Neural adaptations to strength training: moving beyond transcranial magnetic stimulation and reflex studies.
about
Volitional weight-lifting in rats promotes adaptation via performance and muscle morphology prior to gains in muscle massCross-education of strength and skill: an old idea with applications in the aging nervous systemGait training facilitates central drive to ankle dorsiflexors in children with cerebral palsy.Differences in supraspinal and spinal excitability during various force outputs of the biceps brachii in chronic- and non-resistance trained individualsTime course of low- and high-volume strength training on neuromuscular adaptations and muscle quality in older womenPromoting motor function by exercising the brainRepeatability of corticospinal and spinal measures during lengthening and shortening contractions in the human tibialis anterior muscle.Cortical and spinal excitability during and after lengthening contractions of the human plantar flexor muscles performed with maximal voluntary effort.Neural adaptations to electrical stimulation strength trainingProgressive resistance exercise and Parkinson's disease: a review of potential mechanismsHigh-Intensity, Unilateral Resistance Training of a Non-Paretic Muscle Group Increases Active Range of Motion in a Severely Paretic Upper Extremity Muscle Group after Stroke.Assessment of Homonymous Recurrent Inhibition during Voluntary Contraction by Conditioning Nerve Stimulation.Corticospinal excitability measurements using transcranial magnetic stimulation are valid with intramuscular electromyography.Mirror training to augment cross-education during resistance training: a hypothesis.Eccentric exercise training: modalities, applications and perspectives.On voluntary rhythmic leg movement behaviour and control during pedalling.Role of carbohydrate in central fatigue: a systematic review.A Novel Application of Eddy Current Braking for Functional Strength Training During Gait.Neuromuscular changes and the rapid adaptation following a bout of damaging eccentric exercise.Tracking motor units longitudinally across experimental sessions with high-density surface electromyography.Conditioning effect of transcranial magnetic stimulation evoking motor-evoked potential on V-wave response.Corticomotor Excitability is Increased Following an Acute Bout of Blood Flow Restriction Resistance Exercise.Maximal Voluntary Activation of the Elbow Flexors Is under Predicted by Transcranial Magnetic Stimulation Compared to Motor Point Stimulation Prior to and Following Muscle Fatigue.Training the brain and its connections to muscles.Corticospinal responses following strength training: a systematic review and meta-analysis.Heavy-resistance exercise-induced increases in jump performance are not explained by changes in neuromuscular function.Stability of biceps brachii MMax with one session of strength training.Inter-limb transfer of ballistic motor skill following non-dominant limb training in young and older adults.Physical activity modulates corticospinal excitability of the lower limb in young and old adults.Eight weeks of local vibration training increases dorsiflexor muscle cortical voluntary activation.Emerging evidence that exercise-induced improvements in muscular strength are partly due to adaptations in the brain.Strength training reduces intracortical inhibition.Neural adaptations after short-term wingate-based high-intensity interval training.Neuroplasticity following short-term strength training occurs at supraspinal level and is specific for the trained task.Understanding the Science of Resistance Training: An Evolutionary Perspective.Effects of acute resistance training modality on corticospinal excitability, intra-cortical and neuromuscular responses.Inter-repetition rest training and traditional set configuration produce similar strength gains without cortical adaptations.The Time-Course of Acute Changes in Corticospinal Excitability, Intra-Cortical Inhibition and Facilitation Following a Single-Session Heavy Strength Training of the Biceps Brachii.Adaptations in corticospinal excitability and inhibition are not spatially confined to the agonist muscle following strength training.The effects of acute and prolonged muscle vibration on the function of the muscle spindle's reflex arc.
P2860
Q23909322-7F6B375B-CECF-414C-8C7A-413D790A8BC0Q26738340-2FB69C97-DE03-413A-98CB-F46455F9A89FQ27303884-75C04DA8-0DCA-47CE-8964-525FF305CE43Q28539185-F64C46E1-FA45-46BA-A43E-E6A90519590EQ30415109-1B9DB957-D9B2-4BAC-AC70-A51EDA85F259Q33772100-F27FD6A2-19A8-4F25-BC04-AE6C28EBED6DQ34259821-E68E5654-CC84-4FC6-BD8D-9DD79D0BF31EQ34482869-4921D5C3-D2A2-4BA5-BDF6-C0D5FC127DBDQ35219150-FAEB3B45-9BA9-439A-B7E0-9F1CF211B0D5Q35608983-F01D8C3F-9E74-4238-A430-01F10CCB192AQ35652244-92135A4F-D52E-472D-B345-29E95A410C21Q36202618-DD545E60-9829-4F90-AC0A-63D23EFF5971Q36288311-2C855FD2-3B13-4B0C-B81F-E3E77E6B7C26Q37040861-E22B2DA0-42C3-469F-AABE-253A71CE13E1Q38105294-1C948ACC-9B3D-4A4E-9540-553125445260Q38533320-8A075063-7949-4003-8292-A3916CB4E638Q38813867-8A94C293-9A49-48CA-BE10-34389D904F33Q38915529-53891C50-B715-4BCA-B4C0-90AC7849734AQ39095945-137A2904-779F-43A8-AB1B-7CC065018571Q41991267-33DFF139-0C53-4CA1-87EB-A84C16B58D33Q42118027-8172F53C-9105-4691-A3EA-8A87BF0A2C00Q42265668-82FE9E40-CA7F-4A17-9C92-01B208A4B733Q42363228-91FD4D70-E490-499A-A368-FA5E7E5C3107Q46180872-014AFB33-170B-4CCE-B93E-F081A9751265Q47881366-2091D2CF-B686-4F39-94C4-74BD368A1D65Q48044830-C5792BD0-E265-4DDF-84C6-5C13035C2004Q48052453-EF885DA7-BD5E-44D3-831D-81E5151A1E97Q48107369-0A796F98-C47C-4CB2-A11E-9A568C095A3DQ48155951-C7128B28-1C9E-4639-A834-E1DD1C744C80Q48309779-E269404B-03A2-4AF1-9DD4-66D38CAC0805Q48390414-EF034889-0561-415C-BB32-6B1A3285FF03Q48490830-40AE5F72-5958-40A9-B57E-1D1702E95ADCQ49334654-3F3D193B-AAB9-4C94-95EE-93E16CEE3D95Q49965219-F30382CA-2A68-455F-BC98-EEA1A1D186D9Q50055224-59706428-C146-48F2-91A0-1908AE34B4A1Q50209790-38877B27-7470-4721-B21B-26F9676200DAQ50546453-A4804E2B-614B-4C8F-801D-F65405990816Q51003510-34DB7CF9-A5E8-473A-9419-E0974A423DCFQ52874999-2E96F74D-3A00-47BA-8EDF-A232F9E1AB2CQ53310005-55F6F9C5-FA72-40BE-A483-6B9301DA61CF
P2860
Neural adaptations to strength training: moving beyond transcranial magnetic stimulation and reflex studies.
description
2011 nî lūn-bûn
@nan
2011 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Neural adaptations to strength ...... timulation and reflex studies.
@ast
Neural adaptations to strength ...... timulation and reflex studies.
@en
type
label
Neural adaptations to strength ...... timulation and reflex studies.
@ast
Neural adaptations to strength ...... timulation and reflex studies.
@en
prefLabel
Neural adaptations to strength ...... timulation and reflex studies.
@ast
Neural adaptations to strength ...... timulation and reflex studies.
@en
P1433
P1476
Neural adaptations to strength ...... stimulation and reflex studies
@en
P2093
J G Semmler
V S Selvanayagam
P304
P356
10.1111/J.1748-1716.2011.02271.X
P577
2011-04-19T00:00:00Z