Medical Tourism Is Booming, Fueled by High Costs and Slow Access
Bridget Snell traveled to Mexico to access an unapproved stem cell therapy for MS.
When Bridget Snell found out she had multiple sclerosis, she knew she would put up a fight. The 45 year-old mother of two, who lives in Duxbury, Mass., researched options to slow the progress of the disease. The methods she had been trying were invasive, often with side effects of their own.
An estimated 2.2 million Americans will travel abroad for medical care in 2020.
Then she stumbled upon autologous hematopoietic stem cell transplantation (AHSCT), an experimental and controversial procedure that uses the patient's own stem cells to try to halt the progress of the disease. The FDA has not approved this procedure and last year issued a warning about unapproved stem cell therapies.
Despite the lack of established science, Snell weighed her options and decided she would undergo the procedure at Clinica Ruiz, a private clinic in Puebla, Mexico, which boasts of the largest volume of cases in the world using the procedure to treat MS. In April 2018, she went to Mexico for treatment, returned home in a month, and continues to do well.
But a positive outcome is far from assured, says Sheldon Krimsky, adjunct professor in the Department of Public Health and Community Medicine at the Tufts School of Medicine.
"Often you can't get a good sense of what the quality of treatment is in another country," Krimsky says, adding that many companies promise procedures whose results have not been clinically validated. "Unfortunately, people are very easily persuaded by hope."
Traveling for Medical Care
Snell is one of many Americans who have traveled abroad to access medical care. Patients Beyond Borders, a medical tourism consultancy, estimates that 2.2 million Americans will do so in 2020. A 2018 BCC report projected a five-year compounded annual industry growth rate of 13.2 percent. Adding to the demand is the aging population, which is expected to reach 95 million people by 2060 – nearly double the number in 2018.
While Snell traveled to Mexico to try a procedure that was not yet available in the United States, other patients do so for a variety of reasons, primarily cost and speed of access. For example, despite having "pretty good insurance coverage," Washington resident Soniya Gadgil needed dental procedures that would have cost thousands of dollars out-of-pocket. An India native, she decided to travel to Pune, India to visit her parents -- and while there, she got the two root canals and implant that she needed. Gadgil saved 60 percent on the final bill.
Leaving the country for medical care is not restricted to dental work or FDA-banned procedures either. Patients visit countries around the world — South America, Central America, and the Caribbean top the list — for a number of other problems, such as knee and hip replacements and bariatric operations. The most common procedures sought abroad are for dentistry, cosmetic surgery, and cardiac conditions.
Traveling abroad to access less expensive procedures is a damning indictment of healthcare delivery in the United States, says Dr. Leigh Turner, associate professor at the Center for Bioethics at the University of Minnesota. "We have people who are being forced out of the system because of high costs. Collectively it suggests a real structural problem in terms of the organization of healthcare in the United States," Turner says.
The Growth of the Online Marketplace
Nevertheless, medical tourism is booming and a number of online businesses now meet patients' demand for discovery and facilitation of medical care abroad, like PlanMyMedicalTrip.com, Doctoorum.com, and Wellness Travels.
Anurav Rane, CEO and Founder of PlanMyMedicalTrip.com, says the company presents each potential client with options, a la Expedia. A knee replacement in India costs $2,500, a significantly cheaper option even with a $1,110 round-trip airfare from the United States, Rane says. The average cost for an inpatient total knee replacement in the United States in 2019 was a little more $30,000.
Once the client chooses a specific procedure at a specific hospital, the company facilitates the necessary groundwork including the medical visa, tickets, hotel stay, booking the procedure and pre and post-op stay, and consults with the surgeons or doctors even before arrival. "The hassle of planning is on us," Rane says. Once patients are settled in the accommodations, they undergo the procedure.
Playing in the Legal Shadows
The online marketplace companies and the medical team execute an orchestrated dance – but what happens if the patient is harmed during or after the procedure?
Turner says that medical malpractice, if it occurs, can be difficult to pursue abroad. "There are countries where the courts are notoriously slow and it's very difficult to get any kind of meaningful action and settlements," he says, even if the claims have a legitimate basis.
The industry's biggest challenge is trust.
Snell signed a waiver absolving her surgeons in Mexico of any legal claims. But, she points out, that's standard process even for procedures in the United States. "I signed just as many waivers as I would going into any surgery [in the US]."
While that might well be true, Turner argues, Americans don't waive legal rights when they sign consent forms. "There are some protections for patients here in the United States."
Beyond U.S. Medical Tourism
As expected, it's not just Americans who travel abroad for medical care. Lithuania-based Wellness Travels sees a significant percentage of its clients from the EU. PlanMyMedicaltrip.com has 15,000 surgeons and doctors from 12 countries in its database. Egypt-based Doctoorum works with professionals in its own country and attracts clients from the Middle East. It is looking to expand to include doctors from Jordan and India, among other countries.
The term "tourism" is misleading here because it muddies the picture about what post-op should really look like, says Gediminas Kondrackis of Wellness Travels. "Unfortunately a lot of medical travel facilitators mislead their clients by advertising beach holiday packages and the like. Post-op is really about quiet recovery inside for a few days; being out in the sun is not advisable."
The industry's biggest challenge is trust. "The dentist I went to is actually a friend of mine who has a successful practice for several years," says Gadgil, the Washington resident who had dental work done in India. "I'd hesitate to go to someone I don't know or to a place I have no experience with." Her apprehensions are not unusual. After all, anxiety is an expected reaction to any surgery. Word-of-mouth, cost savings, and thorough research may alleviate some of these trust issues.
"I had natural apprehensions and would have had them had I gone up the road to Brigham and Women's (in Boston) just as I did over the border," Snell says, "but I had done my homework extensively. That took a lot of the fear out of it."
Medical tourism will only increase, predicts Kondrackis. "There is still a lot of room to grow. Higher numbers of medical travelers could help reduce the strain on local healthcare systems by reducing wait times and controlling costs."
While patients who have benefited from medical tourism swear by it, the best cure would be to start at home by establishing healthcare equity, Krimsky says.
On the flip side, says Turner, it is debatable whether medical tourism actually benefits host countries, where local residents might get priced out of procedures at these exclusive clinics. Even if laws in host countries such as India might mandate "charity care" for poorer local patients, that does not always happen, Turner says. The trickle-down theory that these more expensive clinics will broaden access to care is often a pipe dream, he adds.
While patients who have benefited from medical tourism swear by it, the best cure would be to start at home by establishing healthcare equity, Krimsky says. "Now if we had universal healthcare in the United States," he adds, "that would be an entirely different story."
Or maybe not. Rane, of PlanMyMedicalTrip.com, has observed an influx of patients to India from Canada, a country with universal healthcare.
The reason they say they travel for care? Long wait times for procedures.
Gene Transfer Leads to Longer Life and Healthspan
In August, a study provided the first proof-of-principle that genetic material transferred from one species to another can increase both longevity and healthspan in the recipient animal.
The naked mole rat won’t win any beauty contests, but it could possibly win in the talent category. Its superpower: fighting the aging process to live several times longer than other animals its size, in a state of youthful vigor.
It’s believed that naked mole rats experience all the normal processes of wear and tear over their lifespan, but that they’re exceptionally good at repairing the damage from oxygen free radicals and the DNA errors that accumulate over time. Even though they possess genes that make them vulnerable to cancer, they rarely develop the disease, or any other age-related disease, for that matter. Naked mole rats are known to live for over 40 years without any signs of aging, whereas mice live on average about two years and are highly prone to cancer.
Now, these remarkable animals may be able to share their superpower with other species. In August, a study provided what may be the first proof-of-principle that genetic material transferred from one species can increase both longevity and healthspan in a recipient animal.
There are several theories to explain the naked mole rat’s longevity, but the one explored in the study, published in Nature, is based on the abundance of large-molecule high-molecular mass hyaluronic acid (HMM-HA).
A small molecule version of hyaluronic acid is commonly added to skin moisturizers and cosmetics that are marketed as ways to keep skin youthful, but this version, just applied to the skin, won’t have a dramatic anti-aging effect. The naked mole rat has an abundance of the much-larger molecule, HMM-HA, in the chemical-rich solution between cells throughout its body. But does the HMM-HA actually govern the extraordinary longevity and healthspan of the naked mole rat?
To answer this question, Dr. Vera Gorbunova, a professor of biology and oncology at the University of Rochester, and her team created a mouse model containing the naked mole rat gene hyaluronic acid synthase 2, or nmrHas2. It turned out that the mice receiving this gene during their early developmental stage also expressed HMM-HA.
The researchers found that the effects of the HMM-HA molecule in the mice were marked and diverse, exceeding the expectations of the study’s co-authors. High-molecular mass hyaluronic acid was more abundant in kidneys, muscles and other organs of the Has2 mice compared to control mice.
In addition, the altered mice had a much lower incidence of cancer. Seventy percent of the control mice eventually developed cancer, compared to only 57 percent of the altered mice, even after several techniques were used to induce the disease. The biggest difference occurred in the oldest mice, where the cancer incidence for the Has2 mice and the controls was 47 percent and 83 percent, respectively.
With regard to longevity, Has2 males increased their lifespan by more than 16 percent and the females added 9 percent. “Somehow the effect is much more pronounced in male mice, and we don’t have a perfect answer as to why,” says Dr. Gorbunova. Another improvement was in the healthspan of the altered mice: the number of years they spent in a state of relative youth. There’s a frailty index for mice, which includes body weight, mobility, grip strength, vision and hearing, in addition to overall conditions such as the health of the coat and body temperature. The Has2 mice scored lower in frailty than the controls by all measures. They also performed better in tests of locomotion and coordination, and in bone density.
Gorbunova’s results show that a gene artificially transferred from one species can have a beneficial effect on another species for longevity, something that had never been demonstrated before. This finding is “quite spectacular,” said Steven Austad, a biologist at the University of Alabama at Birmingham, who was not involved in the study.
Just as in lifespan, the effects in various organs and systems varied between the sexes, a common occurrence in longevity research, according to Austad, who authored the book Methuselah’s Zoo and specializes in the biological differences between species. “We have ten drugs that we can give to mice to make them live longer,” he says, “and all of them work better in one sex than in the other.” This suggests that more attention needs to be paid to the different effects of anti-aging strategies between the sexes, as well as gender differences in healthspan.
According to the study authors, the HMM-HA molecule delivered these benefits by reducing inflammation and senescence (cell dysfunction and death). The molecule also caused a variety of other benefits, including an upregulation of genes involved in the function of mitochondria, the powerhouses of the cells. These mechanisms are implicated in the aging process, and in human disease. In humans, virtually all noncommunicable diseases entail an acceleration of the aging process.
So, would the gene that creates HMM-HA have similar benefits for longevity in humans? “We think about these questions a lot,” Gorbunova says. “It’s been done by injections in certain patients, but it has a local effect in the treatment of organs affected by disease,” which could offer some benefits, she added.
“Mice are very short-lived and cancer-prone, and the effects are small,” says Steven Austad, a biologist at the University of Alabama at Birmingham. “But they did live longer and stay healthy longer, which is remarkable.”
As for a gene therapy to introduce the nmrHas2 gene into humans to obtain a global result, she’s skeptical because of the complexity involved. Gorbunova notes that there are potential dangers in introducing an animal gene into humans, such as immune responses or allergic reactions.
Austad is equally cautious about a gene therapy. “What this study says is that you can take something a species does well and transfer at least some of that into a new species. It opens up the way, but you may need to transfer six or eight or ten genes into a human” to get the large effect desired. Humans are much more complex and contain many more genes than mice, and all systems in a biological organism are intricately connected. One naked mole rat gene may not make a big difference when it interacts with human genes, metabolism and physiology.
Still, Austad thinks the possibilities are tantalizing. “Mice are very short-lived and cancer-prone, and the effects are small,” he says. “But they did live longer and stay healthy longer, which is remarkable.”
As for further research, says Austad, “The first place to look is the skin” to see if the nmrHas2 gene and the HMM-HA it produces can reduce the chance of cancer. Austad added that it would be straightforward to use the gene to try to prevent cancer in skin cells in a dish to see if it prevents cancer. It would not be hard to do. “We don’t know of any downsides to hyaluronic acid in skin, because it’s already used in skin products, and you could look at this fairly quickly.”
“Aging mechanisms evolved over a long time,” says Gorbunova, “so in aging there are multiple mechanisms working together that affect each other.” All of these processes could play a part and almost certainly differ from one species to the next.
“HMM-HA molecules are large, but we’re now looking for a small-molecule drug that would slow it’s breakdown,” she says. “And we’re looking for inhibitors, now being tested in mice, that would hinder the breakdown of hyaluronic acid.” Gorbunova has found a natural, plant-based product that acts as an inhibitor and could potentially be taken as a supplement. Ultimately, though, she thinks that drug development will be the safest and most effective approach to delivering HMM-HA for anti-aging.
A new study provides key insights in what causes Alzheimer's: a breakdown in the brain’s system for clearing waste.
In recent years, researchers of Alzheimer’s have made progress in figuring out the complex factors that lead to the disease. Yet, the root cause, or causes, of Alzheimer’s are still pretty much a mystery.
In fact, many people get Alzheimer’s even though they lack the gene variant we know can play a role in the disease. This is a critical knowledge gap for research to address because the vast majority of Alzheimer’s patients don’t have this variant.
A new study provides key insights into what’s causing the disease. The research, published in Nature Communications, points to a breakdown over time in the brain’s system for clearing waste, an issue that seems to happen in some people as they get older.
Michael Glickman, a biologist at Technion – Israel Institute of Technology, helped lead this research. I asked him to tell me about his approach to studying how this breakdown occurs in the brain, and how he tested a treatment that has potential to fix the problem at its earliest stages.
Dr. Michael Glickman is internationally renowned for his research on the ubiquitin-proteasome system (UPS), the brain's system for clearing the waste that is involved in diseases such as Huntington's, Alzheimer's, and Parkinson's. He is the head of the Lab for Protein Characterization in the Faculty of Biology at the Technion – Israel Institute of Technology. In the lab, Michael and his team focus on protein recycling and the ubiquitin-proteasome system, which protects against serious diseases like Alzheimer’s, Parkinson’s, cystic fibrosis, and diabetes. After earning his PhD at the University of California at Berkeley in 1994, Michael joined the Technion as a Senior Lecturer in 1998 and has served as a full professor since 2009.
Dr. Michael Glickman