BrainStorm Cell Therapuetics is currently launching a Phase II clinical trial utilizing mesenchymal stem cells (MSCs) that are cultured to develop into neurological components able to treat progressive multiple sclerosis (MS). The proprietary technology called NurOwn uses a patient’s own (autologous) MSCs that are modified outside of the body and returned to repair and support neurons that are attacked in patients with MS. The stem cells are modified to produce growth factors, which support neurons and enhance differentiation and survival of neural cells.
A team of researchers at the Hadassah Medical Center in Israel has developed a unique method of applying a patient’s own stem cells to restore mobility following progressive multiple sclerosis (MS). MS is an autoimmune disorder in which the body attacks its own neurons and affects millions of people worldwide. Severely progressive MS leads to complete loss of limb function, memory problems, seizures, and even systemic organ failure. This groundbreaking, double-blind, Phase II clinical trial successfully administered autologous (the patient’s own) mesenchymal stem cells, which were cultured and expanded to clinically significant numbers, and then applied directly into the spinal fluid. The treatment simultaneously addressed the two problems of MS - inflammatory immune response and the destruction of the outer coating of neurons that allows for quick signal transduction thereby engendering a significant increase in efficacy.
Researchers from Imperial College London, led by Dr. Paolo Muraro, have refined a stem cell treatment for Multiple Sclerosis (MS); using the patient’s own stem cells to reset the immune system and “freeze” the disease. MS is a disease in which the body’s immune system attacks the protective sheath (myelin) that covers nerve fibers thereby causing communication disruptions between the brain and the rest of the body. The treatment works by first recovering healthy stem cells from the patient and then, using high-dose chemotherapy to kill the remaining damaged immune cells. Reintroducing the recovered stem cells into the patient’s body reboots the immune system and halts the disease.