FDA regulation

The Double-Helix Dilemma: Navigating Privacy Pitfalls in Direct-to-Consumer Genetic Testing

Ethan Wold, MJLST Staffer

Introduction

On October 22, direct-to-consumer genetic testing (DTC-GT) company 23andME sent emails to a number of its customers informing them of a data breach into the company’s “DNA Relatives” feature that allows customers to compare ancestry information with other users worldwide.[1] While 23andMe and other similar DTC-GT companies offer a number of positive benefits to consumers, such as testing for health predispositions and carrier statuses of certain genes, this latest data breach is a reminder that before choosing to opt into these sorts of services one should be aware of the potential risks that they present.

Background

DTC-GT companies such as 23andMe and Ancestry.com have proliferated and blossomed in recent years. It is estimated over 100 million people have utilized some form of direct-to-consumer genetic testing.[2] Using biospecimens submitted by consumers, these companies sequence and analyze an individual’s genetic information to provide a range of services pertaining to one’s health and ancestry.[3] The October 22 data breach specifically pertained to 23andMe’s “DNA Relatives” feature.[4] The DNA Relatives feature can identify relatives on any branch of one’s family tree by taking advantage of the autosomal chromosomes, the 22 chromosomes that are passed down from your ancestors on both sides of your family, and one’s X chromosome(s).[5] Relatives are identified by comparing the customer’s submitted DNA with the DNA of other 23andMe members who are participating in the DNA Relatives feature.[6] When two people are found to have an identical DNA segment, it is likely they share a recent common ancestor.[7] The DNA Relatives feature even uses the length and number of these identical segments to attempt to predict the relationship between genetic relatives.[8] Given the sensitive nature of sharing genetic information, there are often privacy concerns regarding practices such as the DNA Relatives feature. Yet despite this, the legislation and regulations surrounding DTC-GT is somewhat limited.

Legislation

The Health Insurance Portability and Accountability Act (HIPAA) provides the baseline privacy and data security rules for the healthcare industry.[9] HIPAA’s Privacy Rule regulates the use and disclosure of a person’s “protected health information” by a “covered entity.[10] Under the Act, the type of genetic information collected by 23andMe and other DTC-GT companies does constitute “protected health information.”[11] However, because HIPAA defines a “covered entity” as a health plan, healthcare clearinghouse, or health-care provider, DTC-GT companies do not constitute covered entities and therefore are not under the umbrella of HIPAA’s Privacy Rule.[12]

Thus, the primary source of regulation for DTC-GT companies appears to be the Genetic Information Nondiscrimination Act (GINA). GINA was enacted in 2008 for the purpose of protecting the public from genetic discrimination and alleviating concerns about such discrimination and thereby encouraging individuals to take advantage of genetic testing, technologies, research, and new therapies.[13] GINA defines genetic information as information from genetic tests of an individual or family members and includes information from genetic services or genetic research.[14] Therefore, DTC-GT companies fall under GINA’s jurisdiction. However, GINA only applies to the employment and health insurance industries and thus neglects many other potential arenas where privacy concerns may present.[15] This is especially relevant for 23andMe customers, as signing up for the service serves as consent for the company to use and share your genetic information with their associated third-party providers.[16] As a case in point, in 2018 the pharmaceutical giant GlaxoSmithKline purchased a $300 million stake in 23andMe for the purpose of gaining access to the company’s trove of genetic information for use in their drug development trials.[17]

Executive Regulation

In addition to the legislation above, three different federal administrative agencies primarily regulate the DTC-GT industry: the Food and Drug Administration (FDA), the Centers of Medicare and Medicaid services (CMS), and the Federal Trade Commission (FTC). The FDA has jurisdiction over DTC-GT companies due to the genetic tests they use being labeled as “medical devices”[18] and in 2013 exercised this authority over 23andMe by sending a letter to the company resulting in the suspending of one of its health-related genetic tests.[19] However, the FDA only has jurisdiction over diagnostic tests and therefore does not regulate any of the DTC-GT services related to genealogy such as 23andMe’s DNA Relatives feature.[20] Moreover, the FDA does not have jurisdiction to regulate the other aspects of DTC-GT companies’ activities or data practices.[21] CMS has the ability to regulate DTC-GT companies through enforcement of the Clinical Laboratory Improvements Act (CLIA), which requires that genetic testing laboratories ensure the accuracy, precision, and analytical validity of their tests.[22] But, like the FDA, CMS only has jurisdiction over tests that diagnose a disease or assess health.[23]

Lastly, the FTC has broad authority to regulate unfair or deceptive business practices under the Federal Trade Commission Act (FTCA) and has levied this authority against DTC-GT companies in the past. For example, in 2014 the agency brought an action against two DTC-GT companies who were using genetic tests to match consumers to their nutritional supplements and skincare products.[24] The FTC alleged that the companies’ practices related to data security were unfair and deceptive because they failed to implement reasonable policies and procedures to protect consumers’ personal information and created unnecessary risks to the personal information of nearly 30,000 consumers.[25] This resulted in the companies entering into an agreement with the FTC whereby they agreed to establish and maintain comprehensive data security programs and submit to yearly security audits by independent auditors.[26]

Potential Harms

As the above passages illustrate, the federal government appears to recognize and has at least attempted to mitigate privacy concerns associated with DTC-GT. Additionally, a number of states have passed their own laws that limit DTC-GT in certain aspects.[27] Nevertheless, given the potential magnitude and severity of harm associated with DTC-GT it makes one question if it is enough. Data breaches involving health-related data are growing in frequency and now account for 40% of all reported data breaches.[28] These data breaches result in unauthorized access to DTC-GT consumer-submitted data and can result in a violation of an individual’s genetic privacy. Though GINA aims to prevent it, genetic discrimination in the form of increasing health insurance premiums or denial of coverage by insurance companies due to genetic predispositions remains one of the leading concerns associated with these violations. What’s more, by obtaining genetic information from DTC-GT databases, it is possible for someone to recover a consumer’s surname and combine that with other metadata such as age and state to identify the specific consumer.[29] This may in turn lead to identity theft in the form of opening accounts, taking out loans, or making purchases in your name, potentially damaging your financial well-being and credit score. Dealing with the aftermath of a genetic data breach can also be expensive. You may incur legal fees, credit monitoring costs, or other financial burdens in an attempt to mitigate the damage.

Conclusion

As it sits now, genetic information submitted to DTC-GT companies already contains a significant volume of consequential information. As technology continues to develop and research presses forward, the volume and utility of this information will only grow over time. Thus, it is crucially important to be aware of risks associated with DTC-GT services.

This discussion is not intended to discourage individuals from participating in DTC-GT. These companies and the services they offer provide a host of benefits, such as allowing consumers to access genetic testing without the healthcare system acting as a gatekeeper, thus providing more autonomy and often at a lower price.[30] Furthermore, the information provided can empower consumers to mitigate the risks of certain diseases, allow for more informed family planning, or gain a better understanding of their heritage.[31] DTC-GT has revolutionized the way individuals access and understand their genetic information. However, this accessibility and convenience comes with a host of advantages and disadvantages that must be carefully considered.

Notes

[1] https://www.reuters.com/world/us/23andme-notifies-customers-data-breach-into-its-dna-relatives-feature-2023-10-24/#:~:text=%22There%20was%20unauthorized%20access%20to,exposed%20to%20the%20threat%20actor.%22

[2] https://www.ama-assn.org/delivering-care/patient-support-advocacy/protect-sensitive-individual-data-risk-dtc-genetic-tests#:~:text=Use%20of%20direct%2Dto%2Dconsumer,November%202021%20AMA%20Special%20Meeting

[3] https://go-gale-com.ezp3.lib.umn.edu/ps/i.do?p=OVIC&u=umn_wilson&id=GALE%7CA609260695&v=2.1&it=r&sid=primo&aty=ip

[4] https://www.reuters.com/world/us/23andme-notifies-customers-data-breach-into-its-dna-relatives-feature-2023-10-24/#:~:text=%22There%20was%20unauthorized%20access%20to,exposed%20to%20the%20threat%20actor.%22

[5] https://customercare.23andme.com/hc/en-us/articles/115004659068-DNA-Relatives-The-Genetic-Relative-Basics

[6] Id.

[7] Id.

[8] Id.

[9] https://go-gale-com.ezp2.lib.umn.edu/ps/i.do?p=OVIC&u=umn_wilson&id=GALE%7CA609260695&v=2.1&it=r&sid=primo&aty=ip

[10] https://www.hhs.gov/sites/default/files/ocr/privacy/hipaa/administrative/combined/hipaa-simplification-201303.pdf

[11] Id.

[12] Id; https://go-gale-com.ezp2.lib.umn.edu/ps/i.do?p=OVIC&u=umn_wilson&id=GALE%7CA609260695&v=2.1&it=r&sid=primo&aty=ip

[13] https://www.eeoc.gov/statutes/genetic-information-nondiscrimination-act-2008

[14] Id.

[15] https://europepmc.org/backend/ptpmcrender.fcgi?accid=PMC3035561&blobtype=pdf

[16] https://go-gale-com.ezp2.lib.umn.edu/ps/i.do?p=OVIC&u=umn_wilson&id=GALE%7CA609260695&v=2.1&it=r&sid=primo&aty=ip

[17] https://news.yahoo.com/news/major-drug-company-now-access-194758309.html

[18] https://uscode.house.gov/view.xhtml?req=(title:21%20section:321%20edition:prelim)

[19] https://core.ac.uk/download/pdf/33135586.pdf

[20] https://go-gale-com.ezp2.lib.umn.edu/ps/i.do?p=OVIC&u=umn_wilson&id=GALE%7CA609260695&v=2.1&it=r&sid=primo&aty=ip

[21] Id.

[22] https://www.law.cornell.edu/cfr/text/42/493.1253

[23] https://go-gale-com.ezp2.lib.umn.edu/ps/i.do?p=OVIC&u=umn_wilson&id=GALE%7CA609260695&v=2.1&it=r&sid=primo&aty=ip

[24] https://www.ftc.gov/system/files/documents/cases/140512genelinkcmpt.pdf

[25] Id.

[26] Id.

[27] https://go-gale-com.ezp2.lib.umn.edu/ps/i.do?p=OVIC&u=umn_wilson&id=GALE%7CA609260695&v=2.1&it=r&sid=primo&aty=ip

[28] Id.

[29] https://go-gale-com.ezp2.lib.umn.edu/ps/i.do?p=OVIC&u=umn_wilson&id=GALE%7CA609260695&v=2.1&it=r&sid=primo&aty=ip

[30] Id.

[31] Id.


The Inaccessible Cure: the Struggle With Feline Infectious Peritonitis and Thoughts on the Underlying Law

Lan Gan, MJLST Staffer

For fellow feline fanatics, you may share some of my traits. I care for my cat’s health as I care for my own. Besides giving her nutritiously balanced meals, I take notes when she’s unwell and schedule annual physicals for her, just like I would for myself. I also browse online discussions posts of cats. Some make me laugh, some give me new understanding of cat behaviors, but the ones about feline infectious peritonitis are always grim.

Feline Infectious Peritonitis, or FIP, is a severe disease that typically develops in young cats when they are infected with feline enteric coronavirus (FeCV) which later mutates into FIPV and causes inflammations.[1] The mutations happen about ten percent of the time, and, until recently, have almost always been deadly.[2]

In 2018, researchers at the School of Veterinary Medicine at UC Davis partnered with Gilead Sciences and published an article about the discovery of GS-441524, which, through their experiments with cats that were infected with FIPV in an in vitro process, “caused a rapid reversal of disease signs and return to normality with as little as two weeks of treatment in 10/10 cats and with no apparent toxicity.”[3] Another paper, published in 2019, also by researchers of the two institutions, revealed that GS-441524 was an effective treatment for cats with naturally occurring FIP.[4]

This gave cat rescuers and cat owners hope. But despite promising experiment results, Niels Pederson, who partook in the studies and was a long-time researcher devoted to FIP, warned that the development was “proof-of-concept,” showing possibility in terms of science but not immediately translating into commercially available products.[5] Subsequently, GS-441524 did not move forward to become an FDA-approved drug to treat cats.[6] Instead, it seemed to be set aside as Gilead prioritized another drug, remdesivir, which is identical to GS-441524 in part of its structural formula and has the same mechanism of inhibiting coronavirus.[7] When Gilead failed to obtain FDA approval to use remdesivir to treat Ebola, they changed course to study its effects on the then-rising Covid-19 pandemic.[8] GS-441524, with its studies on animals halted, was also part of the race and was argued by some scientists to have more efficacy in treating Covid-19 than remdesivir.[9]

The much-needed cure became inaccessible. In as early as 2019, anxious people were turning to the black market for help. GS-441524 that circulated on the black market had murky origins: potential leaks from lab orders for research, personnel that synthesized the compound themselves in overseas locations such as China.[10] The benefits of the drug, while still salient, based on surveys of cat owners who utilized them, were potentially compromised by the disparity in quality of the black market drugs, and lack of veterinary expertise involved.[11]

Pharmaceutical companies are more than incentivized to patent their research products. A search on World Intellectual Property Organization (WIPO)’s database revealed 66 patents applied for by Gilead, from as early as 2009 to as recently as July 2023.[12] The list of patents documented development in Gilead’s GS-441524 research.[13] Gilead patented GS-441524’s treatment for cats in 2018 and 2020[14], but those accounted for only 3 of the 66 patents they obtained; the rest were regarding human use.[15] Patents benefit their owners by giving them a cause of action against future infringement. They are about owning, not sharing. Patents are the culmination of a strenuous journey of scientific research. But this celebratory landmark might not go any further. Many patents do not make their way onto the market; having one is not itself an incentive for doing so.

Next comes the approval process as stipulated in federal law. 21 U.S.C. § 360b governs the approval process of new animal drugs.[16] The statute lays the burden on pharmaceutical companies – referred to as drug sponsors – of contacting the FDA after initial research of the drug, making the decision to pursue approval for the drug, and conducting tests to ensure the effectiveness and safety of the drug.[17] Additionally, the Generic Animal Drug and Patent Term Restoration Act (GADPTRA) of 1988 provides an abbreviated process for generic copies of approved new animal drugs;[18] the Minor Use and Minor Species Animal Health Act (the “Mums Act”) of 2004 paves paths for drugs affecting a small population of major species of animals (defined as horses, dogs, cats, cattle, pigs, turkeys and chickens) and minor species (those that are not major species) that have few drugs available to them.[19] In 2018, the Animal Drug and Animal Generic Drug User Fee Amendments expanded the eligibility for conditional approval of non-MUMS drugs intending to treat a serious or life-threatening disease or condition or address an unmet animal or human health need, for which a demonstration of effectiveness would require a complex or particularly difficult study or studies.[20]

How has GS-441524 escaped the statutory provisions when they have been amended to be more inclusive? There may be various reasons. It may not qualify for conditional approval under 21 U.S.C. § 360ccc(a)(1)(ii) because peer-reviewed articles have already demonstrated the drug’s effectiveness. It may be hard to quantify the FIP-affected cat population to meet the “minor use” threshold set out in the Mums Act because of the difficulty of FIP testing. Current testing cannot differentiate between FeCV and the mutated FIPV, and an FIP diagnosis is often assumed for young cats based on their higher infection rate.[21] Lastly, no matter which approval process GS-441524 is eligible to take, the process wouldn’t start unless Gilead decides to contact the FDA and set forth the drug for approval. Current statutes create paths, but no incentives to do so. The market may provide some monetary incentives, as treatment costs via the black market can be up to $10,000 for 12 weeks[22], but this is singularly held back by the decision to prioritize approval for human treatment, and the presumption that the approval process of an animal drug would negatively impact the approval process of a similar drug for humans.[23]

The black market is not a long-term solution for FIP treatment. Though the U.S. has yet to adjudicate the circulation of unlicensed FIP treatment, in July 2023, a woman in China was sentenced to 15 years in prison and fined with more than $5 million in damages for producing and selling fake, substandard products pursuant to China’s criminal law statutes.[24] Gilead also holds the exclusive patents on feline treatments. Facing unclear prospects for legitimate FIP treatment, subsequent statutory amendments need to create actual incentives to spur innovation in animal drugs, in addition to the creation of paths. The law should also create safeguards to promote transparency and fairness in the application review process in order to reduce bias against animal drugs.

Notes

[1] Feline Infectious Peritonitis, Cornell Feline Health Center, https://www.vet.cornell.edu/departments-centers-and-institutes/cornell-feline-health-center/health-information/feline-health-topics/feline-infectious-peritonitis (last visited Oct. 2, 2023).

[2] Id.

[3] B.G. Murphy et al., The Nucleoside Analog GS-441524 Strongly Inhibits Feline Infectious Peritonitis (FIP) Virus in Tissue Culture and Experimental Cat Infection Studies, 219 Veterinary Microbology 226, 226 (2018).

[4] Niels C Pedersen, Efficacy and Safety of the Nucleoside Analog GS-441524 for Treatment of cats with Naturally Occurring Feline Infectious Peritonitis, 21(4) J. of Feline Med. & Surgery 271, 271 (2019).

[5] Human Antiviral ‘GS-441524’ Shows Great Promise Against Infectious Disease in Cats, Science Daily (Feb. 13, 2019), https://www.sciencedaily.com/releases/2019/02/190213100442.htm.

[6] Sarah Zhang, A Much-Hyped COVID-19 Drug Is Almost Identical to a Black-Market Cat Cure, The Atlantic (May 8, 2020), https://www.theatlantic.com/science/archive/2020/05/remdesivir-cats/611341/.

[7] Id.

[8] Kai Kupferschmidt & Jon Cohen, WHO Launches Global Megatrial of the Four Most Promising Coronavirus Treatments, Science (Mar. 22, 2020), https://www.science.org/content/article/who-launches-global-megatrial-four-most-promising-coronavirus-treatments.

[9] E.g., Victoria C. Yan & Florian L. Muller, Advantages of the Parent Nucleoside GS-441524 over Remdesivir for Covid-19 Treatment, 11 ACS Med. Chemistry Letters 1361, 1361 (2020).

[10] See Sarah Zhang, A Much-Hyped COVID-19 Drug Is Almost Identical to a Black-Market Cat Cure, The Atlantic (May 8, 2020), https://www.theatlantic.com/science/archive/2020/05/remdesivir-cats/611341/; see also Sarah Jones et al., Unlicensed GS-441524-Like Antiviral Therapy Can Be Effective for at-Home Treatment of Feline Infectious Peritonitis, 11 Animals 2257, 2258 (2021).

[11] Sarah Jones et al., Unlicensed GS-441524-Like Antiviral Therapy Can Be Effective for at-Home Treatment of Feline Infectious Peritonitis, 11 Animals 2257, 2264–67 (2021).

[12] CHEM:(BRDWIEOJOWJCLU-LTGWCKQJSA-N), WIPO, https://patentscope.wipo.int/search/en/result.jsf?_vid=P22-LN8EIR-06824 (last visited Oct. 2, 2023).

[13] Id.

[14] See World Patent No. 169,946 (filed Mar. 13, 2018); see also U.S. Patent No. 0,296,584 (filed Mar. 13, 2018); see also U.S. Patent No. 0,376,014 (filed Apr. 17, 2020).

[15] See CHEM:(BRDWIEOJOWJCLU-LTGWCKQJSA-N), WIPO, https://patentscope.wipo.int/search/en/result.jsf?_vid=P22-LN8EIR-06824 (last visited Oct. 2, 2023).

[16] 21 U.S.C. § 360b.

[17] From an Idea to the Marketplace: The Journey of an Animal Drug through the Approval Process, FDA (Aug. 14, 2020), https://www.fda.gov/animal-veterinary/animal-health-literacy/idea-marketplace-journey-animal-drug-through-approval-process.

[18] Generic Animal Drug and Patent Term Restoration Act (GADPTRA), FDA (Apr. 24, 2023), https://www.fda.gov/animal-veterinary/guidance-regulations/generic-animal-drug-and-patent-term-restoration-act-gadptra.

[19] Conditional Approval Explained: A Resource for Veterinarians, FDA (Sept. 17, 2020), https://www.fda.gov/animal-veterinary/resources-you/conditional-approval-explained-resource-veterinarians.

[20] 21 U.S.C. § 360ccc (a)(1)(ii).

[21] Feline Infectious Peritonitis, Cornell Feline Health Center, https://www.vet.cornell.edu/departments-centers-and-institutes/cornell-feline-health-center/health-information/feline-health-topics/feline-infectious-peritonitis (last visited Oct. 2, 2023).

[22] Sarah Jones et al., Unlicensed GS-441524-Like Antiviral Therapy Can Be Effective for at-Home Treatment of Feline Infectious Peritonitis, 11 Animals 2257, 2264–67 (2021).

[23] Id.

[24] Wu Shubin (吴淑斌), Zhishou Maoyao Yishen Huoxing 15 Nian: Maoquan “Jiumingyao” de Yinmi Shengyi (制售猫药一审获刑15年:猫圈“救命药” 的隐秘生意) [Sentenced at Trial for 15 Years for Manufacturing and Selling Medicine for Cats: The Secret Business of Life-Saving Drugs in Cat-loving Communities], Sanlian Shenghuo Zhoukan (三联生活周刊) [Sanlian Lifeweek] (July 20, 2023), https://mp.weixin.qq.com/s/VKJO_AIVBy3Hm6GhWUOnWA.


United States v. Caronia After-the-Fact: What Was All That Fuss About, Again?

by Ashley Zborowsky, UMN Law Student, MJLST Notes & Comments Editor

Thumbnail-Ashley-Zborowsky.jpgIn a split decision on December 3, 2012, the Second Circuit issued its long-awaited opinion in U.S. v. Caronia–a case concerning off-label promotion and commercial free speech. The 2011 U.S. Supreme Court holding in Sorrell v. IMS Health acknowledging off-label promotion to be “per se” protected under the First Amendment marked a significant shift in this area of law. Previously, the Food and Drug Administration (FDA) was able to recover billions of dollars in penalties from manufacturers engaged in off-label promotion, or the act of promoting regulated products for uses other than those approved by the agency. Despite other challenges on constitutional grounds, the FDA has been successful at defending its current practice–that is, until recently.

After Sorrell, it was unclear how the Second Circuit would apply this precedent in Caronia. For a robust discussion of the holding in Sorrell and alternate regulatory pathways to mitigate the effects of constitutional challenges to FDA authority, see Rethinking Off-Label Regulation in the Wake of Sorrell v. IMS Health: Can State Involvement Compensate for Waning FDA Authority to Curb Commercial Free Speech? Much to the agency’s chagrin, the Second Circuit found that truthful, non-misleading off-label speech is in fact protected by the First Amendment and therefore cannot be prosecuted under the Federal Food, Drug and Cosmetics Act (FDCA). Although the circuit court opinion is not binding outside of its jurisdiction and is only one early example of how Sorrell will be interpreted by lower courts, the Caronia decision signals potentially diminishing regulatory authority in this realm.

To be sure, the gradual constitutional erosion of its authority to police purported FDCA violations is a viable cause for concern–but is it imminent? Though analysts predicted a more panicked response on behalf of the agency, the FDA has apparently decided not to petition the U.S. Supreme Court for certiorari, stating that the agency “does not believe. . . the Caronia decision will significantly affect [ its] enforcement” of off-label promotion. Because of its limited precedential value and the fact that both Sorrell and Caronia only recognize speech that is truthful and non-misleading as protected, the Second Circuit decision may have very little practical effect. In fact just last month in a related case out of the Ninth Circuit, U.S. v. Harkonen, the court chose to ignore Caronia altogether–asserting that the First Amendment does not protect “fraudulent speech.”

While off-label promotion itself cannot form the basis of an FDCA violation under Caronia, it may still be introduced as evidence of criminal misbranding. As such, it seems that the Caronia uproar could have all been for naught. The FDA’s reaction (or lack thereof) to the Second Circuit’s holding indicates that this is likely true. If nothing else, however, Caronia will surely increase the number of constitutional challenges to FDA enforcement activity, forcing the agency to reexamine its priorities. Thus, while Caronia has the potential for wide-ranging implications down the line, industry stakeholders will just have to wait and see. Although Caronia has done little to alter the regulatory landscape presently, it may only be a matter of time before a circuit split begins to evolve.


United States v. Caronia After-The-Fact: What Was All That Fuss About, Again?

by Ashley Zborowsky, UMN Law Student, MJLST Notes & Comments Editor

Thumbnail-Ashley-Zborowsky.jpgIn a split decision on December 3, 2012, the Second Circuit issued its long-awaited opinion in U.S. v. Caronia–a case concerning off-label promotion and commercial free speech. The 2011 U.S. Supreme Court holding in Sorrell v. IMS Health acknowledging off-label promotion to be “per se” protected under the First Amendment marked a significant shift in this area of law. Previously, the Food and Drug Administration (FDA) was able to recover billions of dollars in penalties from manufacturers engaged in off-label promotion, or the act of promoting regulated products for uses other than those approved by the agency. Despite other challenges on constitutional grounds, the FDA has been successful at defending its current practice–that is, until recently.

After Sorrell, it was unclear how the Second Circuit would apply this precedent in Caronia. For a robust discussion of the holding in Sorrell and alternate regulatory pathways to mitigate the effects of constitutional challenges to FDA authority, see Rethinking Off-Label Regulation in the Wake of Sorrell v. IMS Health: Can State Involvement Compensate for Waning FDA Authority to Curb Commercial Free Speech? Much to the agency’s chagrin, the Second Circuit found that truthful, non-misleading off-label speech is in fact protected by the First Amendment and therefore cannot be prosecuted under the Federal Food, Drug and Cosmetics Act (FDCA). Although the circuit court opinion is not binding outside of its jurisdiction and is only one early example of how Sorrell will be interpreted by lower courts, the Caronia decision signals potentially diminishing regulatory authority in this realm.

To be sure, the gradual constitutional erosion of its authority to police purported FDCA violations is a viable cause for concern–but is it imminent? Though analysts predicted a more panicked response on behalf of the agency, the FDA has apparently decided not to petition the U.S. Supreme Court for certiorari, stating that the agency “does not believe. . . the Caronia decision will significantly affect [ its] enforcement” of off-label promotion. Because of its limited precedential value and the fact that both Sorrell and Caronia only recognize speech that is truthful and non-misleading as protected, the Second Circuit decision may have very little practical effect. In fact just last month in a related case out of the Ninth Circuit, U.S. v. Harkonen, the court chose to ignore Caronia altogether–asserting that the First Amendment does not protect “fraudulent speech.”

While off-label promotion itself cannot form the basis of an FDCA violation under Caronia, it may still be introduced as evidence of criminal misbranding. As such, it seems that the Caronia uproar could have all been for naught. The FDA’s reaction (or lack thereof) to the Second Circuit’s holding indicates that this is likely true. If nothing else, however, Caronia will surely increase the number of constitutional challenges to FDA enforcement activity, forcing the agency to reexamine its priorities. Thus, while Caronia has the potential for wide-ranging implications down the line, industry stakeholders will just have to wait and see. Although Caronia has done little to alter the regulatory landscape presently, it may only be a matter of time before a circuit split begins to evolve.


Reviving GRAS(E): Bringing Reform to the Drug Approval Process

by Maya Suresh, UMN Law Student, MJLST Staff

Thumbnail-Maya-Suresh.jpgBringing new drugs to the market has turned into a time consuming and costly process. Resulting in a process that takes roughly 12 years and 1.2 billion dollars to develop a single new drug and move it through the approval process, the current laws administered by the FDA have the potential to stifle potential economic growth. Current laws and FDA regulations require new drugs to go through three phases of clinical trials focusing on safety, optimal dosage, and effectiveness. It is in the prolonged third phase (where effectiveness is tested through extensive clinical trials) that many manufacturers decide to pull the drug from the program as the clinical trials threaten the firm’s financial viability. Ultimately, it is consumers that are hurt by the process, as they are unable to benefit from the drugs.

The negative effect on consumers is what Emily Puchalski hopes to eliminate with the recommendation detailed in her note published in Issue 14.1 of the Minnesota Journal of Law, Science & Technology. In “Bringing Dormant GRAS(E) to Bloom: Reviving The GRASE Concept for Drugs,” Puchalski suggests that a revival of the Food and Drug Administration’s (FDA) “generally recognized as safe and effective” laws and regulations, commonly reffered to as “GRASE”, could minimize the negative effects on consumers. Many drugs, once discovered, have formulations found in earlier drugs that have already been established as safe for consumer use. The GRASE law is grounded in this understanding, and provides a way for these “already established as safe” drugs to get to the market quicker without having to go through extensive clinical trials.

The problem with GRASE however, is that it is very difficult for a drug to achieve GRASE status. Due to this difficulty, GRASE has fallen out of use as manufacturers have stopped trying to achieve the status. Puchalski suggests that if the FDA were to revive GRASE, it could convince manufacturers to apply for GRASE status, allowing already established safe and effective drugs to come to market more quickly, thus benefiting consumers.

It would appear that Puchalski’s recommendation is being heard. In late February Micropharma Limited was able to obtain GRASE status for their new heart health probiotic. Ryan Jones, CEO of Micropharma Limited, echoed Puchalski when he spoke of the benefits the company has been able to reap with the highly coveted status. GRASE status will allow the company to accelerate development of the drug within both the United States and international markets. Further, it provides strong reputational benefits for the company, as it makes clear to the public that Micropharma is committed to investing a significant amount of time and energy into providing safe and effective drugs to the market.

The ability for Micropharma to obtain GRASE status could serve as evidence of a potentially reformed drug approval process. However, the full benefits realized by consumers and the market will only become clear with time.


510(k) Process Comes Under Renewed Scrutiny by Legislators, Awaiting FDA Response as Proposed Legislation Remains Stagnant

by Ashley Zborowsky, UMN Law Student, MJLST Notes & Comments Editor

Thumbnail-Ashley-Zborowsky.jpg Several months ago, Representative Edward J. Markey (D-Mass.) and Senator Jeff Merkley (D-Ore.) wrote a letter to Jeffrey Shuren, Director of the Center for Devices and Radiological Health (CDRH) at the U.S. Food and Drug Administration, calling for an overhaul of the 510(k) pre-market notification database. The legislators cite reports of defective medical devices cleared via the 510(k) process in recent years, such as the DePuy® artificial hip, that have caused “grievous[] and irrevocabl[e]” harm to patients.

The issue? Most devices subject to premarket review are cleared through FDA’s 510(k) process which provides expedited approval for products that are deemed “substantially equivalent” to an existing predicate device. While the 510(k) process allows patients earlier access to devices, the system is inherently flawed. Referred to as “predicate creep,” the 510(k) process clears generations of devices–none of which have been subject to the exacting scrutiny of pre-market approval (the PMA process). As Markey and Merkley cite in their letter to Shuren, many predicate devices upon which new products rely for 510(k) clearance themselves have been recalled by manufacturers due to “fundamental design flaw[s].”

The legislators asked Shuren and the FDA to retrospectively update the 510(k) database to clearly indicate devices recalled for serious design flaws that could adversely affect safety or effectiveness. The letter also asked FDA, among other things, to develop a mechanism for identifying certain 510(k) entries to “reflect instances where a device’s clearance traces back to a predicate recalled for a serious design flaw adversely impacting its safety, even if the original problematic device is not the immediate predicate.” For additional in-depth discussion of issues surrounding the existing 510(k) process and substantial equivalence, including product liability considerations see “Rethinking Lohr: Does ‘SE’ Mean Safe and Effective, Substantially Equivalent, or Both?

After the Institute of Medicine released its highly controversial report on the current 510(k) process last year (stating that the process is flawed and recommending a new pre- and post-market regulatory framework to provide a reasonable assurance of safety and efficacy), the issue of device safety has been omnipresent in policy debates surrounding related concerns of access and innovation. For a critique of the IOM report and a summary of its findings, see “A Failure to Comply: An Initial Assessment of Gaps in IM’s Medical Device Study Committee” and “Left to Their Own Devices: IOM’s Medical Device Committee’s Failure to Comply.” In January, Representative Markey and others introduced H.R. 3847, coined The SOUND Devices (Safety of Untested and New Devices) Act of 2012. The bill proposes to amend the Federal Food, Drug and Cosmetic Act to allow the FDA to reject a claim of substantial equivalence for a device whose predicate has been “recalled, corrected or removed from the market because of an intrinsic flaw in technology or design that adversely affects safety . . . .” in light of these concerns.

In testimony given to the House Committee on Energy and Commerce on device user fees back in February, Shuren discussed strategic priorities for the 510(k) process, including developing methods and procedures for the systematic analysis and use of medical device recall information by September 30, 2012. However, now that the Medical Device User Fee Amendments (MDUFA III) have been enacted, reauthorizing device user fees through fiscal year 2017, perhaps the FDA and CRDH will finally be able to make progress in revamping the 510(k) system. As Shuren noted in his testimony, “[w]hile it is true that providing more user fee resources alone won’t solve the problems with our premarket programs, insufficient funding is at the root of, or a contributing factor to, several of these problems. Adequate and stable funding is one key component to our and industry’s success in bringing safe and effective devices to market quickly and efficiently.”

Currently, the 510(k) process remains unchanged. Though legislators requested an official response no later than September 19, 2012, the FDA and Shuren have yet to release a statement (at least publicly) regarding these concerns. Additionally, it is unclear whether CDRH has made any headway in meeting its target goals. As we approach the end of 2012, 510(k) still leaves much to be desired–the highly anticipated changes to the pre-market clearance process are provisional at best. It seems as though Markey isn’t having much luck in Congress either. H.R. 3847 is awaiting approval from the House Committee on Energy and Commerce (and has been since shortly after its introduction). According to GovTrack.us, an online bill tracking website, the bill has only an estimated three percent change of being enacted.


Food Label Regulations Fall Short

by Bobbi Leal, UMN Law Student, MJLST Articles Editor

Thumbnail-Bobbi-Leal-ii.jpgA recent study, published in Agricultural Economics, found that the average body mass index for consumers that read nutrition labels is lower than those that do not read the labels. This finding implies that understanding and utilizing food and nutrition labels provides consumers with the information needed to make informed decisions about what they eat. However, a recent article by J.C. Horvath published in the Minnesota Journal of Law, Science & Technology, “How Can Better Food Labels Contribute to True Choice?” makes evident that food labeling has a long way to go before it truly gives consumers the information necessary to make informed decisions.

Food label regulations, outlined by the Food and Drug Administration, have a number of flaws. The FDA has declined to define strict standards for use of the food label “all-natural,” claiming that the term is too nebulous to be strictly defined and standardized across the entire food industry. Undoubtedly, consumers assume that a food labeled as “all-natural” has not been chemically processed or structurally altered from its natural state. Unfortunately, this is not the case. The FDA has a vague policy which defines the term “natural,” to mean “nothing artificial or synthetic…is included in, or has been added to, the product that would not normally be expected to be there.” According to the Wall Street Journal, some ingredients that have been labeled as “all-natural” include high fructose corn syrup, genetically modified plants, and sodium benzoate.

Similarly, the approved use of certain terms, such as “artificial flavor,” “natural flavor,” and “artificial coloring” often hide significant details about the nature of the food. These three phrases can stand in for over 3900 food additives that come from a wide range of sources, giving the consumer no real notice of the substance or origin of the “flavor” or “coloring.” For example, beef tallow, gelatin, and lard can all be covered by these three phrases. Even the requirements for listing allergens is incomplete, as the FDA only requires that eight of the known allergic-reaction-inducing ingredients be explicitly listed: milk, eggs, fish, Crustacean shellfish, tree nuts, peanuts, wheat, and soybeans.

This recent study concerning the use of nutrition labels makes clear that when consumers read and understand food labels, they can make better choices for their health. In order for this to occur, however, it is imperative that the food labels which consumers rely upon are transparent and accurate. Food label regulations have not yet accomplished this objective.