DTC Tests Face Scrutiny at FDA, by GAO, and Congress

Last week produced a flurry of activity at the FDA and before Congress relating to regulation of field of DTC genetic tests. Here is a summary:

At the FDA:

The FDA sent out additional letters to fourteen more DTC companies, stating that the companies’ respective tests constitute in vitro diagnostic devices subject to FDA regulation. These letters mirror the original letters sent out in June to 23andMe, Navigenics, deCODE Genetics, Knome and Illumina, which we discussed here and here.

On July 19-20, the FDA convened its Public Meeting on the Oversight of Laboratory Developed Tests to discuss the history and current regulatory status of LDTs and status of DTC genetic tests. The meeting was divided into four sessions to address:

• patient and clinical considerations;
• clinical laboratory challenges;
• concerns, benefits, and risks of DTC testing; and
• education and outreach so laboratories can comply with regulations and physicians are enabled use the genetic information provided in these tests

GAO Report:

On July 22, the Government Accountability Office released its report Direct-To-Consumer Genetic Tests: Misleading Test Results Are Further Complicated by Deceptive Marketing and Other Questionable Practices and offered it as testimony during the hearing before the Subcommittee on Oversight and Investigations, Committee on Energy and Commerce in the House of Representatives.

The GAO posed as consumers and sent DNA samples from five people to four selected companies. It also examined a sample if fifteen companies’ advertising and marketing practices.
This report revealed numerous appalling flaws related to selected DTC test’s accuracy, company follow up with consumers, and consumer privacy protections. The report found the following five problems:

(1) each donor’s factual profile received disease risk predictions that varied across all four companies, indicating that identical DNA can yield contradictory results depending solely on the company it was sent to for analysis;

(2) these risk predictions often conflicted with the donors’ factual illnesses and family medical histories;

(3) none of the companies could provide the donors who submitted fictitious African American and Asian profiles with complete test results for their ethnicity but did not explicitly disclose this limitation prior to purchase;

(4) one company provided donors with reports that showed conflicting predictions for the same DNA and profile, but did not explain how to interpret these different results; and

(5) follow-up consultations offered by three of the companies provided only general information and not the expert advice the companies promised to provide.

Varied risk prediction from each company grossly undermines each company’s claim of superiority and accuracy, weakening the reliability of the test results. For example, a male “consumer,” age 48, received three different results about his risk for hypertension. One company claimed he had a below average risk of developing hypertension, a second company stated his risk was average, and a third company noted his risk was above average. Accordingly, if a real consumer would integrate this information to make lifestyles changes as advocate by one of the companies, he may be incentivized toward undesirable health behaviors based on a mistaken belief of lower risk.

A widely circulated YouTube video documented some companies’ dangerous blurring of risk and diagnosis during follow up with company representatives. Here is one example:

Fictitious consumer: “So if I’m high risk, does that mean I’ll definitely get breast cancer?”

Company representative: “You…you’d be in the high risk of, you know, pretty much getting it.”

The GAO classified this exchange as “horrifying” and “disconcerting.” It leads me to wonder how many real consumers received similar devastating and incorrect information when they attempted to follow up their own test results? How many went to their physicians with these results and remained unconvinced when the physicians attempted to reassure them? In the near future, these companies should brace themselves for the legal backlash that is sure to follow from consumers who experienced such troubling exchanges and may vent their anxiety and frustration in the form of legal complaints alleging negligence and emotional damages.

Before Congress

During the hearing on the Hill, Rep. Griffith echoed this cautious sentiment, suggesting when confronted with alarming genetic risk information, consumers are likely to panic first and ask questions later. The Genomics Law Report provides a summary of the hearing here.

Despite GAO’s conclusion that DTC companies provide results that are “ambiguous and misleading,” Rep. Burgess and Rep. Waxman voiced their disfavor of overly intrusive regulation and advocated for a system that would still allow consumers to access their personal genetic information.

However, the GAO report illustrates precisely why the model for these tests will continue to encounter problems without the guidance of a physician as gatekeeper and interpreter. In another exchange recorded on the YouTube video, a company representative tells one “consumer” he can eventually stop taking his prescription medicine for high cholesterol if he purchases and uses the company’s pricey vitamin supplements. Advice connecting risk to behavior and medication changes should require a visit to a healthcare provider, not a phone call to a faceless company representative with uncertain credentials.

Even if a company’s test is accurate and it ceases to disseminate misleading advice about the power of its supplements, consumers still want (and need) additional information and advice from healthcare professionals to interpret and act on the test results they receive.

-Katherine Drabiak-Syed

Berkeley Scheduled to Move Forward with Freshmen DNA Testing

Yesterday, Berkeley’s student newspaper The Daily Californian published on op-ed questioning Berkeley’s decision to move forward with its experiment designed collect DNA from consenting incoming freshman. The “Bring Your Genes to Cal” experiment originally made headlines over a month ago, when the New York Times and other major newspapers described the program and the corresponding polarized responses. In a few weeks, Berkeley is scheduled to send out information packets, informed consent forms, and buccal swab kits to the incoming freshman class to test for genetic variation related to their ability to process lactose, metabolize alcohol, and examine their levels of folic acid.

Mark Schlissel, MD, PhD, Professor of Immunology and Dean of Biological Sciences at Berkeley views the program as a lesson of how genetics and personalized medicine will impact students’ lives in the future. “We wanted to give students a sense of what’s coming, through genes that can provide them with useful information. I think it’s one of the best things we’ve done in years,” said Schlissel to the New York Times. Schlissel described how the campus will hold seminars and forums in the fall to discuss the significance of personal genetic information.

Despite Schlissel’s enthusiasm, the program is not without criticism. Jesse Reynolds, a policy analyst at the Center for Genetics and Society, acknowledged that educating incoming students on new genetic technologies can indeed constitute an important teachable experience, but raised several cautionary notes. First, Reynolds questioned whether students will freely consent to the test or whether they will feel subtle social pressure to submit a DNA sample. Second, and importantly, Reynolds asserted that by suggesting freshmen’s participation in this experiment, Berkeley is legitimizing or promoting the direct-to-consumer genetic testing industry.

As recent Berkeley alumnae Jillian Theil pointed out in her op-ed on Monday, the scientific validity of these tests when they are offered by direct-to-consumer (DTC) companies is still unknown. Earlier this month, the FDA stepped forward to assert that tests offered by companies such as 23andme and Navigenics are in fact invitro devices and fall under FDA review. But until the FDA and the companies offering DTC genetic tests work through the regulatory process, the current DTC genetic tests’ analytical and clinical validity remains uncertain.

Problematically, students will not fully learn about the complexities of federal regulation, genetic information, and how to contextually interpret it until after they receive their results during the fall discussion sessions on campus. Contrary to Schlissel’s categorization of these variants as innocuous information, bioethicist George Annas argued that a college student’s genetic variant relating to alcohol metabolism is far from harmless. “What if someone tests negative, and they don’t have the marker, so they think that means they can drink more? Like all genetic information, it’s potentially harmful,” asserted Annas in the New York Times.

Theil’s title hit the mark: proceed with caution, indeed. Students should know that similar tests offered in the marketplace are in the middle of potentially sweeping regulatory changes. Even if Berkeley’s tests are accurate, as Annas noted, students should interpret their genetic information carefully (should they choose to participate) and forgo basing any lifestyle decisions on their results.

--Katherine Drabiak-Syed

In the Literature: Predictive Health 2.0

The recent double issue of The American Journal of Bioethics (Vol 9 6&7) includes two target articles (followed by open peer commentaries) on the ethical issues of direct-to-consumer (DTC) genomics and social networking.

The issue opens with an editorial by 23&Me's Andro R. Hsu, Joanna L. Mountain, Anne Wojcicki, and Linda Avey: "A pragmatic consideration of ethical issues relating to personal genomics." The editorial offers five points of discussion that the authors find relevant to the discussion of the ethical issues. Facebook users might be surprised to discover that the service is offered as an example of innovative data sharing policies; see point five: "A single data sharing policy cannot fit the needs of all".

The first "target article" reports the result of an attitudes survey about DTC; see: McGuire AL, Diaz CM, Wang T, Hilsenbeck SG. Social networkers' attitudes toward direct-to-consumer personal genome testing. Although the title suggests that "social networkers" are a focus of the article, in reality they are a convenient (or experimental?) survey population--the authors used Zoomerang and Facebook to reach the 1,080 respondents. Of the respondents, 47% reported a pre-existing knowledge of DTC genomics companies like 23&Me, Navigencs, and deCODEme; 6% reported having used one of these services and 64% reported a willingness to use one of the services in the future.

The second "target article" focuses on where all this might be leading; see: Lee SS, Crawley L. Research 2.0: social networking and direct-to-consumer (DTC) genomics. In addition to proposing that social network analysis could be used to explore the impact of these DTC genomics ventures on research, data sharing, and subject recruitment, the authors also ask: "What are the ethical and social implications of new social formations created through the sharing of personal genomic information?" In other words, how will the convergence of Web 2.0 and personal genomic information (PGI) change our social structures?

Commentaries on these articles include a few authored by friends of the PredictER program; see, for example:

Esposito K, Goodman K. Genethics 2.0: phenotypes, genotypes, and the challenge of databases generated by personal genome testing. pp. 19-21.

Caulfield T. Direct-to-consumer genetics and health policy: a worst-case scenario? pp. 48-50.

Other articles and publications of interest:

Genetic privacy and piracy. Nat Cell Biol. 2009 May;11(5):509. PubMed PMID:19404329.
Avard D, Silverstein T, Sillon G, Joly Y. Researchers' perceptions of the ethical implications of pharmacogenomics research with children. Public Health Genomics. 2009;12(3):191-201. PMID: 19204423.

Bombard Y, Veenstra G, Friedman JM, Creighton S, Currie L, Paulsen JS, Bottorff JL, Hayden MR; Canadian Respond-HD Collaborative Research Group. Perceptions of genetic discrimination among people at risk for Huntington's disease: a cross sectional survey. BMJ. 2009 Jun 9;338:b2175. PMID: 19509425.

Borry P, Howard HC, Sénécal K, Avard D. Health-related direct-to-consumer genetic testing: a review of companies' policies with regard to genetic testing in minors. Fam Cancer. 2009 Jun 2. PMID: 19488835.

Dokholyan RS, Muhlbaier LH, Falletta JM, Jacobs JP, Shahian D, Haan CK, Peterson ED. Regulatory and ethical considerations for linking clinical and administrative databases. Am Heart J. 2009 Jun;157(6):971-82. PMID: 19464406.

Forsberg JS, Hansson MG, Eriksson S. Changing perspectives in biobank research: from individual rights to concerns about public health regarding the return of results. Eur J Hum Genet. 2009 May 27. PMID: 19471310.

Goddard KA, Duquette D, Zlot A, Johnson J, Annis-Emeott A, Lee PW, Bland MP, Edwards KL, Oehlke K, Giles RT, Rafferty A, Cook ML, Khoury MJ. Public awareness and use of direct-to-consumer genetic tests: results from 3 state population-based surveys, 2006. Am J Public Health. 2009 Mar;99(3):442-5. PMID: 19106425.

Henrikson NB, Bowen D, Burke W. Does genomic risk information motivate people to change their behavior? Genome Med. 2009 Apr 2;1(4):37. PMID: 19341508.

Maliapen M. Clinical genomics data use: protecting patients privacy rights. Studies in Ethics, Law, and Technology. 2009;3(1):Article 1. Available at: http://www.bepress.com/selt/vol3/iss1/art1

Manion FJ, Robbins RJ, Weems WA, Crowley RS. Security and privacy requirements for a multi-institutional cancer research data grid: an interview-based study. BMC Med Inform Decis Mak. 2009 Jun 15;9(1):31. PMID: 19527521.

Mascalzoni D, Hicks A, Pramstaller PP. Consenting in population genomics as an open communication process. Studies in Ethics, Law, and Technology. 2009;3(1):Article 2. Available at: http://www.bepress.com/selt/vol3/iss1/art2

Rogowski WH, Grosse SD, Khoury MJ. Challenges of translating genetic tests into clinical and public health practice. Nat Rev Genet. 2009 Jun 9. PMID: 19506575.

Wilkinson RH. The single equality bill: a missed opportunity to legislate on genetic discrimination? Studies in Ethics, Law, and Technology. 2009;3(1):Article 3. Available at: http://www.bepress.com/selt/vol3/iss1/art3

Navigenics Enters Personal Genomics Game ... Meanwhile: "What's a SNP?"

On April 8th, Navigenics announced it will provide genomic testing services to the general public, yet, creating additional competition among other genetic health startup companies such as deCODEme and 23andMe. These businesses are drawing attention by allowing ordinary people to see their genetic makeup and by providing services to help understand their risk for common conditions.

For an initial fee of $2500, Navigenics’ personalized medicine package includes genotyping for 18 listed medical conditions such as Alzheimer’s disease, glaucoma, colon cancer, lupus, breast cancer, prostate cancer, and Crohn’s disease. Saliva, instead of blood, is collected for the genome scan as a less invasive and less hazardous approach. Within three weeks, Navigenics promises to deliver your risk assessment report electronically and provides genetic counseling over the telephone to educate customers on their genetic predispositions and to encourage them to take preventive measures.

The personal genomics industry is growing and potential consumers have choices. For example, 23andMe lets customers see their entire genetic profile of more than 500,000 single nucleotide polymorphisms (SNPs) while Navigenics limits customers to 18 selected conditions, even though it uses a 1 million SNP chip. On the other hand, Navigenics promises the customer access to future technology for an annual fee of $250. Customers’ spit samples are frozen, stored, and re-tested as new associations with SNPs are found.

Hoping to set industry standards, Navigenics proposed 10 criteria for performance, quality, and service for personal genomic services:

1. Validity
2. Accuracy and quality
3. Clinical relevance
4. Actionability
5. Access to genetic counseling
6. Security and Privacy
7. Ownership of genetic information
8. Physician education and engagement
9. Transparency
10. Measurement

With the evolution of personalized medicine and genetic profiling, consumers have more information in their hands. New research initiatives are on the move to understand how consumers act upon this information (i.e. ignore health risks or needlessly worry about slight risks). Navigenics has plans to support future health outcome studies and has recently joined forces with the Mayo Clinic to measure the impact genetic information has on behaviors.

It will be interesting to see whether The Personalized Medicine Coalition adopts or modifies Navigenics standards. Also interesting will be the response from the medical community to risk assessment reports generated by personal genomic businesses such as Navigenics, 23andMe, and deCODEme.

What could be better than knowing your own DNA? This genomic revolution sounds almost too good to be true. Dr. Eric Topol, cardiologist at the Scripps Clinic (ironically a collaborator with Navigenics), listed his comments (December 2007) in an editorial for The Wall Street Journal. Topol presumes it is too soon to tell whether having your genome scanned can be good for your health because there are so many unidentified genes associated with disease risk. He also wonders, as do I, how personal genomics will impact the medical community. His example . . . "When a consumer arrives in his or her doctor’s office to get help in interpreting the genomic data, the doctor is likely to respond: What’s a SNP?" – Katie Carr

[Katie Carr is a graduate student in public health at Indiana University-Purdue University, Indianapolis (IUPUI). In addition to taking classes in bioethics at the IU Center for Bioethics, Katie is working with us to develop an ethical plan for pandemic influenza response.]

Genealogy, Genetic Medicine and Getting the Story Straight

What is the promise of personalized medicine and predictive health? Here's a rough description: physicians will know more about individual patients and will therefore be better equipped to provide care. But will it be so simple? In any field, the acquisition of more information, even accurate information, does not necessarily lead to successful application. So, let's say we all buy a test from 23andMe or deCode or Navigenics or any of the growing list of direct-to-consumer genomics company ... and we unpack every last bit and byte of our genetic data, will the world be a healthier place? Or, let's say, just a few of us fork over the $1000 to have our genomic fortunes told … are we really ready for the complications that this information may bring?

If the practice of genetic genealogy is any indication, the future of medicine in the genomic era will be suffused with complications. Nancy Berlinger, of Bioethics Forum, provides an engaging and insightful account of a few of these in "And I am Marie of Romania: Genetics, Genealogy, and the Ethics of Storytelling". Berlinger adds to the ongoing commentary on the new Henry Louis Gates, Jr. venture, AfricanDNA. Gates started this venture, in part, because of frustrations with inaccurate and misleading genetic genealogy results. As Berlinger writes, the misinterpretation (that Gates possesses a genetic link to those once living in the ancient North African kingdom of Nubia, and not, as it turns out, to a less impressive European "servant" in the American colonies) might have been the result of poor science, but also, might be attributed to "wish fulfillment on the part of geneticists and their clients".

To the Gates story, Berlinger contributes related accounts of individuals receiving, accurate, but potentially unwelcome, genealogical information. While America still struggles with its racist inheritance, individuals like Bliss Broyard struggle with new found genealogical information (see her new memoir, One Drop: My Father’s Hidden Life — A Story of Race and Family Secrets). Every one has family secrets--information we are not privy to at the moment--and (as Matt Mealiffe reminds us in Who's Your Daddy?) there's no reason to believe that all or even most of these secrets are about race. Clearly, genetic genealogy (as Blaine Bettinger often notes) is no simple task--will personalized, genetic medicine be any easier? Who will hold and who will expose the secrets in your genome? Is it possible, just maybe, that a one or two of the most enthusiastic, early adopters of personalized medicine will discover a few things they'll wish they'd never known? - J.O.

Get Your Genetic Test Results Online and Who Needs a Physician?

Ron Winslow’s “Is there a Heart Attack in Your Future?” published in last week's The Wall Street Journal recently introduced the public to Navigenics, Inc., a California based corporation offering direct to consumer genetic testing services. For $2,500, a customer may order a kit to collect a saliva sample to send to Affymetrix, Inc., which uses a SNP sorting chip and returns results to Navigenics. With a username and a password, customers may then view the results of their genetic predisposition to twenty genetic diseases and compare their risks to those of the generalized population. The fee includes telephone consultations with a genetic counselor and one year of updates on new SNP disease validations.

Navigenics professes a dedication to presenting “complex scientific and medical information to you in an easy-to-understand format.” Yet the very nature of evaluating disease risk based on a single SNP is inherently complicated. Disease risk must be interpreted in the context of an individual’s complete genetic sequence in addition to environmental factors. These limitations may frustrate consumers expecting immediate and definitive results from this online service.

Several critics of direct to consumer genetic tests (DTC), including David P. Hamilton of VentureBeat, have pejoratively referred to the process as “corporate genomics.” By selling these DTC genetic tests and services as merely another online product, these companies by-pass the physician-patient relationship and do not benefit from this traditional way of assessing the importance personal genetic and medical information. Navigenics’ co-founder and chief scientific officer Dietrich Stephan noted that eliminating this relationship may minimize individuals' concerns about breaches of patient confidentiality and the loss of genetic privacy. Responding to a deficiency of legal protection for the privacy of genetic information by attempting to circumvent recording and communicating that information with one’s physician constitutes a logically faulty solution and could lead to even more adverse effects to members of the public. Lay understanding of these tests may lead to over-inclusive or under-inclusive interpretation of the results, which (in both instances) potentially leaves the individual confused and isolated. Based on a (mis)understanding of their personal results, Individuals may be less likely to seek face-to-face treatment from their physicians and genetic counselors. Other individuals, burdened by an unnecessary anxiety, will increase their visits to primary care physicians and thereby exacerbate the inequitable allocation of health care--patients with more pressing medical needs may wait longer and pay more for treatment.

A survey published earlier this year by the Genetics and Public Policy Center (download the PDF) shows that some state legislatures have attempted to address the complexity of DTC genetic tests by placing restrictions on whether the state will allow consumers to circumvent physicians in the receipt of information about their genetic predisposition to disease. As Steve Murphy, of The Gene Sherpa, recently noted, several state laws explicitly prohibit DTC testing, or require an individual’s consent to perform each individual genetic test and a separate consent to retain the individual’s genetic sample. These extensive statutory requirements for separate consent reflect the principle that individuals should fully understand the limitations and implications of each genetic test- preferably through in-person interaction. This purchase has inordinately more significance than most other online transactions, and the law is designed to reflect this difference. What is the benefit of more genetic information, if patients lack the training to interpret its significance? And what will be the personal, legal and social consequences of evading of current informed consent requirements? -- Katherine Drabiak