Is Red Tape Depriving Patients of Life-Altering Therapies?
Rich Mancuso suffered from herpes for most of his adult life. The 49-year-old New Jersey resident was miserable. He had at least two to three outbreaks every month with painful and unsightly sores on his face and in his eyes, yet the drugs he took to control the disease had terrible side effects--agonizing headaches and severe stomach disturbances.
Last week, the FDA launched a criminal investigation to determine whether the biotech behind the vaccine had violated regulations.
So in 2016, he took an unusual step: he was flown to St. Kitt's, an island in the West Indies, where he participated in a clinical trial of a herpes vaccine, and received three injections of the experimental therapeutic during separate visits to the island. Within a year, his outbreaks stopped. "Nothing else worked," says Mancuso, who feels like he's gotten his life back. "And I've tried everything on the planet."
Mancuso was one of twenty genital herpes sufferers who were given the experimental vaccine in tests conducted on the Caribbean island and in hotel rooms near the campus of Southern Illinois University in Springfield where the vaccine's developer, microbiologist William Halford, was on the faculty. But these tests were conducted under the radar, without the approval or safety oversight of the Food and Drug Administration or an institutional review board (IRB), which routinely monitor human clinical trials of experimental drugs to make sure participants are protected.
Last week, the FDA launched a criminal investigation to determine whether anyone from SIU or Rational Vaccines, the biotech behind the vaccine, had violated regulations by aiding Halford's research. The SIU scientist was a microbiologist, not a medical doctor, which means that volunteers were not only injected with an unsanctioned experimental treatment but there wasn't even routine medical oversight.
On one side are scientists and government regulators with legitimate safety concerns....On the other are desperate patients and a dying scientist willing to go rogue in a foreign country.
Halford, who was stricken with a rare form of a nasal cancer, reportedly bypassed regulatory rules because the clock was ticking and he wanted to speed this potentially life-altering therapeutic to patients. "There was no way he had enough time to raise $100 million to test the drugs in the U.S.," says Mancuso, who became friends with Halford before he died in June of 2017 at age 48. "He knew if he didn't do something, his work would just die and no one would benefit. This was the only way."
But was it the only way? Once the truth about the trial came to light, public health officials in St. Kitt's disavowed the trial, saying they had not been notified that it was happening, and Southern Illinois University's medical school launched an investigation that ultimately led to the resignation of three employees, including a faculty member, a graduate student and Halford's widow. Investors in Rational Vaccines, including maverick Silicon Valley billionaire Peter Thiel, demanded that all FDA rules must be followed in future tests.
"Trials have to yield data that can be submitted to the FDA, which means certain requirements have to be met," says Jeffrey Kahn, a bioethicist at Johns Hopkins University in Baltimore. "These were renegade researchers who exposed people to unnecessary risks, which was hugely irresponsible. I don't know what they expected to do with the research. It was a waste of money and generated data that can't be used because no regulator would accept it."
But this story illuminates both sides of a thorny issue. On one side are scientists and government regulators with legitimate safety concerns who want to protect volunteers from very real risks—people have died even in closely monitored clinical trials. On the other, are desperate patients and a dying scientist willing to go rogue in a foreign country where there is far less regulatory scrutiny. "It's a balancing act," says Jennifer Miller, a medical ethicist at New York University and president of Bioethics International. "You really need to protect participants but you also want access to safe therapies."
"Safety is important, but being too cautious kills people, too—allowing them to just die without intervention seems to be the biggest harm."
This requirement—that tests show a drug is safe and effective before it can win regulatory approval--dates back to 1962, when the sedative thalidomide was shown to have caused thousands of birth defects in Europe. But clinical trials can be costly and often proceed at a glacial pace. Typically, companies shell out more than $2.5 billion over the course of the decade it normally takes to shepherd a new treatment through the three phases of testing before it wins FDA approval, according to a 2014 study by the Tufts Center for the Study of Drug Development. Yet only 11.8 percent of experimental therapies entering clinical tests eventually cross the finish line.
The upshot is that millions can suffer and thousands of people may die awaiting approvals for life saving drugs, according to Elizabeth Parrish, the founder and CEO of BioViva, a Seattle-based biotech that aims to provide data collection platforms to scientists doing overseas tests. "Going offshore to places where it's legal to take a therapeutic can created expedited routes for patients to get therapies for which there is a high level of need," she says. "Safety is important, but being too cautious kills people, too—allowing them to just die without intervention seems to be the biggest harm."
Parrish herself was frustrated with the slow pace of gene therapy trials; scientists worried about the risks associated with fixing mutant DNA. To prove a point, she traveled to a clinic in Colombia in 2015 where she was injected with two gene therapies that aim to improve muscle function and lengthen telomeres, the caps on the end of chromosomes that are linked to aging and genetic diseases. Six months later, the therapy seemed to have worked—her muscle mass had increased and her telomeres had grown by 9 percent, the equivalent of turning back 20 years of aging, according to her own account. Yet the treatments are still unavailable here in the U.S.
In the past decade, Latin American countries like Columbia, and Mexico in particular, have become an increasingly attractive test destination for multi-national drug companies and biotechs because of less red tape.
In the past decade, Latin American countries like Columbia, and Mexico in particular, have become an increasingly attractive test destination for multi-national drug companies and biotechs because of less red tape around testing emerging new science, like gene therapies or stem cells. Plus, clinical trials are cheaper to conduct, it's easier to recruit volunteers, especially ones who are treatment naïve, and these human tests can reveal whether local populations actually respond to a particular therapy. "We do have an exhaustive framework for running clinical trials that are aligned with international requirements," says Ernesto Albaga, an attorney with Hogan Lovells in Mexico City who specializes in the life sciences. "But our environment is still not as stringent as it is in other places, like the U.S."
The fact is American researchers are increasingly testing experimental drugs outside of the U.S., although virtually all of them are monitored by local scientists who serve as co-investigators. In 2017 alone, more than 86 percent of experimental drugs seeking FDA approval have been tested, at least in part, in foreign countries, like Mexico, China, Russia, Poland and South Africa, according to an analysis by STAT. However, in places without strict oversight, such as Russia and Georgia, results may be fraudulent, according to one 2017 report in the New England Journal of Medicine. And in developing countries, the poor can become guinea pigs. In the early 2000s, for example, a test in Uganda of an AIDS drug resulted in thousands of unreported serious adverse reactions and 14 deaths; in India, eight volunteers died during a test of the anti-clotting drug, Streptokinase—and test subjects didn't even know they were part of a clinical trials.
Still, "the world is changing," concludes Dr. Jennifer Miller of NYU. "We need to figure out how to get safe and effective drugs to patients more quickly without sacrificing too much protection."
How to Measure Your Stress, with Dr. Rosalind Picard
Today’s podcast guest is Rosalind Picard, a researcher, inventor named on over 100 patents, entrepreneur, author, professor and engineer. When it comes to the science related to endowing computer software with emotional intelligence, she wrote the book. It’s published by MIT Press and called Affective Computing.
Dr. Picard is founder and director of the MIT Media Lab’s Affective Computing Research Group. Her research and engineering contributions have been recognized internationally. For example, she received the 2022 International Lombardy Prize for Computer Science Research, considered by many to be the Nobel prize in computer science.
Through her research and companies, Dr. Picard has developed wearable sensors, algorithms and systems for sensing, recognizing and responding to information about human emotion. Her products are focused on using fitness trackers to advance clinical quality treatments for a range of conditions.
Meanwhile, in just the past few years, numerous fitness tracking companies have released products with their own stress sensors and systems. You may have heard about Fitbit’s Stress Management Score, or Whoop’s Stress Monitor – these features and apps measure things like your heart rhythm and a certain type of invisible sweat to identify stress. They’re designed to raise awareness about forms of stress such as anxieties and anger, and suggest strategies like meditation to relax in real time when stress occurs.
But how well do these off-the-shelf gadgets work? There’s no one more knowledgeable and experienced than Rosalind Picard to explain the science behind these stress features, what they do exactly, how they might be able to help us, and their current shortcomings.
Dr. Picard is a member of the National Academy of Engineering and a Fellow of the National Academy of Inventors, and a popular speaker who’s given over a hundred invited keynote talks and a TED talk with over 2 million views. She holds a Bachelors in Electrical Engineering from Georgia Tech, and Masters and Doctorate degrees in Electrical Engineering and Computer Science from MIT. She lives in Newton, Massachusetts with her husband, where they’ve raised three sons.
In our conversation, we discuss stress scores on fitness trackers to improve well-being. She describes the difference between commercial products that might help people become more mindful of their health and products that are FDA approved and really capable of advancing the science. We also talk about several fascinating findings and concepts discovered in Dr. Picard’s lab including the multiple arousal theory, a phenomenon you’ll want to hear about. And we explore the complexity of stress, one reason it’s so tough to measure. For example, many forms of stress are actually good for us. Can fitness trackers tell the difference between stress that’s healthy and unhealthy?
Show links:
- Dr. Picard’s book, Affective Computing
- Dr. Picard’s bio
- Dr. Picard on Twitter
- Dr. Picard’s company, Empatica - https://www.empatica.com/ - The FDA-cleared Empatica Health Monitoring Platform provides accurate, continuous health insights for researchers and clinicians, collected in the real world
- Empatica Twitter
- Dr. Picard and her team have published hundreds of peer-reviewed articles across AI, Machine Learning, Affective Computing, Digital Health, and Human-computer interaction.
- Dr. Picard’s TED talk
Rosalind Picard
If you look back on the last century of scientific achievements, you might notice that most of the scientists we celebrate are overwhelmingly white, while scientists of color take a backseat. Since the Nobel Prize was introduced in 1901, for example, no black scientists have landed this prestigious award.
The work of black women scientists has gone unrecognized in particular. Their work uncredited and often stolen, black women have nevertheless contributed to some of the most important advancements of the last 100 years, from the polio vaccine to GPS.
Here are five black women who have changed science forever.
Dr. May Edward Chinn
Dr. May Edward Chinn practicing medicine in Harlem
George B. Davis, PhD.
Chinn was born to poor parents in New York City just before the start of the 20th century. Although she showed great promise as a pianist, playing with the legendary musician Paul Robeson throughout the 1920s, she decided to study medicine instead. Chinn, like other black doctors of the time, were barred from studying or practicing in New York hospitals. So Chinn formed a private practice and made house calls, sometimes operating in patients’ living rooms, using an ironing board as a makeshift operating table.
Chinn worked among the city’s poor, and in doing this, started to notice her patients had late-stage cancers that often had gone undetected or untreated for years. To learn more about cancer and its prevention, Chinn begged information off white doctors who were willing to share with her, and even accompanied her patients to other clinic appointments in the city, claiming to be the family physician. Chinn took this information and integrated it into her own practice, creating guidelines for early cancer detection that were revolutionary at the time—for instance, checking patient health histories, checking family histories, performing routine pap smears, and screening patients for cancer even before they showed symptoms. For years, Chinn was the only black female doctor working in Harlem, and she continued to work closely with the poor and advocate for early cancer screenings until she retired at age 81.
Alice Ball
Pictorial Press Ltd/Alamy
Alice Ball was a chemist best known for her groundbreaking work on the development of the “Ball Method,” the first successful treatment for those suffering from leprosy during the early 20th century.
In 1916, while she was an undergraduate student at the University of Hawaii, Ball studied the effects of Chaulmoogra oil in treating leprosy. This oil was a well-established therapy in Asian countries, but it had such a foul taste and led to such unpleasant side effects that many patients refused to take it.
So Ball developed a method to isolate and extract the active compounds from Chaulmoogra oil to create an injectable medicine. This marked a significant breakthrough in leprosy treatment and became the standard of care for several decades afterward.
Unfortunately, Ball died before she could publish her results, and credit for this discovery was given to another scientist. One of her colleagues, however, was able to properly credit her in a publication in 1922.
Henrietta Lacks
onathan Newton/The Washington Post/Getty
The person who arguably contributed the most to scientific research in the last century, surprisingly, wasn’t even a scientist. Henrietta Lacks was a tobacco farmer and mother of five children who lived in Maryland during the 1940s. In 1951, Lacks visited Johns Hopkins Hospital where doctors found a cancerous tumor on her cervix. Before treating the tumor, the doctor who examined Lacks clipped two small samples of tissue from Lacks’ cervix without her knowledge or consent—something unthinkable today thanks to informed consent practices, but commonplace back then.
As Lacks underwent treatment for her cancer, her tissue samples made their way to the desk of George Otto Gey, a cancer researcher at Johns Hopkins. He noticed that unlike the other cell cultures that came into his lab, Lacks’ cells grew and multiplied instead of dying out. Lacks’ cells were “immortal,” meaning that because of a genetic defect, they were able to reproduce indefinitely as long as certain conditions were kept stable inside the lab.
Gey started shipping Lacks’ cells to other researchers across the globe, and scientists were thrilled to have an unlimited amount of sturdy human cells with which to experiment. Long after Lacks died of cervical cancer in 1951, her cells continued to multiply and scientists continued to use them to develop cancer treatments, to learn more about HIV/AIDS, to pioneer fertility treatments like in vitro fertilization, and to develop the polio vaccine. To this day, Lacks’ cells have saved an estimated 10 million lives, and her family is beginning to get the compensation and recognition that Henrietta deserved.
Dr. Gladys West
Andre West
Gladys West was a mathematician who helped invent something nearly everyone uses today. West started her career in the 1950s at the Naval Surface Warfare Center Dahlgren Division in Virginia, and took data from satellites to create a mathematical model of the Earth’s shape and gravitational field. This important work would lay the groundwork for the technology that would later become the Global Positioning System, or GPS. West’s work was not widely recognized until she was honored by the US Air Force in 2018.
Dr. Kizzmekia "Kizzy" Corbett
TIME Magazine
At just 35 years old, immunologist Kizzmekia “Kizzy” Corbett has already made history. A viral immunologist by training, Corbett studied coronaviruses at the National Institutes of Health (NIH) and researched possible vaccines for coronaviruses such as SARS (Severe Acute Respiratory Syndrome) and MERS (Middle East Respiratory Syndrome).
At the start of the COVID pandemic, Corbett and her team at the NIH partnered with pharmaceutical giant Moderna to develop an mRNA-based vaccine against the virus. Corbett’s previous work with mRNA and coronaviruses was vital in developing the vaccine, which became one of the first to be authorized for emergency use in the United States. The vaccine, along with others, is responsible for saving an estimated 14 million lives.