Clever Firm Predicts Patients Most at Risk, Then Tries to Intervene Before They Get Sicker
Health firm Populytics tracks and analyzes patient data, and makes care suggestions based on that data.
The diabetic patient hit the danger zone.
Ideally, blood sugar, measured by an A1C test, rests at 5.9 or less. A 7 is elevated, according to the Diabetes Council. Over 10, and you're into the extreme danger zone, at risk of every diabetic crisis from kidney failure to blindness.
In three months of working with a case manager, Jen's blood sugar had dropped to 7.2, a much safer range.
This patient's A1C was 10. Let's call her Jen for the sake of this story. (Although the facts of her case are real, the patient's actual name wasn't released due to privacy laws.).
Jen happens to live in Pennsylvania's Lehigh Valley, home of the nonprofit Lehigh Valley Health Network, which has eight hospital campuses and various clinics and other services. This network has invested more than $1 billion in IT infrastructure and founded Populytics, a spin-off firm that tracks and analyzes patient data, and makes care suggestions based on that data.
When Jen left the doctor's office, the Populytics data machine started churning, analyzing her data compared to a wealth of information about future likely hospital visits if she did not comply with recommendations, as well as the potential positive impacts of outreach and early intervention.
About a month after Jen received the dangerous blood test results, a community outreach specialist with psychological training called her. She was on a list generated by Populytics of follow-up patients to contact.
"It's a very gentle conversation," says Cathryn Kelly, who manages a care coordination team at Populytics. "The case manager provides them understanding and support and coaching." The goal, in this case, was small behavioral changes that would actually stick, like dietary ones.
In three months of working with a case manager, Jen's blood sugar had dropped to 7.2, a much safer range. The odds of her cycling back to the hospital ER or veering into kidney failure, or worse, had dropped significantly.
While the health network is extremely localized to one area of one state, using data to inform precise medical decision-making appears to be the wave of the future, says Ann Mongovern, the associate director of Health Care Ethics at the Markkula Center for Applied Ethics at Santa Clara University in California.
"Many hospitals and hospital systems don't yet try to do this at all, which is striking given where we're at in terms of our general technical ability in this society," Mongovern says.
How It Happened
While many hospitals make money by filling beds, the Lehigh Valley Health Network, as a nonprofit, accepts many patients on Medicaid and other government insurances that don't cover some of the costs of a hospitalization. The area's population is both poorer and older than national averages, according to the U.S. Census data, meaning more people with higher medical needs that may not have the support to care for themselves. They end up in the ER, or worse, again and again.
In the early 2000s, LVHN CEO Dr. Brian Nester started wondering if his health network could develop a way to predict who is most likely to land themselves a pricey ICU stay -- and offer support before those people end up needing serious care.
Embracing data use in such specific ways also brings up issues of data security and patient safety.
"There was an early understanding, even if you go back to the (federal) balanced budget act of 1997, that we were just kicking the can down the road to having a functional financial model to deliver healthcare to everyone with a reasonable price," Nester says. "We've got a lot of people living longer without more of an investment in the healthcare trust."
Popultyics, founded in 2013, was the result of years of planning and agonizing over those population numbers and cost concerns.
"We looked at our own health plan," Nester says. Out of all the employees and dependants on the LVHN's own insurance network, "roughly 1.5 percent of our 25,000 people — under 400 people — drove $30 million of our $130 million on insurance costs -- about 25 percent."
"You don't have to boil the ocean to take cost out of the system," he says. "You just have to focus on that 1.5%."
Take Jen, the diabetic patient. High blood sugar can lead to kidney failure, which can mean weekly expensive dialysis for 20 years. Investing in the data and staff to reach patients, he says, is "pennies compared to $100 bills."
For most doctors, "there's no awareness for providers to know who they should be seeing vs. who they are seeing. There's no incentive, because the incentive is to see as many patients as you can," he says.
To change that, first the LVHN invested in the popular medical management system, Epic. Then, they negotiated with the top 18 insurance companies that cover patients in the region to allow access to their patient care data, which means they have reams of patient history to feed the analytics machine in order to make predictions about outcomes. Nester admits not every hospital could do that -- with 52 percent of the market share, LVHN had a very strong negotiating position.
Third party services take that data and churn out analytics that feeds models and care management plans. All identifying information is stripped from the data.
"We can do predictive modeling in patients," says Populytics President and CEO Gregory Kile. "We can identify care gaps. Those care gaps are noted as alerts when the patient presents at the office."
Kile uses himself as a hypothetical patient.
"I pull up Gregory Kile, and boom, I see a flag or an alert. I see he hasn't been in for his last blood test. There is a care gap there we need to complete."
"There's just so much more you can do with that information," he says, envisioning a future where follow-up for, say, knee replacement surgery and outcomes could be tracked, and either validated or changed.
Ethical Issues at the Forefront
Of course, embracing data use in such specific ways also brings up issues of security and patient safety. For example, says medical ethicist Mongovern, there are many touchpoints where breaches could occur. The public has a growing awareness of how data used to personalize their experiences, such as social media analytics, can also be monetized and sold in ways that benefit a company, but not the user. That's not to say data supporting medical decisions is a bad thing, she says, just one with potential for public distrust if not handled thoughtfully.
"You're going to need to do this to stay competitive," she says. "But there's obviously big challenges, not the least of which is patient trust."
So far, a majority of the patients targeted – 62 percent -- appear to embrace the effort.
Among the ways the LVHN uses the data is monthly reports they call registries, which include patients who have just come in contact with the health network, either through the hospital or a doctor that works with them. The community outreach team members at Populytics take the names from the list, pull their records, and start calling. So far, a majority of the patients targeted – 62 percent -- appear to embrace the effort.
Says Nester: "Most of these are vulnerable people who are thrilled to have someone care about them. So they engage, and when a person engages in their care, they take their insulin shots. It's not rocket science. The rocket science is in identifying who the people are — the delivery of care is easy."
Scientists: Don’t Leave Religious Communities Out in the Cold
A star of David reflects the perspective of a Rabbi/M.D. on an important question about the future of society.
[Editor's Note: This essay is in response to our current Big Question series: "How can the religious and scientific communities work together to foster a culture that is equipped to face humanity's biggest challenges?"]
I humbly submit that the question should be rephrased: How can the religious and scientific communities NOT work together to face humanity's biggest challenges? The stakes are higher than ever before, and we simply cannot afford to go it alone.
I believe in evolution -- the evolution of the relationship of science and religion.
The future of the world depends on our collaboration. I believe in evolution -- the evolution of the relationship of science and religion. Science and religion have lived in alternately varying relationships ranging from peaceful coexistence to outright warfare. Today we have evolved and have begun to embrace the biological relationship of mutualism. This is in part due to the advances in medicine and science.
Previous scientific discoveries and paradigm shifts precipitated varying theological responses. With Copernicus, we grappled with the relationship of the earth to the universe. With Darwin, we re-evaluated the relationship of man to the other creatures on earth. However, as theologically complex as these debates were, they had no practical relevance to the common man. Indeed, it was possible for people to live their entire lives happily without pondering these issues.
In the 21st century, the microscope is honing in further, with discoveries relating to the understanding of the very nature and composition of the human being, both body and mind/soul. Thus, as opposed to the past, the implications of the latest scientific advances directly affect the common man. The religious implications are not left to the ivory tower theologians. Regular people are now confronted with practical religious questions previously unimagined.
For example, in the field of infertility, if a married woman undergoes donor insemination, is she considered an adulteress? If a woman of one faith gestates the child of another faith, to whose faith does the child belong? If your heart is failing, can you avail yourself of stem cells derived from human embryos, or would you be considered an accomplice to murder? Would it be preferable to use artificially derived stem cells if they are available?
The implications of our current debates are profound, and profoundly personal. Science is the great equalizer. Every living being can potentially benefit from medical advances. We are all consumers of the scientific advances, irrespective of race or religion. As such, we all deserve a say in their development.
If the development of the science is collaborative, surely the contemplation of its ethical/religious applications should likewise be.
With gene editing, uterus transplants, head transplants, artificial reproductive seed, and animal-human genetic combinations as daily headlines, we have myriad ethical dilemmas to ponder. What limits should we set for the uses of different technologies? How should they be financed? We must even confront the very definition of what it means to be human. A human could receive multiple artificial transplants, 3D printed organs, genetic derivatives, or organs grown in animals. When does a person become another person or lose his identity? Will a being produced entirely from synthetic DNA be human?
In the Middle Ages, it was possible for one person to master all of the known science, and even sometimes religion as well, such as the great Maimonides. In the pre-modern era, discoveries were almost always attributed to one individual: Jenner, Lister, Koch, Pasteur, and so on. Today, it is impossible for any one human being to master medicine, let alone ethics, religion, etc. Advances are made not usually by one person but by collaboration, often involving hundreds, if not thousands of people across the globe. We cite journal articles, not individuals. Furthermore, the magnitude and speed of development is staggering. Add artificial intelligence and it will continue to expand exponentially.
If the development of the science is collaborative, surely the contemplation of its ethical/religious applications should likewise be. The issues are so profound that we need all genes on deck. The religious community should have a prominent seat at the table. There is great wisdom in the religious traditions that can inform contemporary discussions. In addition, the religious communities are significant consumers of, not to mention contributors to, the medical technology.
An ongoing dialogue between the scientific and religious communities should be an institutionalized endeavor, not a sporadic event, reactive to a particular discovery. The National Institutes of Health or other national organizations could provide an online newsletter designed for the clergy with a summary of the latest developments and their potential applications. An annual meeting of scientists and religious leaders could provide a forum for the scientists to appreciate the religious ramifications of their research (which may be none as well) and for the clergy to appreciate the rapidly developing fields of science and the implications for their congregants. Theological seminaries must include basic scientific literacy as part of their curricula.
We need the proper medium of mutual respect and admiration, despite healthy disagreement.
How do we create a "culture"? Microbiological cultures take time and require the proper medium for maximal growth. If one of the variables is altered, the culture can be affected. To foster a culture of continued successful collaboration between scientists and religious communities, we likewise need the proper medium of mutual respect and admiration, despite healthy disagreement.
The only way we can navigate these unchartered waters is through constant, deep and meaningful collaboration every single step of the way. By cultivating a mutualistic relationship we can inform, caution and safeguard each other to maximize the benefits of emerging technologies.
[Ed. Note: Don't miss the other perspectives in this Big Question series, from a science scholar and a Reverend/molecular geneticist.]
Why the Pope Should Officially Embrace Biotechnology
Pope Francis processing into Mass at St. Peter's Square.
[Editor's Note: This essay is in response to our current Big Question series: "How can the religious and scientific communities work together to foster a culture that is equipped to face humanity's biggest challenges?"]
In May 2015, Pope Francis issued an encyclical with the subtitle "On Care for Our Common Home." The letter addressed various environmental issues, such as pollution and climate change, and it reminded all of us that we are to steward the Earth, not plunder it.
Without question, biotechnology has saved the lives of millions – perhaps billions – of people.
The Pope's missive demonstrates that he is both theologically sound and scientifically literate, a very rare combination. That is why he should now author an encyclical urging the world to embrace the life-giving promise of biotechnology.
Without question, biotechnology has saved the lives of millions – perhaps billions – of people. Arguably, vaccines were the most important invention in the history of mankind. It is thought that, in the 20th century alone, at least 300 million people were killed by smallpox. Today, the number is zero, thanks to vaccination. Other killers, such as measles, diphtheria, meningitis, and diarrhea, are kept at bay because of vaccines.
Biotechnology has also saved the lives of diabetics. At one time, insulin was extracted from pig pancreases, and there were fears that we would run out of it. Then, in the 1970s, crucial advances in biotechnology allowed for the gene that encodes human insulin to be expressed in bacteria. Today, diabetics can get extremely pure insulin thanks to this feat of genetic modification.
Likewise, genetic modification has improved the environment and the lives of farmers all over the world, none more so than those living in developing countries. According to a meta-analysis published in PLoS ONE, GMOs have "reduced chemical pesticide use by 37%, increased crop yields by 22%, and increased farmer profits by 68%."
Even better, GMOs also could help improve the lives of non-farmers. In poor parts of the world, malnutrition is still extremely common. People whose diets consist mostly of rice, for example, often suffer from vitamin A deficiency, which can lead to blindness. Golden Rice, which was genetically modified to contain a vitamin A precursor, was created and given away for free in an act of humanitarianism. Other researchers have created a genetically modified cassava to help combat iron and zinc deficiencies among children in Africa.
Despite these groundbreaking advances, the public is turning against biotechnology.
Biotechnology has also helped women with mitochondrial disease bear healthy children. Children inherit their mitochondria, the powerhouses of our cells, solely from their mothers. Mitochondrial defects can have devastating health consequences. Using what is colloquially called the "three-parent embryo technique," a healthy woman donates an egg. The nucleus of that egg is removed, and that of the mother-to-be is put in its place. Then, the egg is fertilized using conventional in vitro fertilization. In April 2016, the world's first baby was born using this technique.
Yet, despite these groundbreaking advances, the public is turning against biotechnology. Across America and Europe, anti-vaccine activists have helped usher in a resurgence of entirely preventable diseases, such as measles. Anti-GMO activists have blocked the implementation of Golden Rice. And other activists decry reproductive technology as "playing God."
Nonsense. These technologies improve overall welfare and save lives. Those laudable goals are shared by all the world's major religions as part of their efforts to improve the human condition. That is why it is vitally important, if science is to succeed in eradicating illness, that it gets a full-throated endorsement from powerful religious leaders.
In his 2015 encyclical, Pope Francis wrote:
Any technical solution which science claims to offer will be powerless to solve the serious problems of our world if humanity loses its compass, if we lose sight of the great motivations which make it possible for us to live in harmony, to make sacrifices and to treat others well.
He is correct. Indeed, when people are protesting life-saving vaccines, we have lost not only our moral compass but our intellect, too.
Imagine the impact he could have if Pope Francis issued an encyclical titled "On Protecting Our Most Vulnerable." He could explain that some children, stricken with cancer or suffering from an immunological disease, are unable to receive vaccines. Therefore, we all have a moral duty to be vaccinated in order to protect them through herd immunity.
Or imagine the potential impact of an encyclical titled "On Feeding the World," in which the Pope explained that rich countries have an obligation to poorer ones to feed them by all means necessary, including the use of biotechnology. If Muslim, Buddhist, and Hindu scholars throughout Asia and Africa also embraced the message, its impact could be multiplied.
In order to be successful, science needs religion; in order to be practical, religion needs science.
In order to be successful, science needs religion; in order to be practical, religion needs science.
Unfortunately, in discussions of the relationship between science and religion, we too often focus on the few areas in which they conflict. But this misses a great opportunity. By combining technological advances with moral authority, science and religion can work together to save the world.
[Ed. Note: Don't miss the other perspectives in this Big Question series, from a Rabbi/M.D. and a Reverend/molecular geneticist.]