Stem Cells Inc. Reports Additional Spinal Cord Injury Patients Transplanted with Neural Stem Cell Line Show Functional Improvements


StemCells, Inc. has developed a proprietary stem cell line called HuCNS-SC.  This stem cell line is a neural stem cell line, and neural stem cells can readily form neurons (the conducting cells of the nervous system), or glial cells (the support cells of the nervous system). In order to determine if these cells can regenerate spinal nerves in patients who have suffered a spinal cord injury, StemCells Inc. has commissioned a clinical trial to test their cells in human spinal cord injured patients.

Early indications showed that the HuCNS-SC cells were safe, but some patients have shows improvements in sensation.  Now StemCells Inc has issued an announcement that these initially reported improvements in only a few patients have also been confirmed in other patients.

According to Armin Curt, M.D., Professor and Chairman of the Spinal Cord Injury Center at Balgrist University Hospital, University of Zurich, and the principal investigator of their Phase I/II trial, the initial improvements that were observed in the first two patients treated with their HuCNS-SC neural stem cells have now been observed in two additional patients who have also been treated with these stem cells. These results come from an interim analysis of recent clinical data.

In a presentation to the Annual Meeting of the American Spinal Injury Association in San Antonio, Texas, Dr. Curt showed data on AIS B subjects who were transplanted with HuCNS-SC neural stem cells in the Phase I/II chronic spinal cord injury trial. This trial is different from the AIS A patients who have no mobility or sensory perception below the point of injury, since AIS B subjects are less severely injured, and are paralyzed but retain sensory perception below the point of injury. Two of the three AIS B patients who are participating in the study showed significant gains in sensory perception. The third patient remained stable.  These interim results confirm the favorable safety profile of these stem cells and the surgical implant procedure used to transplant them into the spinal cords of spinal cord injury patients.

Also included in Dr. Curt’s presentation was data from a total of five new subjects with a minimum six-month follow-up. In total, Stem Cells Inc. has now reported clinical updates on a total of eight of the twelve patients enrolled in its Phase I/II clinical trial that is testing this Company’s proprietary HuCNS-SC (purified human neural stem cells) platform technology for treating chronic thoracic spinal cord injury.

“Thoracic spinal cord injury was chosen as the indication in this first trial primarily to demonstrate safety. This patient population represents a form of spinal cord injury that has historically defied responses to experimental therapies and is associated with a very high hurdle to demonstrate any measurable clinical change. Because of the severity associated with thoracic injury, gains in multiple sensory modalities and segments are unexpected, and changes in motor function are even more unlikely,” said Dr. Curt. “In contrast, the cervical cord, which controls more motor function, may represent a patient population in which motor responses to transplant may be more readily anticipated.”

“We are seeing multi-segmental gains and a return of function in the cord in multiple patients. This indicates something that was not working in the spinal cord, now appears to be working following transplantation. This is even more significant because of the time that has elapsed from the date of injury, which ranges from 4 months to 24 months across the subjects with sensory gains,” said Stephen Huhn, M.D., FACS, FAAP, vice president, CNS clinical research at StemCells, Inc. “These results are exciting with respect to the expansion of this trial into patients with cervical injury because even a gain of one to two segments in cervical spinal cord injury patients can allow for additional function in the upper extremities.”

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mburatov

Professor of Biochemistry at Spring Arbor University (SAU) in Spring Arbor, MI. Have been at SAU since 1999. Author of The Stem Cell Epistles. Before that I was a postdoctoral research fellow at the University of Pennsylvania in Philadelphia, PA (1997-1999), and Sussex University, Falmer, UK (1994-1997). I studied Cell and Developmental Biology at UC Irvine (PhD 1994), and Microbiology at UC Davis (MA 1986, BS 1984).