Survivor: This Woman’s Battle With Leukemia Is Pointing The Way To The Future Of Healthcare
In the spring of 2016, 32-year-old Nicole Gularte grew weak and lost her ability to see colors from her left eye. She knew that her leukemia had returned.
Gularte’s form of the disease was called acute lymphoblastic leukemia, or ALL. She had been in an exhausting on-and-off battle with cancer for six years, and she was desperate to avoid yet another debilitating round of chemotherapy. She wasn’t particularly thrilled when doctors told her they had gotten lucky and found two nearly perfect bone marrow matches. Long-term studies have shown that nearly half of leukemia patients who receive a bone marrow transplant die or relapse within two years.
The story of what she did next offers a fascinating look into the future of cancer treatment. She rejected the transplant and opted to let the relapse of her ALL take full hold. That allowed her to enroll in a clinical trial of a promising new cancer treatment called CAR T-cell therapy that was run by the University of Pennsylvania and Children’s Hospital of Philadelphia. “I called UPenn,” Gularte says. She made her circumstances clear to the doctors, telling them: “I’ve given up a 10-out-of-10 bone marrow transplant so I can relapse so I can qualify for your CAR-T trial.”
In cell therapy, doctors remove some of a patient’s T-cells, the immune cells that fight against infection, reprogram them to fight and kill cancer, then put them back into the patient. Developed by doctors at Children’s Hospital of Philadelphia, the treatment gained prominence after it saved a young girl named Emily Whitehead in 2012. It’s had a 93 percent success rate in trials with patients with advanced leukemia, but it’s still a very new type of therapy. A refined version of the treatment that saved Whitehead, now called Kymriah and made by Novartis, was the first CAR T-cell therapy approved by the FDA, which in August cleared it for use in children. In October, the FDA approved a second version of CAR T-cell therapy, called Yescarta and made by Kite, to treat b-cell lymphoma for adults.
Gularte next to University of Pennsylvania’s Dr. Carl June, a leading cancer researcher. Image credit: Nicole Gularte.
Most other, similar versions of the treatments are still in the testing phase. But this new form of treatment is a welcome alternative to patients who, like Gularte, find chemo dismaying and bone-marrow transplants too uncertain. “I realized that if there was a chance of something better out there, I needed to research it and come up with my own decision,” Gularte says.
The University of Pennsylvania’s adult cell therapy trials proceeded haltingly until they gained momentum in 2016, just in time for Gularte. She gained admittance to the program, and on September 7, she received her modified T-cells. Doctors had previously removed them from her body, modified them with a virus to recognize her cancer, multiplied them and transfused them back into her body.
She spent the next few days wracked with 105.8 degrees Fahrenheit fever and suffering from several seizure-like episodes as the T-cells started fighting her disease. But her temperature soon lowered, and, on the tenth day, something surprising happened. Her eyesight, which had deteriorated during her fight with leukemia, returned.
“I was half blind in one eye, and totally color blind,” she recalls. “Then, while I was watching TV, I noticed that the girls on the screen had bright green skirts.” When she had her color vision tested, she scored 13 out of 15. Soon, her T-cell levels, which plummet when leukemia patients are battling the disease, returned to normal. She was released from the hospital.
A year later, Gularte’s T-cell activity is elevated, but she is still in remission. She’s become a passionate advocate for CAR T-cell therapy. The University of Pennsylvania’s cell therapy trial is one of more than 800 studies in gene and cell therapy currently underway globally. And based on the 80 percent complete remission rates of these trials, experts anticipate that cell therapy is poised to become a major means for fighting cancer.
Top: In 2016, Nicole Gularte entered a cell therapy trial run by the University of Pennsylvania and Children’s Hospital of Philadelphia with the hopes of fighting her acute lymphoblastic leukemia. It worked, and today her cancer is still in remission. Image credit: Nicole Gularte. Above: GE scientists and others are working to accelerate the manufacturing processes of such cell therapies at the Center for Advanced Therapeutic Cell Technologies in Toronto. Image credit: CCRM.
Tens of thousands of patients per year could be receiving the treatment by 2024, and by 2030, the cell therapy industry is expected to be worth an estimated $30 billion.
While these emerging therapies bring new hope, the process to manufacture them can be lengthy and expensive, and producing enough to meet potential demand is challenging. “Now we need to help make cell therapy affordable and scalable,” says Phil Vanek, general manager for cell therapy growth strategy at GE Healthcare Life Sciences.
GE’s cell therapy business and others are racing to provide technology and processes to make that happen. In collaboration with Center for Commercialization of Regenerative Medicine (CCRM) and the Federal Economic Development Agency for Southern Ontario, they’ve embraced a new cell therapy research and process-development facility called the Center for Advanced Therapeutic Cell Technologies, which officially opened this September in Toronto. Designed to help pharma companies, university researchers, startups and technology companies scale up manufacturing faster, the new center already employs a team of more than 30 biologists, virologists, and biomedical and other engineers, from both GE and CCRM.
“We’re transitioning into the future,” says Gularte. “It’s not just about traditional drug discovery anymore, it’s now about the innovative life sciences industry, and the ways that doctors are learning to work with the body. Cell therapy could potentially eradicate many diseases. I wanted to be part of that.”