ORLANDO – There’s now mature data surrounding the use of chimeric antigen receptor (CAR) T-cell therapy in lymphoma, and the annual meeting of the American Society of Hematology brought forth additional information from real-world studies, insights about what is driving relapse, and promising data on mantle cell lymphoma.
The roundtable participants included , of the Cleveland Clinic Taussig Cancer Center; , of the Moffit Cancer Center in Tampa, Fla.; and , of the University of Chicago.
Among the studies highlighted by the panel was the Transcend NHL 001 study (), which looked at third-line use of lisocabtagene maraleucel (liso-cel) in patients with diffuse large B-cell lymphoma, transformed follicular lymphoma, and other indolent non-Hodgkin lymphoma subtypes. More than 300 patients were enrolled, and liso-cel met all primary and secondary efficacy endpoints, with an overall response rate of more than 70%. The notable take-home point from the study was the safety profile, Dr. Riedell noted. Liso-cel was associated with a lower rate of cytokine release syndrome and neurologic toxicity, compared with the currently approved products.
Since patients in the study had a lower incidence and later onset of cytokine release syndrome, liso-cel could be a candidate for outpatient administration, Dr. Locke said. However, doing that would require “significant infrastructure” in hospitals and clinics to properly support patients, especially given that the treatment-related mortality on the study was similar to approved CAR T-cell products at about 3%. “You have to be ready to admit the patient to the hospital very rapidly, and you have to have the providers and the nurses who are vigilant when the patient is not in the hospital,” he said.
Another notable study presented at ASH examined the characteristics and outcomes of patients receiving bridging therapy while awaiting treatment with axicabtagene ciloleucel (). This real-world study adds interesting information to the field because, in some of the studies that were pivotal to the approval of CAR T-cell therapy, bridging therapy was not allowed, Dr. Locke said.
In this analysis, researchers found that the overall survival was worse among patients who received bridging. This finding suggests that patients who received bridging therapy had a different biology or that the therapy itself may have had an effect on the host or tumor microenvironment that affected the efficacy of the CAR T-cell therapy, the researchers reported.
The panel also highlighted the, which looked at KTE-X19, an anti-CD19 CAR T-cell therapy, among more than 70 patients with relapsed/refractory mantle cell lymphoma who had failed treatment with a Bruton’s tyrosine kinase inhibitor ( ). “This was, I thought, kind of a sleeper study at ASH,” said Dr. Hill, who was one of the authors of the study.
The overall response rate was 93% with about two-thirds of patients achieving a complete response. Researchers found that the response was consistent across subgroups, including Ki-67 and patients with prior use of steroids or bridging therapy. Dr. Locke, who was also a study author, said the results are a “game changer.”
“I’m very excited about it,” Dr. Riedell said, noting that these are patients without a lot of treatment options.
The panel also discussed other studies from ASH, including an analysis of tumor tissue samples from patients in thewho had responded and subsequently relapsed ( ); a multicenter prospective analysis of circulating tumor DNA in diffuse large B-cell lymphoma patients who had relapsed after treatment with axicabtagene ciloleucel ( ); and the early use of corticosteroids to prevent toxicities in patients in cohort 4 of the ZUMA-1 trial ( ).
Dr. Hill reported consulting with Juno/Celgene/BMS and Novartis and research and consulting for Kite/Gilead. Dr. Locke reported consulting for Cellular Biomedicine Group and being a scientific adviser to Kite/Gilead, Novartis, Celgene/BMS, GammaDelta Therapeutics, Calibr, and Allogene. Dr. Riedell reported consulting for Bayer and Verastem, consulting for and research funding from Novartis and BMS/Celgene, and consulting for, research funding from, and speaking for Kite.