Summary: Researchers inject an experimental stem cell treatment into the damaged cervical spine of a recently paralyzed young man, restoring a level of function into his hands and arms.
Initial Results offer hope for patients to reclaim independence after suffering severe spinal injury.
Keck Medical Center of USC today announced that a team of doctors became the first in California to inject an experimental treatment made from stem cells, AST-OPC1, into the damaged cervical spine of a recently paralyzed 21-year-old man as part of a multi-center clinical trial.
On March 6, just shy of his 21st birthday, Kristopher (Kris) Boesen of Bakersfield suffered a traumatic injury to his cervical spine when his car fishtailed on a wet road, hit a tree and slammed into a telephone pole.
Parents Rodney and Annette Boesen were warned there was a good chance their son would be permanently paralyzed from the neck down. However, they also learned that Kris could possibly qualify for a clinical study that might help.
Leading the surgical team and working in collaboration with Rancho Los Amigos National Rehabilitation Center and Keck Medicine of USC, Charles Liu, MD, PhD, director of the USC Neurorestoration Center, injected an experimental dose of 10 million AST-OPC1 cells directly into Kris’ cervical spinal cord in early April.
“Typically, spinal cord injury patients undergo surgery that stabilizes the spine but generally does very little to restore motor or sensory function,” explains Liu. “With this study, we are testing a procedure that may improve neurological function, which could mean the difference between being permanently paralyzed and being able to use one’s arms and hands. Restoring that level of function could significantly improve the daily lives of patients with severe spinal injuries.”
Two weeks after surgery, Kris began to show signs of improvement. Three months later, he’s able to feed himself, use his cell phone, write his name, operate a motorized wheelchair and hug his friends and family. Improved sensation and movement in both arms and hands also makes it easier for Kris to care for himself, and to envision a life lived more independently.
“As of 90 days post-treatment, Kris has gained significant improvement in his motor function, up to two spinal cord levels,” said Dr. Liu. “In Kris’ case, two spinal cord levels means the difference between using your hands to brush your teeth, operate a computer or do other things you wouldn’t otherwise be able to do, so having this level of functional independence cannot be overstated.”
Doctors are careful not to predict Kris’ future progress.
“All I’ve wanted from the beginning was a fighting chance,” said Kris, who has a passion for fixing up and driving sports cars and was studying to become a life insurance broker at the time of the accident. “But if there’s a chance for me to walk again, then heck yeah! I want to do anything possible to do that.”
Qualifying for the Study
Because the window for performing the surgery was tight, everything needed to go according to schedule in order for Kris to qualify.
Once Kris made the decision to pursue enrollment in the study, dozens of doctors, nurses, rehabilitation specialists and others sprang into action. Because he would need to provide voice confirmation of his desire to participate in the study, Kris had to be able to breathe without a ventilator. Weaning a patient from assisted breathing generally is a three-week process. He did it in five days with the help of a respiratory care team. He signed the paperwork and began a week of assessments, scans and other pre-surgery tests.
In early April, a surgical team from Keck Hospital of USC carefully injected 10 million AST-OPC1 cells directly into Kris’ cervical spine. Nearly six weeks later, Kris was discharged and returned to Bakersfield to continue his rehabilitation. Doctors reviewed his progress at seven days, 30 days, 60 days and 90 days post-injection, and Kris can look forward to detailed assessments after 180 days, 270 days and one year.
Rodney and Annette Boesen say they are amazed at the level of collaboration and cooperation that enabled their son to participate in the study. “So many things had to happen, and there were so many things that could have put up a roadblock,” marvels Rodney. “The people at Keck Medical Center of USC and elsewhere moved heaven and earth to get things done. There was never a moment through all of this when we didn’t think our son was getting world class care.”
The pioneering surgery is the latest example of how the emerging fields of neurorestoration and regenerative medicine may have the potential to improve the lives of thousands of patients who have suffered a severe spinal cord injury.
The stem cell procedure Kris received is part of a Phase 1/2a clinical trial that is evaluating the safety and efficacy of escalating doses of AST-OPC1 cells developed by Fremont, California-based Asterias Biotherapeutics. . AST-OPC1 cells are made from embryonic stem cells by carefully converting them into oligodendrocyte progenitor cells (OPCs), which are cells found in the brain and spinal cord that support the healthy functioning of nerve cells. In previous laboratory studies, AST-OPC1 was shown to produce neurotrophic factors, stimulate vascularization and induce remyelination of denuded axons. All are critical factors in the survival, regrowth and conduction of nerve impulses through axons at the injury site, according to Edward D. Wirth III, MD, PhD, chief medical director of Asterias and lead investigator of the study, dubbed “SCiStar.”
“At the 10 million cell level, we’re now in a dose range that is the human equivalent of where we were when we saw efficacy in pre-clinical studies,” says Wirth. “While we continue to evaluate safety first and foremost, we are also now looking at how well treatment might help restore movement in these patients.”
To qualify for the clinical trial, enrollees must be between the age of 18 and 69, and their condition must be stable enough to receive an injection of AST-OPC1 between the fourteenth and thirtieth days following injury.
Keck is one of six sites in the U.S. authorized to enroll subjects and administer the clinical trial dosage.
About this genetics research article
The SCiStar clinical trial participating institutions include Indiana University in Indianapolis, Medical College of Wisconsin in Milwaukee, Rush University Medical Center in Chicago, Shepherd Center in Atlanta and, in California, Stanford University/Santa Clara Valley Medical Center, and Rancho Los Amigos/Keck Medicine of USC.
Source: Madeline McCurry-Schmidt – USC Image Source: This NeuroscienceNews.com image is credited to Marissa Hernandez, Keck Medicine of USC. Original Research: The first early data results from a group of patients in this study will become available on September 14, 2016.
Cite This NeuroscienceNews.com Article
[cbtabs][cbtab title=”MLA”]USC. “Paralyzed Man Regains Use of Arms and Hands After Experimental Stem Cell Therapy.” NeuroscienceNews. NeuroscienceNews, 7 September 2016. <https://neurosciencenews.com/stem-cell-paralysis-recovery-4981/>.[/cbtab][cbtab title=”APA”]USC. (2017, September 7). Paralyzed Man Regains Use of Arms and Hands After Experimental Stem Cell Therapy. NeuroscienceNews. Retrieved September 7, 2016 from https://neurosciencenews.com/stem-cell-paralysis-recovery-4981/[/cbtab][cbtab title=”Chicago”]USC. “Paralyzed Man Regains Use of Arms and Hands After Experimental Stem Cell Therapy.” https://neurosciencenews.com/stem-cell-paralysis-recovery-4981/ (accessed September 7, 2016).[/cbtab][/cbtabs]