The goal of the proposal is to begin to develop and test a tool that can provide focal control of deep neural tissues including excitation, inhibition and modulation state in a fashion compatible with the range of physiological recording techniques. The tool we are designing and testing is a fiber optic light guide system, which is used for focal uncaging of caged neurotransmitters. This system will be coupled with neural recording and neurotransmitter measurement techniques. Such a combined system will allow rapid excitation, inhibition and/or modulation of target tissues, via post-synaptic mechanisms, while introducing no electrical noise for the recording components. There will also be the potential for feedback regulation of activity and of transmitter levels. To test the tool as it is iteratively prototyped we will use several animal models that are well established and understood in our laboratories. Our project has three Specific Aims: 1.
Specific Aim 1 Construction and optimization of an implantable fiber optic uncaging system and recording device for use as an experimental tool, in deep brain stimulation and in other neuroprostheses.
Specific Aim 2 Development of caged glycine, serotonin and dopamine for experimental and future clinical applications with the fiberoptic system.
Specific Aim 3 Validation of developed devices and caged materials in mammalian CNS using physiological and behavioral assays, first in an acute preparation (cat spinal cord), and then in a chronic preparation (rat parabrachial nucleus).

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS044564-05
Application #
7116702
Study Section
Special Emphasis Panel (ZNS1-SRB-A (02))
Program Officer
Pancrazio, Joseph J
Project Start
2002-08-15
Project End
2008-07-31
Budget Start
2006-08-01
Budget End
2008-07-31
Support Year
5
Fiscal Year
2006
Total Cost
$350,198
Indirect Cost
Name
Drexel University
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
002604817
City
Philadelphia
State
PA
Country
United States
Zip Code
19104
Hart, Corey B; Giszter, Simon F (2013) Distinguishing synchronous and time-varying synergies using point process interval statistics: motor primitives in frog and rat. Front Comput Neurosci 7:52
Kim, Taegyo; Branner, Almut; Gulati, Tanuj et al. (2013) Braided multi-electrode probes: mechanical compliance characteristics and recordings from spinal cords. J Neural Eng 10:045001
AuYong, Nicholas; Ollivier-Lanvin, Karen; Lemay, Michel A (2011) Preferred locomotor phase of activity of lumbar interneurons during air-stepping in subchronic spinal cats. J Neurophysiol 105:1011-22
Hsieh, F H; Giszter, S F (2011) Robot-driven spinal epidural stimulation compared with conventional stimulation in adult spinalized rats. Conf Proc IEEE Eng Med Biol Soc 2011:5807-10
Song, Weiguo; Giszter, Simon F (2011) Adaptation to a cortex-controlled robot attached at the pelvis and engaged during locomotion in rats. J Neurosci 31:3110-28
Giszter, Simon F; Hart, Corey B; Silfies, Sheri P (2010) Spinal cord modularity: evolution, development, and optimization and the possible relevance to low back pain in man. Exp Brain Res 200:283-306
Kargo, William J; Ramakrishnan, Arun; Hart, Corey B et al. (2010) A simple experimentally based model using proprioceptive regulation of motor primitives captures adjusted trajectory formation in spinal frogs. J Neurophysiol 103:573-90
Giszter, Simon F; Hockensmith, Greg; Ramakrishnan, Arun et al. (2010) How spinalized rats can walk: biomechanics, cortex, and hindlimb muscle scaling--implications for rehabilitation. Ann N Y Acad Sci 1198:279-93
Hart, Corey B; Giszter, Simon F (2010) A neural basis for motor primitives in the spinal cord. J Neurosci 30:1322-36
Song, Weiguo; Ramakrishnan, Arun; Udoekwere, Ubong I et al. (2009) Multiple types of movement-related information encoded in hindlimb/trunk cortex in rats and potentially available for brain-machine interface controls. IEEE Trans Biomed Eng 56:2712-6

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