Thursday, November 21, 2024

Predicting lymphoma patients’ treatment outcomes

Cedars-Sinai Cancer Investigators Discover New Way to Predict How Patients With an Immune-System Cancer Will Fare After Bone Marrow Transplant

(Newswise) — LOS ANGELES — Cedars-Sinai Cancer investigators have discovered a new way to predict whether a cancer of the immune system will recur in patients treated with a bone marrow transplant. Their study, published in the peer-reviewed Journal of Clinical Oncology, is the first to use a novel technique called spatial profiling to predict patient outcomes, and could lead to more precisely targeted treatment.

“Our method of predicting how Hodgkin lymphoma patients will respond to treatment was more accurate than the most advanced method in current use,” said Akil Merchant, MD, co-director of the Lymphoma Program at Cedars-Sinai and co-senior author of the study. “Our paper is also one of the first to show that this leading-edge technique can be adapted for a clinical setting—a finding that can potentially be used across cancer types.”

Hodgkin lymphoma is a cancer that affects the lymphatic system, a network of organs and tissues—including the bone marrow, lymph nodes and mucous membranes—that helps protect the body from infection.

 

Akil Merchant, MD, led a research team at Cedars-Sinai that discovered a new way to predict how Hodgkin lymphoma patients will respond to bone marrow transplant. (Cedars-Sinai)

To treat Hodgkin lymphoma, doctors commonly perform a stem cell transplant, using healthy blood stem cells from the patient’s own body, to help the bone marrow recover and to create new immune cells that can fight the cancer cells.

“Our new test, developed at Cedars-Sinai, allows us to identify a group of patients who will likely remain disease-free after this stem cell transplant,” Merchant said. “For these post-transplant patients, the goal is to end subsequent treatments, sparing them from additional therapy with potentially life-threatening side-effects. Our findings could also help us design clinical trials to identify therapies to help patients not cured by their transplant.”

In this study, done in collaboration with Christian Steidl, MD, PhD, of British Columbia Cancer, investigators analyzed biopsies from 169 patients with Hodgkin lymphoma. They compared the cells and tissues immediately surrounding tumors from patients cured by bone marrow transplant with those from patients whose cancer returned following transplant.

By looking at the distance between the cancerous cells and other cell types, they were able to predict how the cancer would respond to a transplant using the patient’s own stem cells.
“Our study made use of massive datasets combined with machine learning that enabled us to focus on two or three key data points that could be used in a clinical test,” Merchant said. “The test could be widely used to predict which patients are at high risk for relapse after transplant and allow clinicians to tailor their therapy accordingly.”

Alexander Xu, PhD, research scientist at Cedars-Sinai Cancer and co-first author of the study emphasized the value of such a quantitative tool. “Diagnosis and prediction often involve judgment calls. Because our study is quantitative, it will be important in maintaining consistent results from patient to patient and clinic to clinic,” Xu said.

The investigators are exploring creation of such a test. They are also pursuing projects to identify similar predictive tests for other types of cancer.

“This work opens new avenues for the development of spatial biomarkers that can guide treatment of cancer patients in a precise, targeted way,” said Dan Theodorescu, MD, PhD, director of Cedars-Sinai Cancer and the PHASE ONE Distinguished Chair. “Translation of this leading-edge research to a test that can be clinically deployed will help bring the promise of precision medicine to increasing numbers of patients—and will eventually benefit patients with many cancer types.”

Funding: The study is supported by Terry Fox Research Institute Program Project Grants 1061 and 1108; Genome Canada Large Scale Applied Research Project grant 13124; Genome BC grant 271LYM; Canadian Institutes of Health Research grant GP1-155873 and Foundation grant 148393; Canadian Cancer Society Research Institute grant 705288; the BC Cancer Foundation; Paul G. Allen Frontiers Group Distinguished Investigator grant 12829; the Japanese Society for The Promotion of Science; the Uehara Memorial Foundation; the Lymphoma Research Foundation; The Kanae Foundation for the Promotion of Medical Science; and a Lymphoma Research Foundation Lymphoma Scientific Research Mentoring Program scholarship.

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