Leukemia can be a terrifying diagnosis for the more than 60,000 U.S. patients who are told they have this blood cancer every year. But the treatment for this disease can be just as frightening. For patients with certain forms of leukemia, the only chance they have for a cure is to receive a massive dose of radiation and chemotherapy that kills their hematopoietic stem cells (HSCs), the cells responsible for making new blood, and then receive new HSCs from a healthy donor.
While patients are waiting for these new cells to go to the bone marrow factory and begin churning out new blood cells, patients are left without an immune system. Devoid of working HSCs for two to four weeks--or longer, if a first transplant doesn't take--patients are vulnerable to infections that can be just as deadly as their original cancer diagnosis.
As they wait in the protected confines of a hospital, patients who undergo HSC transplants receive blood tests every day to gauge successful engraftment, searching for the presence of immune cells called neutrophils, explains Kirsten M. Williams, M.D., blood and bone marrow transplant specialist at Children's National Health System.
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"As you head into week three post-transplant and a patient's cell counts remain at zero, everyone starts to get nervous," Dr. Williams says. The longer a patient goes without an immune system, the higher the chance that they'll develop a life-threatening infection. Until recently, Dr. Williams says, there has been no way beyond those daily blood tests to assess whether the newly infused cells have survived and started to grow early healthy cells in the bone marrow, a process called engraftment.
A new study could change that paradigm. Research published online Dec. 13, 2017, by The Lancet Haematology and co-led by Dr. Williams suggests that a new imaging agent can safely show engraftment as early as days after transplant--giving a helpful and hopeful preview to patients and their doctors.
The study evaluated an investigational imaging test called 18F-fluorothymidine (18F-FLT). It's a radio-labeled analogue of thymidine, a natural component of DNA. Studies have shown that this compound is incorporated into just three white blood cell types, including HSCs. Because it's radioactive, it can be seen on various types of common clinical imaging exams, such as positron emission tomography (PET) and computed tomography (CT) scans. Thus, after infusion, the newly infused developing immune system and marrow is readily visible.
