Differences among implanted pulse generator waveforms cause variations in the neural response to deep brain stimulation
about
Making Waves in the Brain: What Are Oscillations, and Why Modulating Them Makes Sense for Brain InjuryCreating the feedback loop: closed-loop neurostimulationClosed-loop deep brain stimulation by pulsatile delayed feedback with increased gap between pulse phases.Pulsatile desynchronizing delayed feedback for closed-loop deep brain stimulation.A programmable high-voltage compliance neural stimulator for deep brain stimulation in vivoCoordinated reset stimulation in a large-scale model of the STN-GPe circuit.Patient-specific model-based investigation of speech intelligibility and movement during deep brain stimulation.Evaluation of Interactive Visualization on Mobile Computing Platforms for Selection of Deep Brain Stimulation ParametersReversing cognitive-motor impairments in Parkinson's disease patients using a computational modelling approach to deep brain stimulation programming.Localization of Deep Brain Stimulation Contacts Using Corticospinal/Corticobulbar Tracts Stimulation.Deep brain stimulation activation volumes and their association with neurophysiological mapping and therapeutic outcomesPatient-specific models of deep brain stimulation: influence of field model complexity on neural activation predictions.Energy-efficient waveform shapes for neural stimulation revealed with a genetic algorithmProbabilistic analysis of activation volumes generated during deep brain stimulationEvaluation of novel stimulus waveforms for deep brain stimulation.Management of deep brain stimulator battery failure: battery estimators, charge density, and importance of clinical symptoms.Efficiency analysis of waveform shape for electrical excitation of nerve fibers.Predicted effects of pulse width programming in spinal cord stimulation: a mathematical modeling studyShort pulse width widens the therapeutic window of subthalamic neurostimulationComputational analysis of deep brain stimulation.Experimental and theoretical characterization of the voltage distribution generated by deep brain stimulation.Analyzing the tradeoff between electrical complexity and accuracy in patient-specific computational models of deep brain stimulation.Modified pulse shapes for effective neural stimulation.Design of charge-balanced time-optimal stimuli for spiking neuron oscillators.Efficacy of a new charge-balanced biphasic electrical stimulus in the isolated sciatic nerve and the hippocampal slice.Comparison of the Battery Life of Nonrechargeable Generators for Deep Brain Stimulation.Deep brain stimulation of the pallidum internum for Gilles de la Tourette syndrome: a patient-specific model-based simulation study of the electric field.Multisite Delayed Feedback for Electrical Brain Stimulation.Characterization of the stimulus waveforms generated by implantable pulse generators for deep brain stimulation.Design of a Small Modified Minkowski Fractal Antenna for Passive Deep Brain Stimulation Implants
P2860
Q26752582-E6A1A1BF-F513-4A2B-938A-5D44CA965F56Q26999798-5E199EEA-FA9A-4A60-BD38-D89D46C57187Q30356242-EE851B4E-D825-4DF1-8CCA-EF648AEE1648Q30360236-DEDF4063-C7CE-4789-86C9-38B21E54D467Q30406523-84C4D06B-16CA-46E0-A88C-547BF66A5737Q30423160-179CDF19-B48D-4AB2-8989-E0E57E5F8573Q30472875-9F8859C3-7BA7-44B7-893D-FDD20F42E62BQ33438827-E34F0626-816D-4E1D-AC1B-DCDC5ED7BC9AQ33742386-DCC338EC-0D43-49D8-8691-B1277B9CCCD0Q33743586-EFA7560F-B235-420D-BCC3-4FCC09CFF089Q33809687-776EF381-B3FC-45AF-860A-34C8D6EF37A3Q33955491-313B5186-F8A1-44C6-86D2-19EBE2EB8EACQ34078495-6EEB56C2-F792-4B72-9D75-E5FE5C88C763Q34432590-C5B89023-D73A-4E56-9A7B-BDC118A208F4Q34479495-08799703-F4CF-4A24-8E6D-3AE294CB1A13Q34639304-8A0EA0EF-362E-42B9-ACEE-64D81C7B988DQ34766009-3B1F6194-96C0-44D9-BA9F-54C3D3C530E4Q35064645-B7B5B87B-2C17-4F9D-AF29-6332FC8E42AFQ35469659-B3870977-8D36-4CAC-B2D6-BBF78DB208D6Q36938339-4CB3251E-6C41-4065-9167-638DB285494CQ37102805-4475BEAE-BD9A-4F0B-B87A-51DE1BC4F994Q37602243-BF40FB1F-2719-4D23-A9E9-ECEE5D79D7DFQ38576262-B4B7C1CF-4E48-4BC4-93C9-2F323B569611Q46101551-D0A28A9C-3026-43B9-BE14-5F9CD911918DQ46869604-3AC9095F-75E4-45E2-BB0D-2A6A6758AAB3Q47985784-2F2B691E-156E-49AE-B7E4-4A8E2DF2BA30Q48496093-97E0C343-B513-4A3B-A313-EB0730511669Q49611582-23E6DC30-63C0-422C-8707-D951BC1C4048Q49968024-27A206C2-7DA3-4C29-9683-57E26AEA369CQ59042516-FC5A74ED-7094-4CE1-A0B6-D43C4A01966B
P2860
Differences among implanted pulse generator waveforms cause variations in the neural response to deep brain stimulation
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Differences among implanted pu ...... onse to deep brain stimulation
@ast
Differences among implanted pu ...... onse to deep brain stimulation
@en
type
label
Differences among implanted pu ...... onse to deep brain stimulation
@ast
Differences among implanted pu ...... onse to deep brain stimulation
@en
prefLabel
Differences among implanted pu ...... onse to deep brain stimulation
@ast
Differences among implanted pu ...... onse to deep brain stimulation
@en
P2860
P1476
Differences among implanted pu ...... onse to deep brain stimulation
@en
P2093
Cameron C McIntyre
P2860
P304
P356
10.1016/J.CLINPH.2007.05.061
P577
2007-06-19T00:00:00Z