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Researchers presenting preliminary data from a clinical trial aimed at discovering a cure for sickle cell disease reveal positive results among its first patients.
Sickle cell disease, a genetic blood disorder, is a painful and debilitating condition for which there are few approved therapies.
Researchers involved in the multicenter RUBY Trial presented an update on the safety and effectiveness of a single dose of EDIT-301, an experimental one-time gene editing cell therapy that modifies a patient’s own blood-forming stem cells to correct the mutation responsible for sickle cell disease. Results were presented at the European Hematology Association Hybrid Congress in Frankfurt, Germany.
The first four patients, two of whom are participating in the RUBY trial at Cleveland Clinic Children’s, had their stem cells collected for gene editing. The patients then underwent chemotherapy treatment to destroy their remaining bone marrow, making room for the repaired cells that were later infused back into their body.
This is the first time a novel type of CRISPR gene-editing technology – known as CRISPR/CA12 – is being used to edit human cells in a clinical trial. This technology is a highly precise tool to modify blood stem cells genomes that can potentially enable robust, healthy blood cell production.
The data showed new white blood cells in all four patients at about four weeks with no severe adverse effects. Patients also achieved a normal level of hemoglobin, which is the most important component of red blood cells that carry oxygen throughout the body. The patients also have been free of sickle cell disease’s associated pain attacks for a period of 11 months and seven months following therapy.
“New treatments like this are critical for people who have sickle cell disease,” said Rabi Hanna, M.D., director of the pediatric blood and bone marrow transplant program at Cleveland Clinic Children’s and principal investigator at Cleveland Clinic Children’s. “These initial results provide hope that this new technology will continue to show progress as we work toward creating a possible functional cure for this devastating and life-threatening disease.”
| Gene Therapy Aims To Stop Progression Of Sickle Cell Disease, Brings Hope To Patients | |
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| Gene Therapy Aims To Stop Progression Of Sickle Cell Disease, Brings Hope To Patients |
While there are an estimated 1 million to 3 million people in the United States who have the sickle cell trait, there are only about 100,000 people with sickle cell disease. Sickle cell trait and the disease are found more often in certain ethnic groups, including African Americans. In the United States, about one in 365 African American babies have sickle cell disease.
Sickle cell disease is an inherited blood disorder that leads to the production of abnormal hemoglobin, which is a red protein responsible for transporting oxygen in the blood. Normal red blood cells are round and can move through small blood vessels to deliver oxygen. However, in people with sickle cell disease, the genetic change in DNA causes a chemical alteration in hemoglobin and alters the shape of red blood cells into a sickle, blocking them from passing through narrow blood vessels. They can clog or break apart which also leads to decreased red blood cell life, and increased iron storage in the liver and heart. This can cause conditions such as liver fibrosis, liver failure, stroke, cardiomyopathy and heart failure along with severe pain.
For most people with the condition, medications can modify disease severity and treat symptoms. However, despite current therapies, the average life of a sickle cell patient, is in the mid 40s. A blood or marrow transplant can cure sickle cell disease, but the transplant often requires a sibling donor and has the potential for severe graft-versus-host disease, which is when donor bone marrow or stem cells attack the recipient.
The RUBY Trial aims to enroll 40 adult patients, ages 18 to 50, with severe sickle cell disease. Patients will be monitored closely after treatment for up to two years.
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Cleveland Clinic is a nonprofit multispecialty academic medical center that integrates clinical and hospital care with research and education. Located in Cleveland, Ohio, it was founded in 1921 by four renowned physicians with a vision of providing outstanding patient care based upon the principles of cooperation, compassion and innovation. Cleveland Clinic has pioneered many medical breakthroughs, including coronary artery bypass surgery and the first face transplant in the United States. U.S. News & World Report consistently names Cleveland Clinic as one of the nation’s best hospitals in its annual “America’s Best Hospitals” survey. Among Cleveland Clinic’s 72,500 employees worldwide are more than 5,050 salaried physicians and researchers, and 17,800 registered nurses and advanced practice providers, representing 140 medical specialties and subspecialties. Cleveland Clinic is a 6,500-bed health system that includes a 173-acre main campus near downtown Cleveland, 21 hospitals, more than 220 outpatient facilities, including locations in northeast Ohio; southeast Florida; Las Vegas, Nevada; Toronto, Canada; Abu Dhabi, UAE; and London, England. In 2021, there were 10.2 million total outpatient visits, 304,000 hospital admissions and observations, and 259,000 surgical cases throughout Cleveland Clinic’s health system. Patients came for treatment from every state and 185 countries. Visit us at clevelandclinic.org. Follow us at twitter.com/ClevelandClinic. News and resources available at newsroom.clevelandclinic.org.
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