A Million Patients Have Innovated Their Own Medical Solutions, And Doctors Are Terrified
Diabetes patient advocate Renza Scibilia with her continuous glucose monitor, used in innovative DIY health technology.
In the fall of 2017, patient advocate Renza Scibilia told a conference of endocrinologists in Australia about new, patient-developed artificial pancreas technology that helped her manage her Type 1 diabetes.
"Because it's not a regulated product, some [doctors] were worried and said 'What if it goes wrong?'"
"They were in equal measure really interested and really scared," recalled Scibilia. "Because it's not a regulated product, some were worried and said 'What if it goes wrong? What is my liability going to be?'"
That was two years ago. Asked if physicians have been more receptive to the same "looping" technology now that its benefits have been supported by considerable data (as Leapsmag pointed out in May), Scibilia said, "No. Clinicians are still really insecure. They're always going to be reluctant to accept consumer-driven technology."
This exemplifies a major challenge to the growing Do-It-Yourself (DIY) biohealth movement: physicians are unnerved and worried about innovations developed by patients and other consumers that haven't been tested in elaborate clinical trials or sanctioned by regulatory authorities.
"It's difficult for patients who develop new health technology to demonstrate the advantage in a way that physicians would accept." said Howard DeMonaco, visiting scientist at MIT's Sloan School of Management. "New approaches to the treatment of diseases are by definition suspect to clinicians. Most are risk averse unless there is a substantial advantage to the new approach and the risks in doing so appear to be minimized."
Nevertheless, the DIY biohealth movement is booming. About a million people reported that they created medical innovations to address their own medical needs in surveys conducted from 2010-2015 in the U.S., U.K., Finland, Canada and South Korea.
Add in other DIY health innovations created in homes, community biolabs and "Maker" health fairs, and it's clear that health care providers are increasingly confronted with medical devices, information technology, and even medications that were developed in unconventional settings and lack the blessing of regulatory authorities.
Researchers in Portugal have tried to spread the word about many of these solutions on the Patent Innovations website, which has more than 500 examples, ranging from a 3-D printed arm and hand to a sensor device that warns someone when an osteomy bag is full.
When Reddit asked medical professionals, "What is the craziest DIY health treatment you've seen a patient attempt?" thousands shared horror stories.
But even in this era of patient empowerment, more widespread use of DIY health solutions still depends upon the approval and cooperation of physicians, nurses and other caregivers. And health care providers still lack awareness of promising patient-developed innovations, according to Dr. Joyce Lee, a pediatric endocrinologist at the University of Michigan who advocates involving patients in the design of healthcare technology. "Most physicians are scared of what they don't know," she said.
They're also understandably worried about patients who don't know what they're doing and make irresponsible decisions. When Reddit asked medical professionals, "What is the craziest DIY health treatment you've seen a patient attempt?" thousands shared horror stories, including a man who poked a hole in his belly button with a knitting needle to relieve gas.
Yet DeMonaco and Lee think it's possible to start bridging the gaps between responsible patient innovators and skeptical doctors as well as unprepared regulatory systems.
One obstacle to consumer-driven health innovations is that clinical trials to prove their safety and effectiveness are expensive and time-consuming, as De Monaco points out in a recent article. He and his colleagues suggested that low-cost clinical trials by and for patients could help address this challenge. They urged patients to publish their own research and detail the impact of innovations on their own health, and create databases that incorporate the findings of other patients.
For example, Adam Brown, who has Type 1 diabetes, compared the effects of low and high carbohydrate diets on his blood sugar management, and conveyed the results in an online journal. "Sharing the information allowed others to copy the experiment," the article noted, suggesting that this could be a model to create multi-patient trials that could be "analyzed by expert patients and/or by professionals."
Asked how to convince health care providers to consider such research, DeMonaco cited the example of doctors prescribing "off label" drugs for purposes that aren't approved by the FDA. "The secret to off label use, like any other user innovation, is dissemination," he said. Sharing case reports and other low-cost research serves to disseminate the information "in a way that is comfortable for physicians," he said, and urged patient innovators to take the same approach.
The FDA regulates commercial products and has no authority if consumers want to use medical devices, medications, or information systems that they find on their own.
Physicians should also be encouraged to engage in patient-driven research, said Dr. Lee. She suggests forming "maker spaces in which patients and physicians are involved in designing personalized technology for chronic diseases. In my vision, patient peers would build, iterate, and learn from each other and the doctor would be part of the team, constantly assessing and evaluating the technology and facilitating the process."
Some kind of regulatory oversight of DIY health technology is also necessary, said Todd Kuiken, senior research scholar at NC State and former principal investigator at the Woodrow Wilson Center's Synthetic Biology Project.
The FDA regulates commercial products and has no authority if consumers want to use medical devices, medications, or information systems that they find on their own. But that doesn't stop regulators from worrying about patients who use them. For example, the FDA issued a warning about diabetes looping technology earlier this year after one diabetic was hospitalized with hypoglycemia.
Kuiken, for one, believes that citizen-driven innovation requires oversight "to move forward." He suggested that Internal Review Boards, with experts on medical technology, safety and ethics, could play a helpful role in validating the work of patient innovators and others engaged in DIY health research. "As people are developing health products, there would be experts available to take a look and check in," he said.
Kuiken pointed out that in native American territories, tribally based IRBs working with the national Indian Health Services help to oversee new health science research. The model could be applied more broadly.
He also offered hope to those who want to integrate the current health regulatory structure into the ecosystem of DIY health innovations. "I didn't expect people from the FDA or NIH to show up" he said about a workshop on citizen-driven biomedical research that he helped organize at the Wilson Center last year. But senior officials from both agencies attended.
He indicated they "were open to new ideas." While he wouldn't disclose contributions made by individual participants in the workshop, he said the government staffers were "very interested in figuring out how to engage with citizen health innovators, to build bridges with the DIY community."
"Why should we wait for regulatory bodies? Why wait for trials that take too long?"
Time will tell whether those bridges will be built quickly enough to increase the comfort of physicians with health innovations developed by patients and other consumers. In the meantime, DIY health innovators like patient advocate Scibilia are undeterred.
"Why should we wait for regulatory bodies?" she asked. "Why wait for trials that take too long? There are plenty of data out there indicating the [diabetes looping] technology works. So we're just going to do it. We're not waiting."
Urinary tract infections account for more than 8 million trips to the doctor each year.
Few things are more painful than a urinary tract infection (UTI). Common in men and women, these infections account for more than 8 million trips to the doctor each year and can cause an array of uncomfortable symptoms, from a burning feeling during urination to fever, vomiting, and chills. For an unlucky few, UTIs can be chronic—meaning that, despite treatment, they just keep coming back.
But new research, presented at the European Association of Urology (EAU) Congress in Paris this week, brings some hope to people who suffer from UTIs.
Clinicians from the Royal Berkshire Hospital presented the results of a long-term, nine-year clinical trial where 89 men and women who suffered from recurrent UTIs were given an oral vaccine called MV140, designed to prevent the infections. Every day for three months, the participants were given two sprays of the vaccine (flavored to taste like pineapple) and then followed over the course of nine years. Clinicians analyzed medical records and asked the study participants about symptoms to check whether any experienced UTIs or had any adverse reactions from taking the vaccine.
The results showed that across nine years, 48 of the participants (about 54%) remained completely infection-free. On average, the study participants remained infection free for 54.7 months—four and a half years.
“While we need to be pragmatic, this vaccine is a potential breakthrough in preventing UTIs and could offer a safe and effective alternative to conventional treatments,” said Gernot Bonita, Professor of Urology at the Alta Bro Medical Centre for Urology in Switzerland, who is also the EAU Chairman of Guidelines on Urological Infections.
The news comes as a relief not only for people who suffer chronic UTIs, but also to doctors who have seen an uptick in antibiotic-resistant UTIs in the past several years. Because UTIs usually require antibiotics, patients run the risk of developing a resistance to the antibiotics, making infections more difficult to treat. A preventative vaccine could mean less infections, less antibiotics, and less drug resistance overall.
“Many of our participants told us that having the vaccine restored their quality of life,” said Dr. Bob Yang, Consultant Urologist at the Royal Berkshire NHS Foundation Trust, who helped lead the research. “While we’re yet to look at the effect of this vaccine in different patient groups, this follow-up data suggests it could be a game-changer for UTI prevention if it’s offered widely, reducing the need for antibiotic treatments.”
MILESTONE: Doctors have transplanted a pig organ into a human for the first time in history
A surgeon at Massachusetts General Hospital prepares a pig organ for transplant.
Surgeons at Massachusetts General Hospital made history last week when they successfully transplanted a pig kidney into a human patient for the first time ever.
The recipient was a 62-year-old man named Richard Slayman who had been living with end-stage kidney disease caused by diabetes. While Slayman had received a kidney transplant in 2018 from a human donor, his diabetes ultimately caused the kidney to fail less than five years after the transplant. Slayman had undergone dialysis ever since—a procedure that uses an artificial kidney to remove waste products from a person’s blood when the kidneys are unable to—but the dialysis frequently caused blood clots and other complications that landed him in the hospital multiple times.
As a last resort, Slayman’s kidney specialist suggested a transplant using a pig kidney provided by eGenesis, a pharmaceutical company based in Cambridge, Mass. The highly experimental surgery was made possible with the Food and Drug Administration’s “compassionate use” initiative, which allows patients with life-threatening medical conditions access to experimental treatments.
The new frontier of organ donation
Like Slayman, more than 100,000 people are currently on the national organ transplant waiting list, and roughly 17 people die every day waiting for an available organ. To make up for the shortage of human organs, scientists have been experimenting for the past several decades with using organs from animals such as pigs—a new field of medicine known as xenotransplantation. But putting an animal organ into a human body is much more complicated than it might appear, experts say.
“The human immune system reacts incredibly violently to a pig organ, much more so than a human organ,” said Dr. Joren Madsen, director of the Mass General Transplant Center. Even with immunosuppressant drugs that suppress the body’s ability to reject the transplant organ, Madsen said, a human body would reject an animal organ “within minutes.”
So scientists have had to use gene-editing technology to change the animal organs so that they would work inside a human body. The pig kidney in Slayman’s surgery, for instance, had been genetically altered using CRISPR-Cas9 technology to remove harmful pig genes and add human ones. The kidney was also edited to remove pig viruses that could potentially infect a human after transplant.
With CRISPR technology, scientists have been able to prove that interspecies organ transplants are not only possible, but may be able to successfully work long term, too. In the past several years, scientists were able to transplant a pig kidney into a monkey and have the monkey survive for more than two years. More recently, doctors have transplanted pig hearts into human beings—though each recipient of a pig heart only managed to live a couple of months after the transplant. In one of the patients, researchers noted evidence of a pig virus in the man’s heart that had not been identified before the surgery and could be a possible explanation for his heart failure.
So far, so good
Slayman and his medical team ultimately decided to pursue the surgery—and the risk paid off. When the pig organ started producing urine at the end of the four-hour surgery, the entire operating room erupted in applause.
Slayman is currently receiving an infusion of immunosuppressant drugs to prevent the kidney from being rejected, while his doctors monitor the kidney’s function with frequent ultrasounds. Slayman is reported to be “recovering well” at Massachusetts General Hospital and is expected to be discharged within the next several days.