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Rat makes a partial recovery following a spinal cord lesion
February 19, 2002Scientists at the Netherlands Institute for Brain Research have developed an experimental therapy which enables rats with a spinal cord lesion to partially recover from their paralysis. Up until now not even the slightest degree of recovery was possible. PhD student Bas Blits was part of this team.
The method uses a combination of transplantation and gene therapy. For the transplantation, the researchers implanted nerve cells cultured in vitro. The cells originated from the nerves between the ribs where they could be missed. Following the transplantation gene therapy has to further stimulate the growth and recovery of the damaged nerve cells. This is done by means of growth stimulating molecules. These neurotrophic factors are naturally present during, for example, the recovery of nerves following a deep cut in the finger. Normally they are not present in large enough quantities in the spinal cord.
Over the next few years the researchers will try to improve their therapy. PhD student Bas Blits will continue his research (with sponsorship from the Netherlands Organisation for Scientific Research) at the University of Miami, where he will also attempt to implant stem cells instead of the used nerve cells from the fore rib.
The researchers attempted to repair three sorts of spinal cord damage in rats. The first, the dorsal, partial hemisection is comparable to a knife stab in the back in humans. The two most important neural tracts for voluntary movement are severed. In both humans and rats the result is a paralysed lower body. In rats the result is partially paralysed rear legs. After therapy the rat`s walking improved. It appeared that one of the two neural tracts slowly recovered.
The second spinal cord lesion examined by the researchers was the complete transection at the height of the eighth vertebra. The spinal cord is completely severed, comparable in humans to a spinal cord lesion after a violent knife stab in the rib area. Also, this type results in paralysis in the lower part of the body. After the therapy the rat could make some movement with his hind limbs. The scientists are still trying to clarify this because anatomical investigation demonstrated that there was no recovery of the spinal cord lesion.
The third type of damage was ventral root avulsion. In this model the outgoing nerve fibre is torn lose from the spinal cord, for example during a serious motorbike accident. This damage often results in the dying of the affected motor neurones. These are large nerve cells which control movement. After the administration of growth stimulating substances, it appeared that the motor neurones did not die but neither did they regenerate and recover.
NWO (Netherlands Organization for Scientific Research)
The researchers attempted to repair three sorts of spinal cord damage in rats. The first, the dorsal, partial hemisection is comparable to a knife stab in the back in humans. The two most important neural tracts for voluntary movement are severed. In both humans and rats the result is a paralysed lower body. In rats the result is partially paralysed rear legs. After therapy the rat`s walking improved. It appeared that one of the two neural tracts slowly recovered.
The second spinal cord lesion examined by the researchers was the complete transection at the height of the eighth vertebra. The spinal cord is completely severed, comparable in humans to a spinal cord lesion after a violent knife stab in the rib area. Also, this type results in paralysis in the lower part of the body. After the therapy the rat could make some movement with his hind limbs. The scientists are still trying to clarify this because anatomical investigation demonstrated that there was no recovery of the spinal cord lesion.
The third type of damage was ventral root avulsion. In this model the outgoing nerve fibre is torn lose from the spinal cord, for example during a serious motorbike accident. This damage often results in the dying of the affected motor neurones. These are large nerve cells which control movement. After the administration of growth stimulating substances, it appeared that the motor neurones did not die but neither did they regenerate and recover.
NWO (Netherlands Organization for Scientific Research)
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Researchers explore new ways to prevent spinal cord damage using a vitamin B3 precursor
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Researchers identify drug candidate for treating spinal muscular atrophy
A chemical cousin of the common antibiotic tetracycline might be useful in treating spinal muscular atrophy (SMA), a currently incurable disease that is the leading genetic cause of death in infants.
Master regulator found for regenerating nerve fibers in live animals
Researchers at Children's Hospital Boston report that an enzyme known as Mst3b, previously identified in their lab, is essential for regenerating damaged axons (nerve fibers) in a live animal model, in both the peripheral and central nervous systems.
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Animal research is suggesting new ways to aid recovery after spinal cord injury. New studies demonstrate that diet affects recovery rate and show how to make stem cell therapies safer for spinal injury patients.
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Basic and Clinical Anatomy of the Spine, Spinal Cord, and ANS by Gregory Cramer (Author), Susan Darby (Author) This one-of-a-kind text describes the specific anatomy and neuromusculoskeletal relationships of the human spine, with special emphasis on structures affected by manual spinal techniques. A comprehensive review of the literature explores current research of spinal anatomy and neuroanatomy, bringing practical applications to basic science. * A full chapter on surface anatomy includes tables for identifying vertebral levels of deeper anatomic structures, designed to assist with physical diagnosis and treatment of pathologies of the spine, as well as evaluation of MRI and CT scans. * High-quality, full-color illustrations show fine anatomic detail. * Red lines in the margins draw attention to items of clinical relevance, clearly relating anatomy to clinical care. * Spinal dissection... |
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