cost-effective” 510(k) pathway rather than PMA.

“A 510(k) typically results in a shorter premarket review timeline compared to a PMA, which ultimately may provide more timely access of these types of devices to patients,” the agency said. “FDA expects that the reclassification of these devices would enable more manufacturers to develop these types of devices such that patients would benefit from increased access to appropriately safe and effective tests.”

The proposal comes as demand continues to grow for precision oncology tools that match patients with targeted therapies based on genetic and molecular profiles.

Companion diagnostics are often essential for determining whether a patient is eligible for a specific cancer drug, making regulatory timelines a critical factor in how quickly new therapies can reach the clinic.

The FDA stressed that the proposal does not eliminate oversight, but rather shifts it to a framework the agency believes is more proportionate to the risk profile of these tests. Special controls would still apply, and manufacturers would remain responsible for demonstrating that their devices are safe, effective, and substantially equivalent to legally marketed products.

The agency is seeking public input before finalizing the order. Comments on the proposal will be accepted through Jan. 26, 2026, giving stakeholders across the diagnostics, pharmaceutical, and healthcare sectors an opportunity to weigh in on how the change could affect innovation, competition, and patient care.

If adopted, the reclassification could mark one of the most consequential regulatory shifts for oncology companion diagnostics in years, potentially accelerating development timelines while expanding access to precision testing for cancer patients.

—Janette Wider

UC San Diego Health Launches First US Blood Test for Testicular Cancer, Setting New Standard for Lab Diagnostics

Nov 21, 2025 | Laboratory Pathology, Precision Medicine

The CAP- and CLIA-validated microRNA-371a-3P assay promises earlier detection, fewer CT scans, and more precise treatment decisions for a high-risk patient population.

According to a press release, UC San Diego Health has become the first health system in the United States to offer a clinically validated blood test for testicular cancer. This advance could potentially redefine diagnostic workflows, reduce reliance on imaging, and sharpen treatment decisions for a patient population that often faces both overtreatment and missed recurrences.

The assay, more than a decade in development, measures microRNA-371a-3P, a biomarker shown to detect the presence of testicular cancer cells with about 90% accuracy. Until now, clinicians and clinical laboratories have had limited tools to determine which patients require surgery, chemotherapy, or simply surveillance, especially when imaging is inconclusive.

“This CAP and CLIA clinical validation process and test implementation allows us to translate years of research findings into clinical decisions that can genuinely help patients,” said Sarah Murray, PhD, director of medical genetics and genomics at the UC San Diego Center for Advanced Laboratory Medicine and the laboratory leader who oversaw the test’s validation. “The rigorous standards we’ve met ensure that this test is reproducible, reliable and has analytic validity.”

Diagnostic Gap Labs Have Long Aimed to Close

Testicular cancer strikes roughly 10,000 people annually, primarily men between 18 and 45, yet existing serum markers fail to capture the majority of cases. As a result, laboratories and oncologists have historically struggled with staging uncertainty, unnecessary chemotherapy, and delayed recognition of recurrence. About one-third of patients experience relapses after orchiectomy despite normal CT imaging.

The press release explained that the biomarker’s sensitivity and specificity offer a clearer, earlier signal of active cancer biology—information that can materially change treatment plans.

Further, the test can be used across the care continuum. Before surgery, it can help confirm whether an abnormal testis is malignant and guide surgical decision-making. Post-operatively, it can help determine which patients truly need systemic therapy or further intervention. During surveillance, it may detect recurrence earlier than imaging, allowing less intensive and more precisely timed treatment.

For laboratories, one of the most consequential implications is the potential to reduce the reliance on repeated CT scans, as they carry radiation exposure, cost burdens, and logistical challenges. A validated blood-based alternative, if adopted more widely, could shift surveillance algorithms across health systems.

A Model for Translational Collaboration

The test is currently available for patients at UC San Diego Health and will open to external referrals later this year, allowing outside clinicians and pathology departments to submit samples. It is fully CAP-accredited and CLIA-certified, positioning it for broader adoption by cancer centers seeking higher-resolution molecular insight without expanding imaging capacity.

Diane Simeone, MD, director of the Moores Cancer Center at UC San Diego Health noted that international patient inquiries have already begun and emphasized the test’s potential to recalibrate global standards for testicular cancer management.

“This breakthrough represents the kind of investment in innovation that can save lives while improving quality of life for cancer survivors,” said Diane Simeone, MD, director of the Moores Cancer Center at UC San Diego Health. (Photo credit: UC San Diego Health)

For the urology and oncology teams, the test represents years of translational research. For laboratories, it represents a milestone in bringing microRNA-based diagnostics into routine clinical use.

Integrating Results into Multidisciplinary Care

Each test result will feed into UC San Diego Health’s molecular tumor board, a multidisciplinary group that meets every two weeks to review every patient case and interpret biomarker findings in the context of clinical, imaging, and pathological data. For laboratory professionals, this embedded oversight ensures that results are used appropriately and helps refine test performance insights over time.

For labs nationwide, the launch signals a turning point: a real-world, regulated microRNA test with immediate clinical impact—and a template for how laboratory medicine can lead in closing long-standing diagnostic gaps.

This article was created with the assistance of Generative AI and has undergone editorial review before publishing.

—Janette Wider

;