 |
|
Drug studied as possible treatment for spinal injuries
November 20, 2009Researchers have shown how an experimental drug might restore the function of nerves damaged in spinal cord injuries by preventing short circuits caused when tiny "potassium channels" in the fibers are exposed.
The chemical compound also might be developed as a treatment for multiple sclerosis.
Because nerves usually are not severed in a common type of spinal cord trauma, called "compression" injuries, the drug offers hope as a possible treatment, said Riyi Shi, a professor in Purdue University's Department of Basic Medical Sciences, School of Veterinary Medicine, Center for Paralysis Research and Weldon School of Biomedical Engineering.
"Compression is responsible for most spinal cord injuries, including many resulting in paralysis," Shi said. "Since the nerves are not severed, this type of drug represents a potential golden opportunity to treat spinal cord injuries."
The experimental compound, 4-aminopyridine-3-methyl hydroxide, has been shown to restore function to damaged axons, slender fibers that extend from nerve cells and transmit electrical impulses in the spinal cord.
Findings, based on experiments with guinea pig spinal cord tissue, appeared online Wednesday (Nov. 18) in the Journal of Neurophysiology. The work was led by Department of Basic Medical Sciences doctoral student Wenjing Sun.
Shi said the findings were made possible by the interdisciplinary nature of the work, which also involves researchers Richard Borgens, director of Purdue's Center for Paralysis Research and the Mari Hulman George Professor of Neurology in the School of Veterinary Medicine; Stephen Byrn, the Charles B. Jordan Professor of Medicinal Chemistry, and Daniel Smith, a research assistant professor, both in the Department of Industrial and Physical Pharmacy; and Ji-Xin Cheng, an associate professor in the Weldon School of Biomedical Engineering and Department of Chemistry.
The researchers subjected spinal cord tissue to stresses that mimic what happens in a compression injury, which stretches nerves. Then they treated the damaged axons with 4-aminopyridine-3-methyl hydroxide.
The compound is a derivative of the drug 4-aminopyridine, used primarily as a research tool and also to manage symptoms of multiple sclerosis.
The axons of each nerve are sheathed in a thick insulating lipid layer, called myelin, which enables the transmission of signals without short circuiting, much like the insulation surrounding electrical wires. Spinal cord trauma damages the myelin sheath, exposing "fast potassium channels" that are embedded in the axons and are critical for transmitting nerve impulses.
The researchers confirmed previous circumstantial evidence suggesting injury causes the myelin insulation to recede, exposing the channels and impairing signal transmission. Laboratory and imaging techniques revealed the exposed channels in damaged axons.
The researchers also discovered that 4-aminopyridine-3-methyl hydroxide is a "potassium channel blocker," using a sophistic laboratory technique called "patch clamp" to measure signal conduction. Findings confirmed that the compound prevents the exposed channels from leaking electrical current and enhances nerve conduction in segments of the damaged spinal cord.
The compound could make it possible to sidestep spinal cord damage by enabling axons to transmit signals as though they were still sheathed in myelin, Shi said.
Nerves transmit signals through a series of rapid electrical pulses, or "action potentials." For proper nerve function, the time gap between pulses must be as brief as possible. However, 4-aminopyridine has been shown to lengthen the gap, or "refractory period," between pulses. The researchers found that 4-aminopyridine-3-methyl hydroxide restores function without affecting the refractory period. As a result, the damaged nerves perform more like healthy nerves than those treated with other drugs, he said.
Another key advantage of the new compound is that it's about 10 times more potent than 4-aminopyridine, meaning lower doses can be used to reduce the likelihood of serious side effects.
Because myelin also is damaged in multiple sclerosis, the same drug might be used to restore nerve function in people stricken with the disease, Shi said. Since the newer drug can be used in lower doses, it might be more effective than 4-aminopyridine in treating multiple sclerosis, which affects more than 350,000 people in the United States and 2 million worldwide, he said.
The research has been funded by the Purdue Research Foundation and the National Institutes of Health.
The Journal of Neurophysiology paper was written by Sun, doctoral student Yan Fu in the School of Biomedical Engineering, Smith, Cheng, Byrn, Borgens and Shi.
Purdue University
"Compression is responsible for most spinal cord injuries, including many resulting in paralysis," Shi said. "Since the nerves are not severed, this type of drug represents a potential golden opportunity to treat spinal cord injuries."
The experimental compound, 4-aminopyridine-3-methyl hydroxide, has been shown to restore function to damaged axons, slender fibers that extend from nerve cells and transmit electrical impulses in the spinal cord.
Findings, based on experiments with guinea pig spinal cord tissue, appeared online Wednesday (Nov. 18) in the Journal of Neurophysiology. The work was led by Department of Basic Medical Sciences doctoral student Wenjing Sun.
Shi said the findings were made possible by the interdisciplinary nature of the work, which also involves researchers Richard Borgens, director of Purdue's Center for Paralysis Research and the Mari Hulman George Professor of Neurology in the School of Veterinary Medicine; Stephen Byrn, the Charles B. Jordan Professor of Medicinal Chemistry, and Daniel Smith, a research assistant professor, both in the Department of Industrial and Physical Pharmacy; and Ji-Xin Cheng, an associate professor in the Weldon School of Biomedical Engineering and Department of Chemistry.
The researchers subjected spinal cord tissue to stresses that mimic what happens in a compression injury, which stretches nerves. Then they treated the damaged axons with 4-aminopyridine-3-methyl hydroxide.
The compound is a derivative of the drug 4-aminopyridine, used primarily as a research tool and also to manage symptoms of multiple sclerosis.
The axons of each nerve are sheathed in a thick insulating lipid layer, called myelin, which enables the transmission of signals without short circuiting, much like the insulation surrounding electrical wires. Spinal cord trauma damages the myelin sheath, exposing "fast potassium channels" that are embedded in the axons and are critical for transmitting nerve impulses.
The researchers confirmed previous circumstantial evidence suggesting injury causes the myelin insulation to recede, exposing the channels and impairing signal transmission. Laboratory and imaging techniques revealed the exposed channels in damaged axons.
The researchers also discovered that 4-aminopyridine-3-methyl hydroxide is a "potassium channel blocker," using a sophistic laboratory technique called "patch clamp" to measure signal conduction. Findings confirmed that the compound prevents the exposed channels from leaking electrical current and enhances nerve conduction in segments of the damaged spinal cord.
The compound could make it possible to sidestep spinal cord damage by enabling axons to transmit signals as though they were still sheathed in myelin, Shi said.
Nerves transmit signals through a series of rapid electrical pulses, or "action potentials." For proper nerve function, the time gap between pulses must be as brief as possible. However, 4-aminopyridine has been shown to lengthen the gap, or "refractory period," between pulses. The researchers found that 4-aminopyridine-3-methyl hydroxide restores function without affecting the refractory period. As a result, the damaged nerves perform more like healthy nerves than those treated with other drugs, he said.
Another key advantage of the new compound is that it's about 10 times more potent than 4-aminopyridine, meaning lower doses can be used to reduce the likelihood of serious side effects.
Because myelin also is damaged in multiple sclerosis, the same drug might be used to restore nerve function in people stricken with the disease, Shi said. Since the newer drug can be used in lower doses, it might be more effective than 4-aminopyridine in treating multiple sclerosis, which affects more than 350,000 people in the United States and 2 million worldwide, he said.
The research has been funded by the Purdue Research Foundation and the National Institutes of Health.
The Journal of Neurophysiology paper was written by Sun, doctoral student Yan Fu in the School of Biomedical Engineering, Smith, Cheng, Byrn, Borgens and Shi.
Purdue University
Spinal Cord Injury Current Events and Spinal Cord Injury News RSSScientists shed new light on walking
Researchers at the medical university Karolinska Institutet have created a genetically modified mouse in which certain neurons can be activated by blue light.
UK Study Advances New Target for CNS Drug Development
A breakthrough discovery by scientists at the University of Kentucky could someday lead to new treatments for a variety of diseases of the brain, spinal cord and the eye.
China a rising star in regenerative medicine despite world skepticism of stem cell therapies
Chinese researchers have become the world's fifth most prolific contributors to peer-reviewed scientific literature on clock-reversing regenerative medicine even as a skeptical international research community condemns the practice of Chinese clinics administering unproven stem cell therapies to domestic and foreign patients.
Study shows health care spending spurs economic growth
As the national discussion of health care focuses on costs, a new study from North Carolina State University shows that it might be more accurate to think of health care spending as an investment that can spur economic growth.
Coaxing injured nerve fibers to regenerate by disabling 'brakes' in the system
Brain and spinal-cord injuries typically leave people with permanent impairment because the injured nerve fibers (axons) cannot regrow.
UCI embryonic stem cell therapy restores walking ability in rats with neck injuries
The first human embryonic stem cell treatment approved by the FDA for human testing has been shown to restore limb function in rats with neck spinal cord injuries - a finding that could expand the clinical trial to include people with cervical damage.
Findings show nanomedicine promising for treating spinal cord injuries
Researchers at Purdue University have discovered a new approach for repairing damaged nerve fibers in spinal cord injuries using nano-spheres that could be injected into the blood shortly after an accident.
Researchers explore new ways to prevent spinal cord damage using a vitamin B3 precursor
Substances naturally produced by the human body may one day help prevent paralysis following a spinal cord injury, according to researchers at Weill Cornell Medical College. A recent $2.5 million grant from the New York State Spinal Cord Injury Research Board will fund their research investigating this possibility.
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.
Researchers find ways to encourage spinal cord regeneration after injury
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.
More Spinal Cord Injury Current Events and Spinal Cord Injury News Articles
 |
Spinal Cord Injury: Functional Rehabilitation (3rd Edition) by Martha Freeman Somers (Author) Compltely updated in a new edition, this unique reference is an in-depth examination of the central role of the physical therapist in rehabilitation following spinal cord injury. This book encompasses all of the elements involved in a successful rehabilitation program. It includes a basic understanding of spinal cord injuries and issues relevant to disability, as well as knowledge of the physical skills involved in functional activities and the therapeutic strategies for acquiring these skills. It also presents an approach to the cord-injured person that promotes self-respect and encourages autonomy. Comprehensive information equips readers with a broad foundation of knowledge including topics relevant to spinal cord injury, its pathological repercussions, and... |
 |
Spinal Cord Injury: Functional Rehabilitation (2nd Edition) by Martha Freeman Somers (Author) Duquesne Univ., Pittsburgh, PA. Textbook reflects all the changes in the field since the previous edition, c1992, was published. Draws on clinical and basic research developments and presents interventions consistent with published clinical practice guidelines. Includes strategies for delivering quality rehabilitative services. |
 |
Spinal Cord Injuries: Management and Rehabilitation by Sue Ann Sisto PT MA PhD (Author), Erica Druin MPT (Author), Martha Macht Sliwinski PT MA PhD (Author) From a hospital admittance to discharge to outpatient rehabilitation, Spinal Cord Injuries addresses the wide spectrum of rehabilitation interventions and administrative and clinical issues specific to patients with spinal cord injuries. Comprehensive coverage includes costs, life expectancies, acute care, respiratory care, documentation, goal setting, clinical treatment, complications, and activities of daily living associated with spinal cord patients. In addition to physical therapy interventions and family education components, this resource includes content on incidence, etiology, diagnosis, and clinical features of spinal cord injury. Case Studies with clinical application thinking exercises help you apply knowledge from the book to real life situations.Thoroughly referenced,... |
 |
Mayo Clinic Guide to Living with a Spinal Cord Injury: Moving Ahead with Your Life by The Mayo Clinic (Author) Traumatic spinal cord injuries have become increasingly common, with nearly a quarter of a million Americans dealing with the condition and another 10,000 new cases each year. The need for a simple, authoritative guide to this disability has never been greater. The Mayo Clinic Guide to Living with a Spinal Cord Injury addresses that need. With all the information written, vetted, and endorsed by the world’s most prestigious medical clinic, the book enables sufferers to return to an active and productive life within the limits of their disability. Here the Clinic’s leading experts offer advice on everything from emotional adjustments to skin care to modifying homes and cars. This independence-granting book encourages readers to resume their favorite hobbies, participate in athletic... |
 |
Circuit Resistance Training for Persons with Spinal Cord Injuries - DVD by Healthy Learning Circuit Resistance Training for Persons with Spinal Cord Injuries - DVD Circuit Resistance Training for Persons with Spinal Cord Injuries reviews how exercise specifically, resistance training can be employed to enhance the lifestyle of individuals living with spinal cord injuries. Unfortunately, many of the traditional upper-body exercise modalities for individuals with spinal cord injuries have serious limitations involving placing Undue stress on the user s shoulders. The DVD features a series of resistance exercises that can be performed in circuit fashion and combined with low-resistance, arm ergometry exercises to collectively minimize the demands placed on the user s shoulders. Among the topics covered: The challenges facing individuals with spinal cord injuries, the spinal cord... |
 |
Spinal Cord Injury Rehabilitation (Contemporary Perspectives in Rehabilitation) by Edelle Field-Fote (Author) One of the world's leading authorities in spinal cord injury, and a participant in the Human Brain Project brings you an evidenced-based guide to the state-of-the-art in spinal cord rehabilitation. She has assembled an expert team of clinicians, each with expertise in the content areas they address. Their work encompasses all of the new scientific knowledge and technological advances practitioners need to know to determine the most effective rehabilitation interventions for each patient and to attain maximum restoration of function in individuals with SCI. Key Features * Offers guidance to interpret the ever-changing research literature and to assess clinical trials. * Discusses how neural circuitry changes as a consequence of SCI, how neural activity may be used to... |
 |
Life is For the Living Directed By: Michael Rubyan, Deborah Orley The story of five American families living with the painful realities of Juvenile Diabetes, Parkinsons, and Spinal Cord Injury set against the national debate over embryonic stem cell research. This product is manufactured on demand using DVD-R recordable media. Amazon.com's standard return policy will apply. |
 |
Spinal Cord Injury: A Guide for Patients and Families (American Academy of Neurology) by Michael Selzer M.D. (Author), Bruce Dobkin M.D. (Author) This well-written, reliable overview of traumatic spinal cord injury and its treatment is essential reading for all patients, family members, and caregivers who want a better understanding of the condition. In simple, everyday English, it explains the anatomy of the spine, the results of injury, and treatment and management issues encountered during rehabilitation. A glossary of commonly used terms and website resources offer tools for further study, while the latest scientific research helps patients make informed medical decisions that promote optimum healing. |
 |
Spinal Cord Injury: Rehabilitation Medicine Quick Reference by Thomas N. Bryce (Author), MD (Author) A spinal cord injury (SCI) profoundly changes a person s life and can affect nearly all of the body s systems. Practitioners managing persons with SCI must treat the medical complications that arise, and be equipped to help their patients return to a productive integrated life within society. Spinal Cord Injury: Rehabilitation Medicine Quick Reference provides the necessary knowledge to help facilitate this process. Addressing over one hundred varied topics related to spinal cord injury, ranging from Treatment of Vocal Fold Paralysis or Post-Traumatic Stress Disorders to Intrathecal Pump Management and Paraplegia, this text is a handy reference for the busy practitioner. Presented in a consistent two-page format for maximum clinical utility, the book is organized into three sections. The... |
|
Spinal Cord Injury Research Awareness Ribbon Mouse Pad by MyHeritageWear.com The Spinal Cord Injury Research proudly displayed on a mouse pad. There is no better way to achieve awareness for the meaning of the Spinal Cord Injury Research than to display it on your mouse pad for everyone to see. The mouse pad measures at 9.25 x 7.75, it is machine washable, and the colors will not fade or run. Start gaining awareness today by presenting your Spinal Cord Injury Research mouse pad at work or at home. It is certain to keep your mouse rolling in style all while gaining support and awareness! |
| © 2010 BrightSurf.com |