Global Quest to Cut CAR T Costs
In the United States, a stand-alone device could greatly reduce the expense of producing modified immune cells. In India, researchers hope homegrown technology is the key to getting costs under control. In Latin America, a partnership between the Brazilian government and a US nonprofit may be just the ticket.
At stake is expanded access to CAR T-cell therapy, a form of immunotherapy that in just the past few years has revolutionized the care of hematologic cancers.
“Among patients with lymphoma, leukemia, and myeloma, anywhere between 30% to 50% reach long-term remission after one CAR T-cell infusion,” Mayo Clinic–Rochester hematologist/oncologist Saad J. Kenderian, MB, ChB, said in an interview. “It’s such an important therapy.”
However, only a small percentage of eligible patients in the United States — perhaps 20% or fewer — are receiving the treatment, he added.
A 2024 report suggested that many patients in the United States who may benefit aren’t being treated because of a range of possible reasons, including high prices, manufacturing logistics, and far distance from the limited number of institutions offering the therapy.
“Taken together, the real-world cost of CAR T-cell therapy can range from $700,000 to $1 million, which may make the treatment unaffordable to those patients without robust financial and/or social support,” the report authors noted.
Outside Western countries, access to the therapy is even more limited, because of its exorbitant price. The 2024 report noted that “there is a wide use of CAR T-cell therapy in Europe and China, but access is limited in developing countries in Southeast Asia, Africa, and Latin America.”
Harnessing the Power of T-Cells
Several types of CAR T-cell therapy have been approved by the US Food and Drug Administration (FDA) for patients with relapsed/refractory blood cancers such as follicular lymphoma, large B-cell lymphoma, multiple myeloma, and B-cell precursor acute lymphoblastic leukemia. A 2023 review analyzed clinical trials and reported that complete response rates were 40%-54% in aggressive B-cell lymphoma, 67% in mantle cell lymphoma, and 69%-74% in indolent B-cell lymphoma.
Pediatric hematologist/oncologist Kirsten Williams, MD, who specializes in pediatric blood and marrow transplant and cellular therapy at the Aflac Cancer and Blood Disorders Center of Children’s Healthcare of Atlanta, described CAR T-cell therapy as “a very unique form of immunotherapy” that harnesses the power of the immune system’s T-cells.
These cells are effective tumor killers, but they typically aren’t assigned to control cancer, she said in an interview. “We have very few of them, and most of our T cells are focused on killing various viruses,” she said. The therapy “allows us to take the T cell that would have killed the flu or mono and instead target leukemia, B-cell leukemia, or lymphoma.”
As she explained, “T cells are collected by a machine that reserves white blood cells and gives back the rest of the blood to the patient. We insert a gene into the T cells that encodes for a B-cell receptor. This receptor acts as a GPS signal, pulling T cells to the cancer so that they can kill it.”
In addition, “with this genetic change, we also add some things that allow the T cell to be stronger, to have a higher signal to kill the cancer cell once it locks on.”
The therapy is unique for each patient, Dr. Williams said. “We have collected and modified your specific T cells, and they can now only be infused into you. If we try to give your product to someone else, those cells would either cause harm by attacking the patient or would be immediately killed by that patient’s own immune system. This is very different than all the other kinds of therapies. When you take other medicines, it doesn’t matter who receives that pill.”
