“In addition to our endometrial regenerative cell (ERC) universal donor stem cell technology, for which an IND has been filed, Medistem has been committed to developing a pipeline of therapeutic products, including in the area of immune modulation” Said Thomas Ichim, CEO of Medistem. “Given our previous observations and IP filings that a stem cell-rich component of adipose tissue, called the Stromal Vascular Fraction, can concurrently immune modulate, while inducing regenerative activities, we are pleased to see the clinical translation of this approach into multiple sclerosis patients.”
Multiple sclerosis affects approximately 400,000 Americans and is characterized by immunological attack on the myelin sheath that surrounds the core of the nerve fibers and facilitates the transmission of nerve impulses in the nervous system. Currently use of stem cells for this disease involves extraction of bone marrow and suppression of the patient’s immune system. The therapy described in the publication circumvents need for immune suppression and uses a simple liposuction procedure that is currently performed in thousands of plastic surgery clinics worldwide.
“Our collaborator in this publication, Dr. Robert Harman CEO of Vet-Stem (www.vet-stem.com), has treated over 3500 horses and 1,500 dogs with fat derived stem cells for inflammatory conditions such as osteoarthritis immune-mediated polyarthritis. The current work is an excellent example of veterinary findings being translated into human medicine” Stated Dr. Boris Minev, faculty at the University of California San Diego, who was senior author of the paper.
The publication, entitled “Non-expanded adipose stromal vascular fraction cell therapy for multiple sclerosis” appeared today in the Journal of Translational Medicine, and was a collaboration between scientists and clinicians from Medistem, the University of Western Ontario, Hospital CIMA, Indiana University, Cell Medicine Institutes, University of California San Diego, and University of Utah.
About Medistem Inc.
Medistem Inc. is a biotechnology company founded to develop and commercialize technologies related to adult stem cell extraction, manipulation, and use for treating inflammatory and degenerative diseases. The company's lead product, the endometrial regenerative cell (ERC), is a "universal donor" stem cell derived from the menstrual blood that possesses the ability to differentiate into nine tissue types, produce large quantities of growth factors, and a large proliferative capacity. A peer reviewed publication describing this novel cell type may be found at http://www.translational-medicine.com/content/5/1/57. The company is currently focusing on use of endometrial regenerative cells for treatment of critical limb ischemia, an advanced form of peripheral artery disease that causes approximately 160,000 amputations per year.
For further information on Medistem Inc.,
visit http://www.medisteminc.com
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