AI-based smartphone apps for risk assessment of skin cancer need more evaluation and better regulation.

Smartphone applications ("apps") with artificial intelligence (AI) algorithms are increasingly used in healthcare. Widespread adoption of these apps must be supported by a robust evidence-base and app manufacturers' claims appropriately regulated. Current CE marking assessment processes inadequately protect the public against the risks created by using smartphone diagnostic apps.

Cancer Immunotherapy Update: FDA-Approved Checkpoint Inhibitors and Companion Diagnostics.

Immune checkpoint inhibitors (ICIs) are considered a new standard-of-care across many cancer indications. This review provides an update on ICIs approved by the Food and Drug Administration (FDA), with focus on monoclonal antibodies that target the programmed cell death 1 (PD-1) or its ligand, PD-1 ligand 1 (PD-L1), including information on their clinical indications and associated companion diagnostics. The information is further discussed with strategies for identifying predictive biomarkers to guide the clinical use of PD-1/PD-L1-targeted therapies.

CDx, NGS and regulation: five perspectives from the Pistoia Alliance.

Companion diagnostics (CDx) are essential to the practice of precision medicine. Next-generation sequencing is an increasingly important tool in the development of CDx. However, for CDx to be deployed, many different biopharma industry sectors need to collaborate. This paper outlines some of the challenges and opportunities perceived by the biopharmaceutical industry, the Europe Molecular Quality Network, a regulatory agency, a notified body and a CDx service provider.

Ready for Germany's revised radiation rules?

The assessment of the benefit-risk ratio of investigational medicinal products (IMPs) and the approval of clinical trial applications (CTAs) conducted in the European Union (EU) is a remit of national competent authorities (NCAs) of the 28 member states. The aim of this article is to shed light on clinical studies for oncology drugs carried out in Germany which involve diagnostic radiation tests. The authorisation process surrounding diagnostic radiology accompanying clinical investigations and used for measuring IMP related treatment effects is not well understood. The procedure appears to be complicated because the scientific evaluation of the application is carried out by an independent agency, the Federal Office for Radiation Protection (Bundesamt für Strahlenschutz, BfS). To avoid delays and failures in conducting studies in Germany knowledge of the scope, procedural steps and associated timelines is crucial for project management purposes. Reliable planning is a pre-requisite for timely study initiation. Novelties of the recently implemented law and key aspects relevant to CTAs should facilitate obtaining BfS clearance. Integrating this additional regional requirement in drug development plans is of importance for timely commencement of multi-national clinical trials.

Precision medicine: what's all the fuss about?

Precision medicine is now recognized globally as a major new era in medicine. It is being driven by advances in genomics and other 'omics' but also by the desire on the part of both health systems and governments to offer more targeted and cost-effective care. However, it faces a number of challenges, from the economics of developing more expensive companion diagnostics to the need to educate patients and the public on the advantages for them. New models of both R&D and care delivery are needed to capture the scientific, clinical and economic benefits of precision medicine.

Regulatory In Vitro Diagnostics Landscape in Africa: Update on Regional Activities.

Improved diagnostic tests for tuberculosis case detection are urgently needed that are affordable, robust, and easy to use so that they can be implemented widely. The mandate of national regulatory authorities is to ensure the safety and effectiveness of diagnostics, protecting the population against unsafe products while expediting access to beneficial new devices. However, regulatory approval processes in the developing world are often complex, lengthy, and not transparent. Recent progress in building regulatory capacity using harmonized approaches will reduce duplication in clinical performance studies and manufacturing audits, facilitate information sharing through trust and mutual confidence building, and ultimately improve efficiency. These savings can be passed onto the consumers in the form of more affordable pricing and allowing new high-quality tests for tuberculosis to be introduced more quickly and without delay.

Diagnostic test allergens used for in vivo diagnosis of allergic diseases are at risk: a European Perspective.

In the European Union (EU), allergens used for diagnostic tests (TAs) are defined as medicinal products and have to be registered by national authorities. The current situation is not homogeneous. Existing authorizations need to be kept in the market in some EU states, while others need complete new authorizations requiring clinical trials, quality assurance methods, stability studies, and periodic safety update reports. Allergen manufacturers argue that offering a comprehensive panel of TAs may be economically disastrous. Expenses for initiation and maintenance of TA authorizations far exceed their related revenues and manufacturers may be forced to significantly limit their allergen portfolios. The availability of a wide range of high-quality TAs is very important for in vivo diagnoses of IgE-mediated allergies. Increased regulatory demands induce costs that need to be covered by public health organizations or reimbursed by health insurance companies.

[Legal basis and practice of examination of critical in vitro diagnostic devices]. / Rechtsgrundlagen und Praxis bei der Prüfung von kritischen In-vitro-Diagnostika.

In vitro diagnostic devices (IVD) are categorized into different risk classes depending on the potential consequences of false test results in transfusion medicine or on the individual patient. Test systems of higher risk may be assessed and examined by a third party in addition to the manufacturer's evaluation. The preapproval examination of essential performance features can assure minimum quality features prior to marketing of the IVDs. By batch testing the variation between different batches of an IVD is determined. Comparative testing in a re-evaluation scheme can define the current state of the art. The present European IVD directive stipulates batch testing for high-risk IVDs while the draft version of the new European IVD regulation also foresees independent product testing performed by European reference laboratories.

Similarities and differences in the oncology drug approval process between FDA and European Union with emphasis on in vitro companion diagnostics.

Drug approval [U.S. Food and Drug Administration (FDA), or market authorization for the European Union's European Medicines Agency (EMA)] is the most significant regulatory milestone for any drug, as drugs can only be marketed after marketing approval by a health authority. This article focuses on the main regulatory aspects of the drug approval process in the European Union (EU) and the United States. Although the procedures, requirements, and timelines for drug approvals are different between the EU and the United States, several global harmonization efforts have been developed during the past few years to have more consistent regulatory procedures/outcomes in different parts of the world. One of the most different procedures/requirements among these regions is co-development, also known as in vitro companion diagnostic. In the United States, it is expected that for a drug that requires an in vitro diagnostic test to select the population to be treated, the companion diagnostic should be already/concomitantly approved by the FDA. In the EU, these requirements are not as stringent as in the United States. However, it is anticipated that in the very near future, legislation changes in the EU will lead to similar requirements for the companion diagnostics for EMA. In summary, although the principles, procedures, and requirements for drug approvals may differ between the United States and EMA, novel efforts to harmonize them are being considered and implemented, thereby leading to simpler global drug development. It is of outmost importance that drug developers understand and appreciate differences in regional regulations. Otherwise, lack of understanding may lead to rejection or delays in drug approvals for useful anticancer agents. See all articles in this CCR Focus section, "The Precision Medicine Conundrum: Approaches to Companion Diagnostic Co-development."

Approval gap of pharmacogenomic biomarkers and in vitro companion diagnostics between the United States and Japan.

WHAT IS KNOWN AND OBJECTIVES: In vitro companion diagnostic devices (CDx) provide information on pharmacogenomic biomarkers (PGBMs) to enable the safe and effective use of targeted agents for personalized therapy. These devices require specific regulations that strike a balance between scientific evidence and financial burden. The aims were to compare approval of PGBMs and CDx in the USA and Japan and to help inform current discussions on personalized medicine. METHODS: We analysed published documentation from the USA and Japan for CDx and PGBMs, listed by the US Food and Drug Administration (FDA). Aspects evaluated were aim, approval state and therapeutic area. Coverage by the National Health Insurance in Japan was also investigated. RESULTS AND DISCUSSION: Thirty-eight PGBMs were listed in the FDA table as of March 2013. In the USA, the aim was efficacy in 55% (21/38). The largest therapeutic area was oncology (39%, 15/38). Fifty-three per cent (20/38) of the PGBMs had a corresponding CDx approved. Of the 38 PGBMs in the FDA table, six had no approved drug in Japan; in 16 of the remaining 32 PGBMs, the aim was efficacy. The largest therapeutic area was oncology (34%, 11/32). Of the 32 PGBMs, 15 were associated with an approved and/or covered CDx, with only 11 having an approved CDx. Four PGBMs had a covered CDx without prior approval in Japan. WHAT IS NEW AND CONCLUSION: Our study confirms that there is still a substantial gap in the approval of PGBMs and CDx between Japan and the USA. Complementary coverage of unapproved CDx by the National Health Insurance, however, is raising access to a similar level in both countries. Because the number of expensive personalized medicines and CDx is increasing, patient access will continue to be an important challenge to healthcare systems in all countries.

The emergence of diagnostic imaging technologies in breast cancer: discovery, regulatory approval, reimbursement, and adoption in clinical guidelines.

In this article, we trace the chronology of developments in breast imaging technologies that are used for diagnosis and staging of breast cancer, including mammography, ultrasonography, magnetic resonance imaging, computed tomography, and positron emission tomography. We explore factors that affected clinical acceptance and utilization of these technologies from discovery to clinical use, including milestones in peer-reviewed publication, US Food and Drug Administration approval, reimbursement by payers, and adoption into clinical guidelines. The factors driving utilization of new imaging technologies are mainly driven by regulatory approval and reimbursement by payers rather than evidence that they provide benefits to patients. Comparative effectiveness research can serve as a useful tool to investigate whether these imaging modalities provide information that improves patient outcomes in real-world settings.