StemCells (STEM) Reports Encouraging Data for HuCNS-SC in PMD Patients
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StemCells, Inc. (Nasdaq: STEM) today announced preliminary evidence of progressive and durable donor-cell derived myelination in all four patients who underwent transplantation with the Company's proprietary HuCNS-SC cells (purified human neural stem cells) in its clinical trial for Pelizaeus-Merzbacher disease (PMD), a rare hypo-myelination disorder in children. In addition, clinical assessment revealed small but measureable gains in motor and/or cognitive function in three of the four patients; the fourth patient remained clinically stable. The study was conducted by researchers at the University of California, San Francisco (UCSF).
A summary of the trial results were presented Saturday, March 31, at the 2012 European Leukodystrophy Association (ELA) Families/Scientists Meeting in Paris. The findings are being submitted for publication in a peer-reviewed scientific journal.
Patients with PMD have a defective gene, which leads to insufficient myelin in the brain. The disease occurs only in males, and those with the most severe form of the disease, connatal PMD, are significantly disabled from birth and usually die, within the first decade of life. The study was the first to test transplantation of neural stem cells as a potential treatment for a myelination disorder. Myelin is the substance that surrounds and insulates nerve cells' communications fibers (also known as axons). Without sufficient myelination, these fibers are unable to properly transmit nerve impulses, leading to a progressive loss of neurological function, and death.
The open-label Phase I trial, conducted between February 2010 and February 2012, enrolled four patients with the connatal form of PMD, between the ages of 14 months and 5 years, and was designed to assess safety and preliminary efficacy of the intervention. The study used magnetic resonance (MR) imaging, commonly employed in other neurological diseases, to explore signs of myelination related to the transplanted neural stem cells. The HuCNS-SC transplants were surgically delivered to multiple sites within the frontal lobes of the brain. Patients also received immunosuppression for nine months following transplantation and underwent intensive follow-up neurological assessments and MR imaging for twelve months following transplantation. A separate four-year observational study will continue to monitor and report the future progress for all four patients.
At the one-year interval, MR imaging showed changes compatible with increased myelination in the region of the transplantation. The MR signs of myelination persisted after the withdrawal of immunosuppression at nine months and were also found to progress over time. The development of new myelin signals is unprecedented in patients with connatal PMD and is consistent with HuCNS-SC engraftment.
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A summary of the trial results were presented Saturday, March 31, at the 2012 European Leukodystrophy Association (ELA) Families/Scientists Meeting in Paris. The findings are being submitted for publication in a peer-reviewed scientific journal.
Patients with PMD have a defective gene, which leads to insufficient myelin in the brain. The disease occurs only in males, and those with the most severe form of the disease, connatal PMD, are significantly disabled from birth and usually die, within the first decade of life. The study was the first to test transplantation of neural stem cells as a potential treatment for a myelination disorder. Myelin is the substance that surrounds and insulates nerve cells' communications fibers (also known as axons). Without sufficient myelination, these fibers are unable to properly transmit nerve impulses, leading to a progressive loss of neurological function, and death.
The open-label Phase I trial, conducted between February 2010 and February 2012, enrolled four patients with the connatal form of PMD, between the ages of 14 months and 5 years, and was designed to assess safety and preliminary efficacy of the intervention. The study used magnetic resonance (MR) imaging, commonly employed in other neurological diseases, to explore signs of myelination related to the transplanted neural stem cells. The HuCNS-SC transplants were surgically delivered to multiple sites within the frontal lobes of the brain. Patients also received immunosuppression for nine months following transplantation and underwent intensive follow-up neurological assessments and MR imaging for twelve months following transplantation. A separate four-year observational study will continue to monitor and report the future progress for all four patients.
At the one-year interval, MR imaging showed changes compatible with increased myelination in the region of the transplantation. The MR signs of myelination persisted after the withdrawal of immunosuppression at nine months and were also found to progress over time. The development of new myelin signals is unprecedented in patients with connatal PMD and is consistent with HuCNS-SC engraftment.
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