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Jared Bartell School of Life Sciences Center for Adaptive Neural Systems Arizona State University Tempe, AZ.

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Presentation on theme: "Jared Bartell School of Life Sciences Center for Adaptive Neural Systems Arizona State University Tempe, AZ."— Presentation transcript:

1 Jared Bartell Jared.Bartell@asu.edu School of Life Sciences Center for Adaptive Neural Systems Arizona State University Tempe, AZ

2 Today, over 250,000 people in the United States are living with a spinal cord injury (SCI), with 52% considered paraplegic and 47% quadriplegic. 1 Due to improvements in palliative care and an increasing life expectancy in the general population, the number of people living with SCI is increasing with time. 2 Spinal Cord Injury Background 1. Spinal Cord Injury Facts & Statistics. 23 March, 2009. Retrieved from http://www.sci- infopages.com/facts.html. 2.Fouad, K. & Pearson, K., 2004. Progress In Neurobiology 73, 107-126.

3 Complete SCI: Complete paralysis below lesion Disappearance of all motor and sensory control Incomplete SCI: Varying degrees of injury Some sparing of motor and/or sensory functionality Spinal Cord Injury Background

4 Rehabilitative Therapy for Promoting Recovery After Incomplete SCI After incomplete (contusion) spinal cord injury: Supraspinal control is impaired. Muscle atrophy can occur due to inactivity and the absence of stimulation in areas caudal to the lesion. 3 Neural reorganization (plasticity) can occur both above and below the lesion. Certain rehabilitative therapies can promote neural plasticity that may result in some degree of functional recovery in locomotion. 4-6 3.Dietz, V., 1992. Physiology Review 72, 33-69 4.Multon, S. et al., 2003. J Neurotrauma 20, 699–706. 5.Thota, A. K., Carlson, S., Jung, R., 2001. Biomedical Scientific Instruments 37, 63–67. 6.Thota, A. K., Watson, S. C., Knapp, E., Thompson, B. & Jung, R., 2004. J Neurotrauma 22(4) 442-465.

5 Experiment Goal and Rationale To further determine the efficacy of rehabilitation strategies to improve the locomotion after an incomplete spinal cord injury. Animal Model: Contusion injury in rats mimics incomplete SCI in humans and very similar neurological mechanisms responsible in plasticity in the spinal cord. 2,7 Provides the opportunity to explore the biochemical, electrophysiological, and histological mechanisms involved in recovery. Allows us to conduct more controlled laboratory experiments with non-human participants. 2. Fouad, K. & Pearson, K., 2004. Progress In Neurobiology 73, 107-126. 7.Metz, G. A., et al., 2000. J Neurotrauma 17(1) 1-17.

6 Methods Moderate contusion induced at T10 spinal cord level (thoracic vertebrae level 10) using an ultra-precise impactor device. Four cameras recorded animal’s performance. Video later digitized and processed. Animals euthanized and dissected to examine the spinal cord and brain tissues using histological staining techniques. Treadmill Training INJURY Treadmill Training Euthanasia Testing:PRE INJURY14 DPI21 DPI35 DPI42 DPI

7 Experimental Groups 1)Treadmill Therapy - Repetitive training of a specific task 2)Functional Neuronal Stimulation (FNS) – Stimulation of sensory afferent neurons via active exercise, producing spontaneous, involuntary locomotion-like movements 3)No Rehabilitative Therapy (Control)

8 3D Kinematics Treadmill Testing Pre-Injury

9 3D Kinematics Treadmill Testing 14 Days Post-Injury

10 3D Kinematics Treadmill Testing 42 Days Post-Injury

11 Pre Injury Left Hind Limb Angles 14 dpi Left Hind Limb Angles 42 dpi Left Hind Limb Angles

12 Discussion Data analysis is still incomplete yet is actively being processed to search for relationships between groups. Predicted order of degree of improvement: FNS >> Treadmill Therapy >> No therapy. Both Treadmill therapy and functional neuromuscular stimulation therapy in Human models with incomplete SCI are already underway. 8,9 8. Gillette, J. C., et al., 2008. Gait Posture 27(2) 280-285. 9.Gillette, J. C. & Abbas, J.J., 2003. IEEE Trans Neural Syst Rehabil 11(4), 377-85

13 Acknowledgments Ranu Jung, PhD Director, Center for Adaptive Neural Systems, Harrington Dept. of Bioengineering, ASU Ronald Hammer, PhD Department of Psychology, ASU; U of A College of Medicine - Phoenix Mallika Fairchild Center for Adaptive Neural Systems, Harrington Dept. of Bioengineering, ASU Brian Hillen Center for Adaptive Neural Systems, Harrington Dept. of Bioengineering, ASU Alex Iarkov, PhD Center for Adaptive Neural Systems, Harrington Dept. of Bioengineering, ASU T HANK YOU ! http://ans.asu.edu

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