Acute lymphoblastic leukemia (ALL) is a blood cancer that emerges from white blood cells called lymphocytes found in the bone marrow. It can affect both adults and children. However, most cases involve the younger population.
In fact, about 3,000 children in the United States alone are diagnosed with ALL each year, according to the Children's Hospital of Los Angeles.
Chemotherapy is the primary treatment for this blood cancer, and although experts agree that it can be effective, such treatment entails various side effects,
It is also worth noting that in one-tenth of cases, ALL is resistant to this treatment, making it more challenging for health experts or scientists to find ways to combat this acute blood cancer.
Now, a teenager from Britain who has resistant leukemia just became the first patient to receive a novel therapy and went into remission, according to a report by AFP.
Novel Treatment
Alyssa, 13 years old, was diagnosed with T-cell ALL last year. Her condition was resistant to several treatments such as bone marrow transplant and chemotherapy.
She then took part in a clinical trial for a novel treatment at London's Great Ormond Street Hospital for Children (Gosh) by employing genetically engineered immune cells from a volunteer who was deemed healthy.
And in less than a month, her leukemia was in remission, paving the way for her to have another bone marrow transplant to recover and strengthen her immune system once again.
She is now in her six months of remission. According to Dr. Robert Chiesa, a Gosh consultant, her case was "quite remarkable," but they noted that the results would have to undergo confirmation and monitoring in the coming months.
Base-edited T Cells
ALL attacks cells in the immune system, particularly the B and T cells, which protect the body against viruses.
Gosh noted that Alyssa was the first patient ever to receive base-edited T cells, a process that entails chemically altering single nucleotide bases or DNA code letters containing instructions for a particular protein.
AFP reports that in 2015, Gosh and University College London researchers contributed to developing genome-edited T cells to treat B-cell leukemia.
However, the scientists faced a problem treating some other types of leukemia because T cells created to identify and combat malignant cells ended up killing one another during the manufacturing process. Various DNA changes were required to the base-edited cells, so they don't harm each other and effectively attack cancerous cells.
The findings were presented at the American Society of Hematology annual meeting, as per AFP.
Related Article : Research say Eating More Meat Poses Higher Risk for Overall Cancer-How Accurate Is It?
