Machine Learning and Digital Health Applications By Suzanne Bell and Sean Withall
The use of artificial intelligence (AI) algorithms to solve complex problems has risen dramatically in the last several years. In 2017, Gartner identified more than 1,000 application and platform vendors claiming to offer some form of AI in their products.1 Start-ups and established companies in nearly every industry have driven this growth by finding creative ways to apply machine learning, a technique that involves using large data sets to train algorithms to assist with tasks that—until recently were exclusively performed by humans. Applications of machine learning hold particular promise for businesses that sell digital health devices and software, as well as for healthcare providers and health insurance companies. For example, digital health companies can use machine learning algorithms to spot early signs of diabetes using data collected from an Apple Watch,2 help fitness bands learn a wearer’s exercise routine,3 and detect mental illness using data gathered from social media accounts4 and peoples’ interactions with their smartphones.5 Healthcare providers have also developed machine learning algorithms to spot the early signs of cognitive decline that show up in MRI scans6 and classify cancers using photographs.7 Health insurance companies can deploy algorithms that make more accurate actuarial assumptions, offer health suggestions tailored to a person’s top risk factors,8 and root out fraudulent insurance claims9 using data from sources like social networking sites and marketing databases. Companies train these algorithms by feeding them large amounts of data, which enables the algorithms to analyze new inputs. A machine learning algorithm’s performance is only as good as the data it is trained on, so its developer needs access to large, high-quality data sets. Identifying the right data set is only half the challenge, however. Companies that want to use data for machine learning purposes must also be sure they have secured the rights necessary to train an algorithm with that data. At a minimum, this means thinking through the following four questions:
Machine learning algorithms—and by extension, the companies that rely upon them—live and die by the availability of good-quality training data. It can be tricky to secure the rights needed to use this data, and companies that take a disciplined approach to data harvesting, use, and licensing stand to avoid costly legal claims for damages or injunctions based on unauthorized use of data. 1 See Gartner’s press release: https://www.gartner.com/newsroom/id/3763265. 2 See Wired’s description of the DeepHeart algorithm: https://www.wired.com/story/with-ai-your-apple-watch-could-flag-signs-of-diabetes/. 3 See Wearable’s description of the Atlas Wearables fitness band: https://www.wareable.com/wear-able-tech/machine-learning-wearable-data-sensors-2015. 4 See the efforts by Facebook, Apple and Google described in the Nature article “AI algorithms to prevent suicide gain traction”: https://www.nature.com/articles/d41586-017-08307-0. 5 See Mindstrong’s use of machine learning to evaluate cognitive function using smartphone data described in the Nature article “Former US mental-health chief leaves Google for start-up”: https://www.nature.com/ news/former-us-mental-health-chief-leaves-google-for-start-up-1.21976. 6 See the application of deep-learning techniques to MRI brain scans: https://www.technologyreview.com/s/603112/deep-learning-machine-uses-mri-scans-to-determine-your-brain-age. 7 See Section 2.1.2 of the Artificial Intelligence for Health and Health Care study published by the JASON advisory group at The MITRE Corporation: https://www.healthit.gov/sites/default/files/jsr-17-task-002_aifor-healthandhealthcare12122017.pdf. 8 See The Actuary Magazine’s discussion of predictive analytics and insurance products: http://www.theac-tuarymagazine.org/recipes-next-generation-analytics. 9 See Shift Technology’s use of artificial intelligence to detect fraudulent insurance claims: https://www.shift-technology.com. 10 See Section 3.2 of Facebook’s Terms of Service: https://www.facebook.com/terms.php. 11 See Section 4 of Twitter’s Terms of Service: https://twitter.com/en/tos. 12 See the section titled “Using our Services”: https://www.google.com/policies/terms. Patent-Eligible Subject Matter in Digital Health By Jackie Stroncek Consider this: you have a new machine learning algorithm for processing genetic data and want to obtain a patent. You file a patent application with the United States Patent and Trademark Office (USPTO). The USPTO then informs you that, under the Alice/Mayo framework, your invention is not of the right subject matter for which a patent may be granted. In the past five years, the interpretation of the Alice/Mayo framework at the USPTO has presented a new hurdle for obtaining patents, particularly for inventions of algorithms and software in the digital health space, including bioinformatics. Understanding the basics of the current patentable subject matter doctrine and how it may be construed by the USPTO is essential for productive patent prosecution in these fields. What is patentable subject matter? The complexity of interpreting what is or is not patentable subject matter stems from determining whether a claimed invention merely involves versus monopolizes a judicial exception. Courts have not provided definitions for each judicial exception. For guidance, patentees must rely on courts’ distinctions between inventions that have been found to be patent-eligible and those that have been found to be patent-ineligible. The Alice/Mayo framework is currently used to guide distinctions between patentable subject matter and non-patentable subject matter. This framework is applied after establishing that a claim is to a process, machine, manufacture, or composition of matter (Fig. 1, Step 1). Once established, then the two-step Alice/Mayo analysis is applied (Fig. 1, Step 2A-B). First, the USPTO determines whether the claims are directed to a judicial exception. If the claim is not directed to a judicial exception, then the claim is patent-eligible. If, however, the claim is directed to a judicial exception, then the second step applies. In the second step, the claim is analyzed to determine whether it recites significantly more than a judicial exception itself. Determining whether a claim is directed to a judicial exception or recites significantly more requires comparing the claimed subject matter to other inventions that the courts have determined recite patent-eligible (or patent-ineligible) subject matter. Fig. 1 illustrates pathways to subject matter eligibility. First, whether the claim meets the threshold requirements of section 101 is determined. Then, the Alice/Mayo framework is applied in Step 2A and Step 2B. Adapted from Manual of Patent Examining Procedure (MPEP) 2106, Patent Subject Matter Eligibility. Relevance to Digital Health Software In responding to these rejections, software-related case law and USPTO guidance are frequently the most factually relevant and persuasive authorities to show that a claimed invention is patent-eligible. For instance, the patent-eligible claims of McRO v. Bandai Games4 can be closely analogized to software method claims. In McRO, the claims-at-issue recited a method of computer animation with specific rules for lip synchronization and facial expression. The rules improved upon the existing technological processes, were necessarily implemented on a computer, and were specific enough to avoid preemption. In applying McRO to software claims, parallels can be drawn between the structure of the McRO claims and a claimed software invention, which may similarly recite specific rules that present technological improvements, be necessarily implemented on a computer, and be specific enough to avoid preemption. How to Address Challenges in Patent Prosecution
During prosecution, ongoing discussions with the USPTO may provide valuable insights on how an application might progress to allowance:
1 35. U.S.C. § 101 (“Whoever invents or discovers any new and useful process, machine, manufacture, or composition of matter, or any new and useful improvement thereof, may obtain a patent therefor, subject to the conditions and requirements of this title.”) 2 Mayo Collaborative Servs. v. Prometheus Labs., Inc., 566 U.S. 66, 71 (2012) (“‘Phenomena of nature, though just discovered, mental processes, and abstract intellectual concepts are not patentable, as they are the basic tools of scientific and technological work.’ Gottschalk v. Benson, 409 U. S. 63, 67 (1972). And monopolization of those tools through the grant of a patent might tend to impede innovation more than it would tend to promote it.”); O’Reilly v. Morse, 15 How. 62 (1854). 3 Alice Corp. Pty. Ltd. v. CLS Bank Int'l, 110 USPQ2d 1976, 1980-81 (2014). 4 McRO, Inc. v. Bandai Namco Games Am. Inc., 837 F.3d 1299 (Fed. Cir. 2016) Utilizing Inventive Concept to Overcome Patentable Subject Matter Challenges By Josh Mack and Doug Carsten Digital health companies are more and more reliant on patents to protect their diagnostic testing and computer-based inventions. However, since the Supreme Court’s landmark decision in Mayo Collaborative Servs. v. Prometheus Labs., Inc.,1 the patentability of such inventions has been a considerable area of confusion and concern for digital health companies. Recent decisions by the Federal Circuit on patentable subject matter have provided guidance digital health companies can use to help protect these inventions from invalidation in future litigations. Mainly, the Federal Circuit has held that whether or not a claim contains an inventive concept is a factual issue, which needs to be resolved by a jury at trial. Therefore, it is important for digital health companies to include an inventive concept in the patent specification and claims during patent prosecution. And during litigation, digital health companies should have an early understanding of the inventive concept captured by the claims, and find the best expert possible to support these arguments. Such strategies should increase the likelihood that diagnostic and computer-related patents survive legal challenges during litigation. Patentable Subject Matter Congress has codified patentable subject matter in 35 U.S.C Section 101, which provides that patentable subject matter includes “any new and useful process, machine, manufacture, or composition of matter, or any new and useful improvement thereof . . . .” The Supreme Court has identified three categories of inventions that are not eligible for patent protection: laws of nature, physical phenomena, and abstract ideas.2 Whether or not an invention contains patentable subject matter is a two-step process that distinguishes “patents that claim laws of nature, natural phenomena, and abstract ideas from those that claim patent eligible applications of those concepts.”3 In the first step, the court “determine[s] whether the claims at issue are directed to one of those patent-ineligible concepts.”4 If the patent claims are directed to a patent-ineligible concept, the court turns to step two—the search for an inventive concept—i.e., an element or combination of elements that is ‘sufficient to ensure that the patent in practice amounts to significantly more than a patent upon the [ineligible concept] itself.’”5 In searching for an inventive concept, the court “consider[s] the elements of each claim both individually and ‘as an ordered combination’ to determine whether the additional elements ‘transform the nature of the claim’ into a patent-eligible application.”6 This patentable subject matter standard, which was first articulated by the Supreme Court in 2012, has led to the invalidation and rejection of a large number of diagnostic and computer-based patents on the grounds that the claims are not patent-eligible as a matter of law.7 Until recently, it was thought that a jury could have no role in determining whether or not a patent claimed patent-eligible subject matter.8 Yet, in 2018 the Federal Circuit has shown that a jury can have a role in this determination. The Federal Circuit Provides Guidance on Inventive Concept Recent Federal Circuit decisions have shown that patent eligibility can be a question of fact, surviving purely legal challenges during litigation, when the patent specification and claims include an inventive concept.9 Accordingly, a jury, rather than court, can decide whether or not a diagnostic and computer-based patent claims patent-eligible subject matter. This development in the case law could improve the chances that these patents survive pre-trial legal challenges that have invalidated many of these types of patents. In Berkheimer v. Hewlett-Packard Co., the district court invalidated a patent directed to digitally processing and archiving files on summary judgment because the court found that the claims were not directed to patent-eligible subject matter.10 While the Federal Circuit agreed with the district court that the claims were directed to non-patentable subject matter, the Federal Circuit found that there was a factual dispute as to whether the patent claimed an inventive concept. The Federal Circuit reasoned that because the patent specification described an inventive feature that eliminated redundancies and improved efficiency, and certain claims captured that feature, whether or not these claims “perform well-understood, routine, and conventional activities to a skilled artisan is a genuine issue of material fact making summary judgment inappropriate with respect to these claims.”11 Accordingly, the Federal Circuit remanded these claims back to the district court for trial. Strategically Using Inventive Concept in Patent Prosecution and Litigation The Berkheimer case shows that patent claims directed to diagnostic and computer-based inventions can survive patentable subject matter legal challenges and reach a jury if the “inventive concept” of the invention is described in the specification and captured by the claims. As a result, whether or not these inventions claim patentable subject matter becomes a battle of the experts, and the jury will decide whether the claims include an inventive concept or merely “perform well-understood, routine, and conventional activities.” During the patent drafting process, digital health companies can improve the chances that their patents survive patentable subject matter challenges by making sure the inventive concept of the invention is clearly articulated in the patent specification and captured by the claims. During litigation, the jury’s decision on patentable subject matter may come down to which expert the jury finds more credible and believable. So the choice of expert and litigation counsel could be the key factors in determining whether or not a company’s patent is invalidated. 2 See, e.g., Mayo Collaborative Servs. v. Prometheus Labs., Inc., 132 S. Ct. 1289, 1297 (2012) (“If a law of nature is not patentable, then neither is a process reciting a law of nature, unless that process has additional features that provide practical assurance that the process is more than a drafting effort designed to monopolize the law of nature itself.”); See also Ass'n for Molecular Pathology v. Myriad Genetics, Inc., 133 S. Ct. 2107, 2109-10, 2116 (2013) (holding the isolation of important and useful genes unpatentable); Alice Corp. Pty. Ltd. v. CLS Bank Int’l, 134 S. Ct. 2347 (2014). 5 Id. (quoting Mayo, 132 S. Ct. at 1294). 6 Id. (quoting Mayo, 132 S. Ct. at 1297-98). 7 See Kevin Madigan & Adam Mossoff, Turning Gold into Lead: How Patent Eligibility Doctrine is Undermining U.S. Leadership in Innovation, 24 Geo. Mason L. Rev. 939 (2017); Michael A. Sanzo, Lengthening Shadows – Biotechnology and Patent Eligibility, 9 No. 5 Landslide 48 (2017) (“Beginning in 2012, the U.S. Supreme Court issued three decisions on patent eligibility that have had a devastating effect on biotechnology companies, particularly those involved in gene therapy and gene-based diagnostic assays.”). 8 Gregory H. Lantier & Richard A. Crudo, Can Juries Decide Patent Eligibility Under 35 U.S.C. § 101?, 27 Fed. Circuit B.J. 45 (2017). 9 Berkheimer v. HP Inc., No. 2017-1437, --- F.3d ----, 2018 WL 774096 (Fed. Cir. Feb. 8, 2018); Aatrix Software, Inc. v. Green Shades Software, Inc., No. 2017-1452, --- F.3d ----, 2018 WL 843288 (Fed. Cir. Feb. 14, 2018). 10 Berkheimer v. Hewlett-Packard Co., 224 F. Supp. 3d 635 (N.D. Ill. 2016). 11 Id. at 6-8; see also Aatrix Software, 2018 WL 843288, at *4 (finding that factual disputes “regarding whether the claim term ‘data file’ constitutes an inventive concept” were sufficient to overcome Rule 12(b)(6) motion to dismiss). Healthcare Innovations Venture Investment Forum “The human mind has an instinct, so why not transfer that instinct to a machine and make it intuitive. Think about it, we know when our friend is sad, angry, or happy.” This notion and countless other examples of innovative thinking recently drew entrepreneurs and investors to the Healthcare Innovations Venture Investment Forum, a program created by Wilson Sonsini Goodrich & Rosati, and hosted by the Dell Medical School in Austin, Texas on December 6-8, 2017. More than 150 innovative life sciences companies from across the country met privately with more than 50 top-tier life sciences investors. Company representatives also had the chance to network with investors during breakfast, lunch, and receptions over the three-day event. The 2017 event in Austin was the third Healthcare Innovations Venture Investment Forum presented by WSGR. WSGR hosted its first venture forum in Palo Alto in 2016, and a second forum in Boston in Spring 2017 in conjunction with the Harvard Innovation Lab. “Investment in life sciences is tremendously robust, and great ideas can be well-financed today,” said Vern Norviel, a WSGR partner in the firm’s patents and innovations practice who represents life sciences companies. “This investment environment is creating the opportunity to make enormous advances. Technologies such as immunotherapy, gene editing, cell therapy, and inexpensive DNA sequencing are enabling treatment options that were unimaginable a few years ago.” Therapeutics made up 40 percent of the more than 370 company submissions to the forum, followed by medical devices at 33 percent, and digital health at 26 percent. The Next Generation of Innovations NeuroLex Diagnostics Schwoebel’s company analyzes speech patterns, such as syntax and intonation, to diagnose psychiatric and neurological diseases early. NeuroLex then offers a referral to an appropriate psychiatrist for a confirmed diagnosis and treatment. “What’s happening is that most of these psychiatric and neurological patients are treated only after advanced symptoms appear, leading to poor outcomes—in the case of my brother a longer duration of untreated psychosis and over $15,000 of wasted medical tests,” Schwoeble argues. “This kind of testing should be mandated in hospitals or as part of regular lab work to help drive down costs, improve outcomes, and lower readmission rates.” As part of the conference, he met one-on-one with DigiTx Partners, a digital health investment company, which teams up with those driving change in behavioral health through meaningful data. Siemens Healthineers “It’s important to have both true financial investors and strategic partners, because the strategic partner can provide guidance and support to commercialize the product or innovation,” said Simcoe. ARCH Venture Partners “Ideally, you want an investor who does not just commit capital to your company, but someone who also commits their attention and effort to help it succeed,” said Nowacek. The 150-plus companies that participated in the forum were selected from a larger pool of healthcare start-ups, based on a submission process. “The selected companies are evidence that really interesting technology doesn’t have to originate from either the Northeast or California. WSGR’s forum provides an opportunity for investors to connect with these innovative and growth-minded companies,” said Michael Hostetler, a partner at WSGR who represents life sciences and healthcare clients. UT Austin ARK.one Health “All health systems feel the need to take on more financial risk for sustainability,” said Dastmalchi. “They have to reinvent themselves.” Sirenas “Our mission is to take molecules from Point A and generate meaningful data into novel potential medicines through our drug discovery platform (ATLANTIS) to identify immuno-modulatory drugs,” said Jake Beverage, Pharm.D., CEO of Sirenas. Conclusion A fourth Healthcare Innovations Venture Investment Forum is planned for 2018. Details are pending as to the date and location. For more information about the firm’s forums or its life sciences or digital health practice, visit www.wsgr.com.
Click here for a printable version of the Digital Health Report This communication is provided as a service to our clients and friends and is for informational purposes only. It is not intended to create an attorney-client relationship or constitute an advertisement, a solicitation, or professional advice as to any particular situation. © 2018 Wilson Sonsini Goodrich & Rosati, Professional Corporation |