FUNCTIONAL SIGNIFICANCE OF CELL SIZE IN SPINAL MOTONEURONS.
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Sustained maximal voluntary contraction produces independent changes in human motor axons and the muscle they innervateDiminution of voltage threshold plays a key role in determining recruitment of oculomotor nucleus motoneurons during postnatal developmentRelationship between hamstring activation rate and heel contact velocity: factors influencing age-related slip-induced fallsThe orderly recruitment of human motor units during voluntary isometric contractionsCortical control of a whisking central pattern generatorThe relationship between ciliary neurotrophic factor (CNTF) genotype and motor unit physiology: preliminary studies.Age-dependent motor unit remodelling in human limb musclesRegulation of increased blood flow (hyperemia) to muscles during exercise: a hierarchy of competing physiological needsDirect optical activation of skeletal muscle fibres efficiently controls muscle contraction and attenuates denervation atrophyAn Electromyographic-driven Musculoskeletal Torque Model using Neuro-Fuzzy System Identification: A Case StudyThe effect of training volume and intensity on improvements in muscular strength and size in resistance-trained menSymmetry of mandibular muscle activity as an index of coordinative strategy.Adaptability of anticipatory postural adjustments associated with voluntary movement.A mechanism for graded motor control encoded in the channel properties of the muscle ACh receptorEvolving a neural olfactorimotor system in virtual and real olfactory environmentsArtificial voice modulation in dogs by recurrent laryngeal nerve stimulation: electrophysiological confirmation of anatomic data.Functional and structural correlates of motor speed in the cerebellar anterior lobe.Glucose stimulates proinsulin biosynthesis by a dose-dependent recruitment of pancreatic beta cells.F-responses: a study of frequency, shape and amplitude characteristics in healthy control subjectsPatterns of reinnervation and motor unit recruitment in human hand muscles after complete ulnar and median nerve section and resuture.Effect of tendon vibration during wide-pulse neuromuscular electrical stimulation (NMES) on the decline and recovery of muscle force.Unloaded shortening velocity of voluntarily and electrically activated human dorsiflexor muscles in vivoElectromyographic, cerebral, and muscle hemodynamic responses during intermittent, isometric contractions of the biceps brachii at three submaximal intensities.The DIADEM data sets: representative light microscopy images of neuronal morphology to advance automation of digital reconstructionsMotor unit pool organization examined via spike-triggered averaging of the surface electromyogram.Motor unit regulation of mammalian pharyngeal dilator muscle activity.Intraspinal stimulation for bladder voiding in cats before and after chronic spinal cord injury.Intercostal muscle pacing with high frequency spinal cord stimulation in dogsStructural remodeling of the heart and its premotor cardioinhibitory vagal neurons following T(5) spinal cord transectionA phenomenological model that predicts forces generated when electrical stimulation is superimposed on submaximal volitional contractionsDifferentiation between deep and superficial fibers of the lumbar multifidus by magnetic resonance imagingEMG analysis of lumbar paraspinal muscles as a predictor of the risk of low-back pain.Effects of resistance training on muscle strength, endurance, and motor unit according to ciliary neurotrophic factor polymorphism in male college studentsSensory, motor and sympathetic neurons forming the common peroneal and tibial nerves in the macaque monkey (Macaca fascicularis)Orderly recruitment of motor units under optical control in vivo.Differential regulation of the fiber type-specific gene expression of the sarcoplasmic reticulum calcium-ATPase isoforms induced by exercise training.Morphology and physiology of masticatory muscle motor units.Child-adult differences in muscle activation--a review.A spectral analysis of rotator cuff musculature electromyographic activity: surface and indwellingIs fatigue all in your head? A critical review of the central governor model.
P2860
Q21132286-9B521967-2616-46A4-9DA5-261E8592502AQ21560889-601A3C47-B7F5-4E25-881D-BE1935F53E55Q24169910-85A0AE58-AEB6-4EB0-B9AD-0B3E7283B621Q24538953-5CBD37CA-8446-48AF-A340-AD0DBEED88A9Q24675884-5AD5A885-BEDA-4ED5-B0CF-3989FE56C302Q24816895-3D439C9E-3FC5-4E9C-BF0D-A2A09CDE071EQ26775942-566D5EF0-CB62-42F3-8581-916103A658B6Q27001180-BF75D28F-1B6E-4167-96A3-E09D1E54A3BFQ27321734-44923EBC-C0FC-4CA0-8E01-A0AAE33B2CDCQ28397841-33E6B7D9-3E9A-40B4-B271-C5FDC6EA88F6Q30403021-D42BB987-8530-4519-981A-FC0319A0F574Q30440223-D16F4487-B7AF-469C-BBAF-CFDC1A6A5513Q30466506-F11F6133-6A1F-4146-A60F-194114F7D8FBQ30498172-49FE0E28-6EAA-4253-8FE3-E01024D532B4Q30527778-24591A69-8B43-4375-BC14-9981F2BAA79FQ31107028-1E51F93C-BC08-4372-B89B-6E34F4994B8BQ33573743-891DFF3E-5AB0-4B56-873A-0D0861485C67Q33577735-8AD8B702-B0A7-4F2B-A78D-1C83D13286EDQ33621656-AEFBC60B-62EA-4BF6-B82D-5FB9B61CB4D6Q33627911-36BD9133-D377-44EE-BABD-8EB13B03CC6CQ33630390-D097DFEE-4A95-4A7C-8DA9-4090984331ACQ33707437-11E7121A-F511-4E81-9C29-A64DDA972986Q33737946-7140B456-C809-4395-BA13-747B93894104Q33798163-849EBB4C-1595-4F5E-9D0B-1C448D37BE02Q33816627-EB416F8F-AD60-4C01-95B0-3353FA66F884Q33848379-1DE431F1-D033-4FD9-A4F9-DC77A9DB083AQ33853299-F01FEFC9-2F3C-4A7E-AF58-4A28B0AD720DQ33869533-9CECB44F-4D4B-47A9-93E7-D9B055D07246Q33900494-E505BA08-3B9D-4724-9549-5159E2EBD8DCQ33917338-0C3CF632-477E-44E8-A5F4-5D4F6C426593Q33973579-FCCDAA45-4D83-4B5D-8216-83BDB2426CC3Q33974912-887D496F-B862-4088-A4B0-2344C1365F13Q34019528-3D59D6C5-FF8F-458C-823F-50608152FDFBQ34090786-86B7D423-A9EE-4520-B49A-227E30E6C47BQ34140195-2E97204C-289F-4F11-9F8C-EDC69EA0372DQ34146905-84C973A5-C468-46AC-BA59-95280698DDDAQ34249558-18CEE214-82CB-4931-B40D-73FB6F02BB1EQ34262529-A4EAE972-86E4-49FF-AEE7-9A7964E41CCDQ34516889-BBBC37EB-EE52-4DCB-B8A7-929F3A705432Q34541775-F061C1F9-553B-45ED-A729-BA5BA0B1BF78
P2860
FUNCTIONAL SIGNIFICANCE OF CELL SIZE IN SPINAL MOTONEURONS.
description
1965 nî lūn-bûn
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1965年の論文
@ja
1965年学术文章
@wuu
1965年学术文章
@zh
1965年学术文章
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1965年学术文章
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1965年学术文章
@zh-my
1965年学术文章
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1965年學術文章
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1965年學術文章
@zh-hant
name
FUNCTIONAL SIGNIFICANCE OF CELL SIZE IN SPINAL MOTONEURONS.
@en
FUNCTIONAL SIGNIFICANCE OF CELL SIZE IN SPINAL MOTONEURONS.
@nl
type
label
FUNCTIONAL SIGNIFICANCE OF CELL SIZE IN SPINAL MOTONEURONS.
@en
FUNCTIONAL SIGNIFICANCE OF CELL SIZE IN SPINAL MOTONEURONS.
@nl
prefLabel
FUNCTIONAL SIGNIFICANCE OF CELL SIZE IN SPINAL MOTONEURONS.
@en
FUNCTIONAL SIGNIFICANCE OF CELL SIZE IN SPINAL MOTONEURONS.
@nl
P2093
P356
P1476
FUNCTIONAL SIGNIFICANCE OF CELL SIZE IN SPINAL MOTONEURONS.
@en
P2093
D O CARPENTER
E HENNEMAN
P304
P356
10.1152/JN.1965.28.3.560
P407
P577
1965-05-01T00:00:00Z