Transcranial magnetic stimulation coregistered with MRI: a comparison of a guided versus blind stimulation technique and its effect on evoked compound muscle action potentials - Wikidata - awgldk - TriplyDB

Transcranial magnetic stimulation coregistered with MRI: a comparison of a guided versus blind stimulation technique and its effect on evoked compound muscle action potentials

Transcranial magnetic stimulation coregistered with MRI: a comparison of a guided versus blind stimulation technique and its effect on evoked compound muscle action potentials

http://www.wikidata.org/entity/Q28361263

about

Safety, ethical considerations, and application guidelines for the use of transcranial magnetic stimulation in clinical practice and research.Disruption of the right temporoparietal junction with transcranial magnetic stimulation reduces the role of beliefs in moral judgments Improved motion perception and impaired spatial suppression following disruption of cortical area MT/V5 The development and modelling of devices and paradigms for transcranial magnetic stimulation Clinical effects and brain metabolic correlates in non-invasive cortical neuromodulation for visceral pain.Rapid and reversible recruitment of early visual cortex for touch Muscles in "concert": study of primary motor cortex upper limb functional topography.Brain stimulation for the treatment of pain: A review of costs, clinical effects, and mechanisms of treatment for three different central neuromodulatory approaches Measuring and manipulating brain connectivity with resting state functional connectivity magnetic resonance imaging (fcMRI) and transcranial magnetic stimulation (TMS).Physiological changes underlying bilateral isometric arm voluntary contractions in healthy humans TMS suppression of right pars triangularis, but not pars opercularis, improves naming in aphasia.Co-registration of magnetic resonance spectroscopy and transcranial magnetic stimulation.Transcranial magnetic stimulation of the brain: guidelines for pain treatment research Two phases of V1 activity for visual recognition of natural images.Neuronavigation increases the physiologic and behavioral effects of low-frequency rTMS of primary motor cortex in healthy subjects Assessing brain plasticity across the lifespan with transcranial magnetic stimulation: why, how, and what is the ultimate goal?Differentiation of motor cortical representation of hand muscles by navigated mapping of optimal TMS current directions in healthy subjects.Assessment and modulation of neural plasticity in rehabilitation with transcranial magnetic stimulation.Optimal number of pulses as outcome measures of neuronavigated transcranial magnetic stimulation Enhanced motor function and its neurophysiological correlates after navigated low-frequency repetitive transcranial magnetic stimulation over the contralesional motor cortex in stroke.Studies in cognition: the problems solved and created by transcranial magnetic stimulation.Neuronavigated vs. conventional repetitive transcranial magnetic stimulation method for virtual lesioning on the Broca's area.The reliability of topographic measurements from navigated transcranial magnetic stimulation in healthy volunteers and tumor patients.Optimizing functional accuracy of TMS in cognitive studies: a comparison of methods.Prospective Validation That Subgenual Connectivity Predicts Antidepressant Efficacy of Transcranial Magnetic Stimulation Sites.Effects of repetitive transcranial magnetic stimulation on motor recovery and motor cortex excitability in patients with stroke: a randomized controlled trial.Nonphysiological factors in navigated TMS studies; confounding covariates and valid intracortical estimates.Accurate Coil Positioning is Important for Single and Paired Pulse TMS on the Subject Level

P2860

Q24606718-CD576560-E125-4F61-844F-376E2490EF5B Q24612994-70BCFD31-5C4C-45A0-A48E-B079D6621FA8 Q24613318-1F17DD41-7E15-46CC-A715-154770C0FA7F Q29644736-494F04A9-492E-4524-A856-31E2BA65CA89 Q30471723-411066F3-E31B-4AAB-A1EE-72C830BA6216 Q33363546-6828B714-1FEE-4482-9CB2-73BAD397D36A Q33363573-029DCAA2-1F45-4F5A-8811-CC0F618B15CF Q33923860-2EE3767F-1178-4560-9E5E-914EBEB26F17 Q34215644-E7E8031C-043E-492B-BC21-9EDD1A3BE97A Q34785665-27095D5E-879D-4BAA-A68E-3FEDD2534FAD Q35375058-1F5AED0B-DE73-49E1-9CDE-2B52F9A8C3A5 Q35531552-90ED83F7-F61A-430A-92AB-D56432CBECF1 Q35985652-04B742B4-ABD0-48B8-9D65-0F286CF80DF8 Q36013804-99BE7750-6F74-464A-B772-F5DDF0C0706A Q36661021-9F254A9B-15A7-4871-B531-D1CCB6F644FC Q36732783-8A07CCB7-4726-41AE-A301-3BBA0FB254B7 Q37086709-CEF7256B-4FA1-4D89-B32D-A97E79259AC3 Q37633774-EE34733C-085D-41BF-BC17-49686C8C9D9C Q38870101-0B6F217B-5BB0-4E86-80D2-7DBB1E18D230 Q42292532-48458A45-C073-4C3B-926D-378D6B47DD3A Q44653962-308F77B3-0485-48A2-8EE6-0150A4E6AF4F Q44788293-5FB019B5-0F16-41D1-861D-F424A1301EBF Q45466294-E7C7AD70-83CF-4EE5-94CD-09B272F031C4 Q46341861-150F6177-49B4-470A-8791-DC53AC0ECD7B Q47669673-17BFBB8E-803C-496D-8651-FFEFA9C72DA6 Q48475911-B91C5EF3-B564-423B-85E0-FA09F7E19C48 Q48578024-1AFF3FFF-B004-4FCB-BC6F-B68D430FD533 Q55334033-FBEE1220-54BF-4A21-989E-B3F995C316E7

P2860

Transcranial magnetic stimulation coregistered with MRI: a comparison of a guided versus blind stimulation technique and its effect on evoked compound muscle action potentials

http://www.wikidata.org/entity/Q28361263

description

2001 nî lūn-bûn

@nan

2001 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2001 թվականի հոտեմբերին հրատարակված գիտական հոդված

@hy

2001年の論文

@ja

2001年論文

@yue

2001年論文

@zh-hant

2001年論文

@zh-hk

2001年論文

@zh-mo

2001年論文

@zh-tw

2001年论文

@wuu

name

Transcranial magnetic stimulat ...... pound muscle action potentials

@ast

Transcranial magnetic stimulat ...... pound muscle action potentials

@en

Transcranial magnetic stimulat ...... pound muscle action potentials

@nl

type

label

Transcranial magnetic stimulat ...... pound muscle action potentials

@ast

Transcranial magnetic stimulat ...... pound muscle action potentials

@en

Transcranial magnetic stimulat ...... pound muscle action potentials

@nl

prefLabel

Transcranial magnetic stimulat ...... pound muscle action potentials

@ast

Transcranial magnetic stimulat ...... pound muscle action potentials

@en

Transcranial magnetic stimulat ...... pound muscle action potentials

@nl

P1433

Q28361263-F3D1EB4A-EBA4-4460-BA5F-6B9F7D769DCD

P1476

Q28361263-DF4AA722-88F7-426D-8C19-24897CEBC112

P2093

Q28361263-289DBB6F-2B5E-4D79-B7DF-7A4DACCCDDAC

Q28361263-3B77AA16-0AEB-4882-906E-D4798424EFFB

Q28361263-631BAC18-6F7E-426F-A1F4-42B7803C8700

Q28361263-82B00243-478A-4AB5-83AC-0084558C0CEB

Q28361263-84AF4DA1-A72F-4DC9-8544-728010B58C20

Q28361263-94D3ED3A-46BD-4FE5-9E86-887704889F17

Q28361263-995725F5-078F-40D3-BE33-D06E224996E0

Q28361263-9F096B8F-35DD-40F8-A912-F71D10E20767

Q28361263-A9A9DEA3-C1D3-43D9-8513-BEA5183B3049

Q28361263-C85DC446-C1DA-4630-A3F7-5B6B8E4979DD

P2860

Q28361263-012BADE5-4DB1-4D16-AD16-809755AF63CB

Q28361263-06734718-01B3-460A-86F5-F7AAB338A845

Q28361263-12B0DE1F-3456-4F77-8F95-E47E9D3B7688

Q28361263-1685D914-6477-4D61-B7A1-54F9BCB2A32F

Q28361263-189FB4C0-31B8-4539-8DC6-72B512298280

Q28361263-1C9FA4D7-CB0E-44A9-B1C9-1B5C94B14AE5

Q28361263-382B4E17-91E1-4FB3-A441-BA49CA9E5769

Q28361263-388811F5-04B8-4DB4-8201-B412A9B70E2B

Q28361263-3BA01C52-1EEB-43D2-859C-2BECA7C428F6

Q28361263-52CE0F71-7017-49F1-A9AC-1C1CB14C4907

P304

Q28361263-32D9707A-F2F2-4614-ACCB-E7C7AAC31422

P31

Q28361263-CA300A5D-F54D-47DA-9AF1-DE1FC63DEB93

P356

Q28361263-C10E42AA-C737-4F02-9E6A-90D906C6BA1A

P407

Q28361263-0E2E562F-A5AF-44AE-856F-DD8FF676753C

P433

Q28361263-F74D6C1C-B02D-4BC8-A51A-F45823D5413A

P478

Q28361263-3D704F7C-F042-48B5-A0E2-D5D734E7D535

P577

Q28361263-B01C00B9-EE95-4578-94BA-2D520011C357

P698

Q28361263-CA2A88B6-C500-4D4A-8058-3AAA3422D6B4

P932

Q28361263-3052242B-03FF-4FA2-8A38-18CF21BF87AA

P356

S1388-2457(01)00633-2

P1433

Clinical Neurophysiology

P1476

Transcranial magnetic stimulat ...... pound muscle action potentials

@en

P2093

A Pascual-Leone

http://www.w3.org/2001/XMLSchema#string

D Titone

http://www.w3.org/2001/XMLSchema#string

E Grimson

http://www.w3.org/2001/XMLSchema#string

J R Romero

http://www.w3.org/2001/XMLSchema#string

L Aglio

http://www.w3.org/2001/XMLSchema#string

L D Gugino

http://www.w3.org/2001/XMLSchema#string

M E Shenton

http://www.w3.org/2001/XMLSchema#string

M Ramirez

http://www.w3.org/2001/XMLSchema#string

N Weisenfeld

http://www.w3.org/2001/XMLSchema#string

R Kikinis

http://www.w3.org/2001/XMLSchema#string

P2860

Transcranial magnetic stimulation: studying the brain-behaviour relationship by induction of 'virtual lesions'.

Motor reorganization after upper limb amputation in man. A study with focal magnetic stimulation.

Locating the motor cortex on the MRI with transcranial magnetic stimulation and PET.

Optimal focal transcranial magnetic activation of the human motor cortex: effects of coil orientation, shape of the induced current pulse, and stimulus intensity.

Magnetic stimulation of the human cerebral cortex, an indicator of reorganization in motor pathways in certain pathological conditions.

Plasticity of cortical motor output organization following deafferentation, cerebral lesions, and skill acquisition.

Corticomotoneuronal cells contribute to long-latency stretch reflexes in the rhesus monkey.

Changes in the effect of magnetic brain stimulation accompanying voluntary dynamic contraction in man.

Non-invasive magnetic stimulation of human motor cortex.

Topographic mapping of the human motor cortex with magnetic stimulation: factors affecting accuracy and reproducibility.

P304

1781-92

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/S1388-2457(01)00633-2

http://www.w3.org/2001/XMLSchema#string

P407

P433

10

http://www.w3.org/2001/XMLSchema#string

P478

112

http://www.w3.org/2001/XMLSchema#string

P577

2001-10-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

11595135

http://www.w3.org/2001/XMLSchema#string

P932

2845153

http://www.w3.org/2001/XMLSchema#string