Optimum electrode geometry for spinal cord stimulation: The narrow bipole and tripole
暂无分享,去创建一个
[1] P. Wall,et al. Pain mechanisms: a new theory. , 1965, Science.
[2] J. Law. Spinal stimulation: statistical superiority of monophasic stimulation of narrowly separated, longitudinal bipoles having rostral cathodes. , 1983, Applied neurophysiology.
[3] J. Holsheimer,et al. Excitation of dorsal root fibers in spinal cord stimulation: a theoretical study , 1993, IEEE Transactions on Biomedical Engineering.
[4] Jiping He,et al. Mapping of sensory responses to epidural stimulation of the intraspinal neural structures in man. , 1993, Journal of neurosurgery.
[5] G. Barolat,et al. Analysis of parameters for epidural spinal cord stimulation. 1. Perception and tolerance thresholds resulting from 1,100 combinations. , 1993, Stereotactic and functional neurosurgery.
[6] J. Holsheimer,et al. Selective stimulation of sacral nerve roots for bladder control: A study by computer modeling , 1994, IEEE Transactions on Biomedical Engineering.
[7] J Holsheimer,et al. Effectiveness of spinal cord stimulation in the management of chronic pain: analysis of technical drawbacks and solutions. , 1997, Neurosurgery.
[8] J Holsheimer,et al. Analysis of parameters for epidural spinal cord stimulation. 3. Topographical distribution of paresthesiae--a preliminary analysis of 266 combinations with contacts implanted in the midcervical and midthoracic vertebral levels. , 1993, Stereotactic and functional neurosurgery.
[9] J. Holsheimer,et al. Effects of electrode geometry and combination on nerve fibre selectivity in spinal cord stimulation , 1995, Medical and Biological Engineering and Computing.
[10] Jiping He,et al. Paresthesia thresholds in spinal cord stimulation: a comparison of theoretical results with clinical data , 1993 .
[11] G. Barolat,et al. Multifactorial analysis of epidural spinal cord stimulation. , 1991, Stereotactic and functional neurosurgery.
[12] Jiping He,et al. Perception threshold and electrode position for spinal cord stimulation , 1994, Pain.
[13] J. Holsheimer,et al. Recruitment of dorsal column fibers in spinal cord stimulation: influence of collateral branching , 1992, IEEE Transactions on Biomedical Engineering.
[14] Guido Groeseneken,et al. On the hot-carrier-induced post-stress interface trap generation in n-channel MOS transistors , 1994 .
[15] F. Rattay. Analysis of Models for External Stimulation of Axons , 1986, IEEE Transactions on Biomedical Engineering.
[16] J Holsheimer,et al. How do geometric factors influence epidural spinal cord stimulation? A quantitative analysis by computer modeling. , 1991, Stereotactic and functional neurosurgery.
[17] F Rattay,et al. Ways to approximate current-distance relations for electrically stimulated fibers. , 1987, Journal of theoretical biology.
[18] J Holsheimer,et al. MR assessment of the normal position of the spinal cord in the spinal canal. , 1994, AJNR. American journal of neuroradiology.
[19] Electronic aspects of spinal-cord stimulation in multiple sclerosis , 2006, Medical and Biological Engineering and Computing.
[20] J. Hunter,et al. Segmental effects of epidural spinal cord stimulation in humans. , 1994, The Journal of physiology.
[21] Steven Piantadosi,et al. Spinal cord stimulation for chronic, intractable pain: Superiority of “multi-channel” devices , 1991, Pain.
[22] D. Mcneal. Analysis of a Model for Excitation of Myelinated Nerve , 1976, IEEE Transactions on Biomedical Engineering.