Kristopher Boesen, who had a decisive moment when his car went out of control on a slippery road and hit a tree and a light pole. Kristopher Boesen remained completely paralyzed from the neck down after a car accident. The doctors warned Kris’s parents that he might never again work from the neck.
Kris had the opportunity to follow a potentially disruptive stem cell process that “helps repair damaged nerve tissue by replacing damaged cells.” Kris was offered the opportunity to undergo a new life-changing procedure, but without receiving any assurances that it would really work. The new intervention involved repairing the nervous tissue by replacing the affected cells.
Charles Liu, director of the USC Neurorestoration Center, led the surgical team in collaboration with the National Rehabilitation Center Rancho Los Amigos and the USC Keck Medicine, which injected an experimental dose of 10 million AST-OPC1 cells directly into spinal cord-injected cervical cancer. from Boesen. early April
The process began in April, when Dr. Liu injected 10 million AST OPC1 cells directly into Kris’s cervical spinal cord. Dr. Liu explains this;
“As a general rule, patients with spinal cord injuries undergo surgery that stabilizes the spine, but do nothing to restore motor or sensory function. With this study, we tested a procedure that can improve neurological function. It can make all the difference between permanent paralytics and the poor and the hands.To restore this level of functioning could significantly improve the daily life of patients with severe spinal cord injuries. “
A spinal cord injury (SCI) is usually the result of a physical shock in which the bones of the spine that make up the spine break or dislocate, interrupting the sensory signals between the brain and the body.
After only three weeks of treatment, Kris began to notice the first positive signs, and after two months he could already answer the phone, he was able to write his name and help his own hands to move around with the wheelchair. These are the transmission of messages from the brain to the muscle groups to create movement.
Findings
Kris recovered in two levels of the spinal cord, which greatly affected ability to move. It was the difference between a minimum of movement or nothing and the ability to work alone. Kris has regained the extremely important aspect of independence.
After seeing the results of stem cell therapy, Kris was completely swollen and said:
“Everything I wanted from the beginning was an opportunity to fight … But if I can come back, try it! I want to do everything I can to do what “.
Although doctors can not promise that Kris’s condition will continue to improve, they can experiment with stem cell research to improve their chances of working completely on paralysis.
So far, they have made great progress and, hopefully, will continue to try to solve the problem of paralysis by partnering with an associate faculty working in various KSOM departments and the university to study new ones. Stem cell medications Dr. Liu and his team at USC are committed to continuing their research on stem cells and more!
Stem cell research is not yet complete and can be used in many ways besides paralysis. From Parkinson’s disease and diabetes to cancer. The latest information on stem cell research is available on this site.
Although doctors do not make any promise to Kris, they continue experimentally with stem cells, especially as the results were unexpectedly good. Specialists are optimistic and hope to succeed, in the future, to successfully treat paralysis, but also other serious conditions such as Parkinson’s, diabetes and even cancer.
Source of the Article is Keck School Of Medicine of USC