19144589

Source:http://linkedlifedata.com/resource/pubmed/id/19144589

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Predicate	Object
rdf:type	pubmed:Citation
lifeskim:mentions	umls-concept:C0001721, umls-concept:C0026336, umls-concept:C0205890, umls-concept:C0456389, umls-concept:C0549255, umls-concept:C0599851, umls-concept:C0681842, umls-concept:C0733755, umls-concept:C1280412
pubmed:issue	6
pubmed:dateCreated	2009-1-15
pubmed:abstractText	The number of applications using neural prosthetic interfaces is expanding. Computer models are a valuable tool to evaluate stimulation techniques and electrode designs. Although our understanding of neural anatomy has improved, its impact on the effects of neural stimulation is not well understood. This study evaluated the effects of fascicle perineurial thickness, diameter, and position on axonal excitation thresholds and population recruitment using finite element models and NEURON simulations. The perineurial thickness of human fascicles was found to be 3.0% +/- 1.0% of the fascicle diameter. Increased perineurial thickness and fascicle diameter increased activation thresholds. The presence of a large neighboring fascicle caused a significant change in activation of a smaller target fascicle by as much as 80% +/- 11% of the total axon population. Smaller fascicles were recruited at lower amplitudes than neighboring larger fascicles. These effects were further illustrated in a realistic model of a human femoral nerve surrounded by a nerve cuff electrode. The data suggest that fascicular selectivity is strongly dependent upon the anatomy of the nerve being stimulated. Therefore, accurate representations of nerve anatomy are required to develop more accurate computer models to evaluate and optimize nerve electrode designs for neural prosthesis applications.
pubmed:grant	http://linkedlifedata.com/resource/pubmed/grant/DK077089, http://linkedlifedata.com/resource/pubmed/grant/EB001889, http://linkedlifedata.com/resource/pubmed/grant/R01 DK077089-01A1, http://linkedlifedata.com/resource/pubmed/grant/R01 DK077089-04, http://linkedlifedata.com/resource/pubmed/grant/R01 EB001889-01, http://linkedlifedata.com/resource/pubmed/grant/R01 EB001889-07
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pubmed:language	eng
pubmed:journal	http://linkedlifedata.com/resource/pubmed/journal/101097023
pubmed:citationSubset	IM
pubmed:status	MEDLINE
pubmed:month	Dec
pubmed:issn	1558-0210
pubmed:author	pubmed-author:GrinbergYaninaY, pubmed-author:GustafsonKenneth JKJ, pubmed-author:SchieferMatthew AMA, pubmed-author:TylerDustin JDJ
pubmed:issnType	Electronic
pubmed:volume	16
pubmed:owner	NLM
pubmed:authorsComplete	Y
pubmed:pagination	572-81
pubmed:dateRevised	2011-9-26
pubmed:meshHeading	pubmed-meshheading:19144589-Action Potentials, pubmed-meshheading:19144589-Animals, pubmed-meshheading:19144589-Computer Simulation, pubmed-meshheading:19144589-Differential Threshold, pubmed-meshheading:19144589-Electric Stimulation, pubmed-meshheading:19144589-Electric Stimulation Therapy, pubmed-meshheading:19144589-Electrodes, Implanted, pubmed-meshheading:19144589-Femoral Nerve, pubmed-meshheading:19144589-Humans, pubmed-meshheading:19144589-Models, Neurological, pubmed-meshheading:19144589-Peripheral Nerves
pubmed:year	2008
pubmed:articleTitle	Fascicular perineurium thickness, size, and position affect model predictions of neural excitation.
pubmed:affiliation	Neural Engineering Center, Department of Biomedical Engineering, Case Western Reserve University, Cleveland, OH 44106 USA. yxg20@case.edu
pubmed:publicationType	Journal Article, Research Support, U.S. Gov't, Non-P.H.S., Research Support, N.I.H., Extramural