Closing an open-loop control system: vestibular substitution through the tongue.
about
Influence of a portable audio-biofeedback device on structural properties of postural swayBalance Improvement Effects of Biofeedback Systems with State-of-the-Art Wearable Sensors: A Systematic ReviewThe body-machine interface: a new perspective on an old themeA mathematical model for incorporating biofeedback into human postural controlInvestigating a new neuromodulation treatment for brain disorders using synchronized activation of multimodal pathways.The experience of new sensorimotor contingencies by sensory augmentation.Augmentation-related brain plasticityApplication of vibrotactile feedback of body motion to improve rehabilitation in individuals with imbalance.Efficacy of electrotactile vestibular substitution in patients with peripheral and central vestibular lossEffects of practicing tandem gait with and without vibrotactile biofeedback in subjects with unilateral vestibular loss.Noninvasive tongue stimulation combined with intensive cognitive and physical rehabilitation induces neuroplastic changes in patients with multiple sclerosis: A multimodal neuroimaging studyNon-invasive neuromodulation to improve gait in chronic multiple sclerosis: a randomized double blind controlled pilot trial.Electrotactile stimulation on the tongue: Intensity perception, discrimination, and cross-modality estimation.Progress toward development of a multichannel vestibular prosthesis for treatment of bilateral vestibular deficiencySustained cortical and subcortical neuromodulation induced by electrical tongue stimulation.High-resolution fMRI detects neuromodulation of individual brainstem nuclei by electrical tongue stimulation in balance-impaired individuals.Current and future management of bilateral loss of vestibular sensation - an update on the Johns Hopkins Multichannel Vestibular Prosthesis Project.Is it possible to restore function with two percent surviving neural tissue?Emerging concepts of brain function.Learning New Sensorimotor Contingencies: Effects of Long-Term Use of Sensory Augmentation on the Brain and Conscious Perception.Biofeedback improves postural control recovery from multi-axis discrete perturbations.Brainport: an alternative input to the brain.Plasticity of functional connectivity in the adult spinal cord.Electrical tongue stimulation normalizes activity within the motion-sensitive brain network in balance-impaired subjects as revealed by group independent component analysisAltered connectivity of the balance processing network after tongue stimulation in balance-impaired individualsVestibular ablation and a semicircular canal prosthesis affect postural stability during head turns.Perceived Intensity and Discrimination Ability for Lingual Electrotactile Stimulation Depends on Location and Orientation of Electrodes.Sensory Substitution: The Spatial Updating of Auditory Scenes "Mimics" the Spatial Updating of Visual ScenesThe co-constitution of the self and the world: action and proprioceptive coupling.Mathematical Model of the Cupula-Endolymph System with Morphological Parameters for the Axolotl (Ambystoma tigrinum) Semicircular Canals.Selectivity and Longevity of Peripheral-Nerve and Machine Interfaces: A Review.Effect of tongue position on postural stability during quiet standing in healthy young males.The role of internal forward models and proprioception in hand position estimation.Serotonergic stimulation induces nerve growth and promotes visual learning via posterior eye grafts in a vertebrate model of induced sensory plasticity.[Vibrotactile neurofeedback training with the Vertiguard®-RT-system. A placebo-controlled double-blinded pilot study on vestibular rehabilitation].Voluntarily controlled but not merely observed visual feedback affects postural sway.Reduction of Prolonged Excessive Pressure in Seated Persons With Paraplegia Using Wireless Lingual Tactile Feedback: A Randomized Controlled Trial.
P2860
Q24811078-8E8AD245-E0F9-4493-BB1D-99F5FA3DE7E2Q26749719-1505A803-4E14-4DC5-BE30-649E8FD706D6Q26852138-59A7E202-365F-45D6-8C27-4A5B1E62363BQ28394546-1F92ADC8-F377-4ACD-B220-8FA04B1257CCQ30414874-EFE9EF06-954F-4566-B7AA-09B712A99937Q30431274-CDD0953E-ED14-4779-9F23-112B64FA3884Q30436064-FB6A4A2C-9C1C-4C66-9E45-5332BCE25E81Q30475329-8F77E17B-C023-48E6-AA28-A37EFE6CD0DBQ30492829-CB50C540-A9ED-4A94-9CFB-05C43E159472Q30493908-69E8BF1F-84E2-4261-B2B1-199E4B9E6A2AQ30855289-F61E30ED-54AE-4A3C-BE89-75D2C8F1832EQ33597418-F53E1045-5ADE-4A70-AAFA-9C5B943539B9Q33731042-51524053-124A-45D5-97D0-7C89F668ABCEQ33759953-D7E444E4-5717-44C7-92C1-115DEDAAC56BQ34267699-34581D8C-EF4E-4515-A3EA-8AA37BAFC467Q35017216-CE8F19FB-754B-4D2C-AE26-46FEA9B2EC8EQ35721901-C1954884-DBCC-4CBB-A105-BBF643BF0B21Q35771170-A728AB16-FBA9-4C23-8C93-A51FF59703C1Q36179419-F068E2AD-CE38-4A91-BBB4-C863A11161F2Q36222091-4D1F1CC8-5115-4DA5-8D30-1C6F527EB426Q36335003-7FC2F56F-03A4-417D-96ED-2D2CDBF54B8CQ36356803-892AA01E-AC1A-4B4F-AAB4-24860ADF40ECQ36581093-32124F2B-CAD7-4A12-BD4B-6A567EA77035Q36752572-C627C400-B431-431B-A114-F98A95863412Q36752688-81359F90-A51E-4C2C-887D-611896DE056FQ37412126-8E9CD924-E90D-4763-8213-3F0A943FE404Q38686220-1534FF42-0B71-42F5-B910-4F79E0B8D4C1Q40412644-2365B3F0-21E4-4829-B38F-6AB09C11F242Q40612340-928A821A-110F-494A-97A6-88985D11EC4DQ43098327-02866A76-7301-4FDB-9358-E93035D58DAFQ47133336-B2515160-A9F7-4791-85DE-C2D3210CDDC8Q47562360-6334A592-0149-4ED8-8582-B1D83D51999EQ50568094-6617FCDE-5969-4474-A59A-9DBA47BA5D6CQ52687516-AE18E853-F76F-444A-824C-B2A13DA3A316Q52894199-AE34E9D6-C6A5-43B0-9F4B-B0AA811881E5Q55363505-A12C7F26-F96C-4CA8-A2C8-0085DF6FCF88Q55519703-26813D9E-6B6C-4844-BF78-F92056D899CA
P2860
Closing an open-loop control system: vestibular substitution through the tongue.
description
2003 nî lūn-bûn
@nan
2003 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Closing an open-loop control system: vestibular substitution through the tongue.
@ast
Closing an open-loop control system: vestibular substitution through the tongue.
@en
Closing an open-loop control system: vestibular substitution through the tongue.
@nl
type
label
Closing an open-loop control system: vestibular substitution through the tongue.
@ast
Closing an open-loop control system: vestibular substitution through the tongue.
@en
Closing an open-loop control system: vestibular substitution through the tongue.
@nl
prefLabel
Closing an open-loop control system: vestibular substitution through the tongue.
@ast
Closing an open-loop control system: vestibular substitution through the tongue.
@en
Closing an open-loop control system: vestibular substitution through the tongue.
@nl
P2860
P1476
Closing an open-loop control system: vestibular substitution through the tongue
@en
P2093
Mitchell Tyler
Paul Bach-Y-Rita
P2860
P304
P356
10.1142/S0219635203000263
P50
P577
2003-12-01T00:00:00Z