Neural adaptations to resistive exercise: mechanisms and recommendations for training practices.
about
Cross-education of strength and skill: an old idea with applications in the aging nervous systemExercise and medication effects on persons with Parkinson disease across the domains of disability: a randomized clinical trial.Effects of Mental Imagery on Muscular Strength in Healthy and Patient Participants: A Systematic ReviewSensory and motor peripheral nerve function and longitudinal changes in quadriceps strengthTranslating principles of neural plasticity into research on speech motor control recovery and rehabilitation.Development of a specific exercise programme for professional orchestral musicians.Time course of functional and biomechanical improvements during a gait training intervention in persons with chronic strokeNeuromuscular and metabolic responses to three different resistance exercise methods.Greater Neural Adaptations following High- vs. Low-Load Resistance Training.Non-invasive physiological monitoring of exercise and fitness.Effectiveness of accommodation and constant resistance training on maximal strength and power in trained athletesResistance training induces supraspinal adaptations: evidence from movement-related cortical potentials.Rehabilitation of a female dancer with patellofemoral pain syndrome: applying concepts of regional interdependence in practice.Child-adult differences in muscle activation--a review.Effects of home-based resistance training and neuromuscular electrical stimulation in knee osteoarthritis: a randomized controlled trial.Neural drive increases following resistance training in patients with multiple sclerosis.Effect of 16 weeks of resistance training on fatigue resistance in men and womenEffects of barbell deadlift training on submaximal motor unit firing rates for the vastus lateralis and rectus femoris.A promising approach to effectively reduce cramp susceptibility in human muscles: a randomized, controlled clinical trialImpact of vitamin D supplementation during a resistance training intervention on body composition, muscle function, and glucose tolerance in overweight and obese adultsNeural adaptations to electrical stimulation strength trainingProgressive resistance exercise and Parkinson's disease: a review of potential mechanismsShank Muscle Strength Training Changes Foot Behaviour during a Sudden Ankle Supination.Strength training in soccer with a specific focus on highly trained players.The Magnitude of Peripheral Muscle Fatigue Induced by High and Low Intensity Single-Joint Exercise Does Not Lead to Central Motor Output Reductions in Resistance Trained Men.Effect of Training Leading to Repetition Failure on Muscular Strength: A Systematic Review and Meta-Analysis.Efficacy of Blood Flow-Restricted Low-Load Resistance Training For Quadriceps Strengthening in Men at Risk of Symptomatic Knee Osteoarthritis.Factors relating to gender specificity of unloading-induced declines in strength.Should we think about wrist extensor after flexor tendon repair?Type of Encouragement Influences Peak Muscle Force in College-Age WomenChanges in muscle coordination with training.Short-term isokinetic training versus isotonic training: effects on asymmetry in strength of thigh musclesSports and exercise-related tendinopathies: a review of selected topical issues by participants of the second International Scientific Tendinopathy Symposium (ISTS) Vancouver 2012.Impact of high versus low fixed loads and non-linear training loads on muscle hypertrophy, strength and force development.Increased Nitric Oxide Bioavailability and Decreased Sympathetic Modulation Are Involved in Vascular Adjustments Induced by Low-Intensity Resistance Training.The potential neural mechanisms of acute indirect vibration.Chronic low-frequency rTMS of primary motor cortex diminishes exercise training-induced gains in maximal voluntary force in humans.Focusing on Increasing Velocity during Heavy Resistance Knee Flexion Exercise Boosts Hamstring Muscle Activity in Chronic Stroke Patients.Effect of resistance training on C-reactive protein, blood glucose and lipid profile in older women with differing levels of RT experience.FUNCTIONAL OUTCOMES AFTER DISTAL BICEPS BRACHII REPAIR: A CASE SERIES.
P2860
Q26738340-F03DC762-E11E-44D1-BDBE-ADCE98F2B140Q27314221-657F6012-05EA-49C2-8357-97807A8A3C02Q28073705-CA30CD5C-A302-4E0B-956E-49845C9B3D0BQ28390680-EA6907F0-6C9B-44FA-BB22-96560A2715ACQ28754738-7636D696-B584-4F9B-A5EE-6792F8E4EAAEQ30558397-D8AF9FCD-C3FA-49EE-A2EF-BEEC5A9F78E6Q30564243-E8660836-AC18-44C5-8E35-76B24A49221EQ33562363-253F29D0-73A0-43EA-ACC0-BC3CCCF3C096Q33734816-4B6E2E98-DCDC-4FD2-85BB-B5831A8E2ACCQ33786361-9EDE79CC-2D10-4C16-B482-C9B62CE79941Q33843339-4497C447-AB86-48D8-A6B4-88AA5225E4F3Q33942636-A3CD3A08-8803-40A4-994E-A4F419F21A35Q34191395-EE5A74F6-520E-40CF-8734-7B2442B238A3Q34262529-A0E933CC-31BF-4DD2-8EDC-1C4CDF0563CEQ34325091-B832ED6B-D5FD-4F4E-BED5-6DAF3BADF08BQ34332475-7EA6D570-5709-49A8-8B47-25288844F43AQ34527625-FBA24B1D-7568-445A-89F0-50998FE1077BQ34757803-E8507305-368C-4CE9-9B8A-EBD428BA9B53Q35146598-B7D16940-083E-44AC-96EB-F43BE67875DCQ35193436-FD8C0545-4C00-4355-B3A6-F3B96832D5BAQ35219150-8D6103D9-DFFF-4E31-A104-D07AC9D17066Q35608983-B0772D1A-75FF-4352-B294-D33959971EA1Q35674371-98C1D234-A6E8-48F8-BA93-0F322554A954Q35748544-3E78368E-CE69-4294-A764-B672D24E611FQ35800243-C7547F6C-9378-4DC5-8ECD-04D91C224E9AQ35868535-9046B5B0-0B2D-4FDD-81FB-616507D3A245Q35953380-AA133E8A-87E8-4F33-A5F9-D16E89615253Q36103937-655E8B54-2BA5-4D95-8CB7-947B30528D14Q36394922-B4B9E0E4-FFDF-42F8-8A6A-DB9C6113CBE8Q36537524-40FCF864-0389-4D64-AB93-5AF92BB6885CQ36556338-851C77F4-2FA0-4B74-815A-68E31A809865Q36657762-C7BC09F8-CAEC-42FA-97EA-A347DA01041EQ36876752-A7CCF8D8-8A97-46E9-BDA2-AF9F423E49FBQ36985042-2E43973F-3124-42B7-B7EB-693CFAB6B7FEQ37043286-027B707A-3EE1-4D35-9871-BB96863A29D9Q37081302-2AB92712-07B1-4E87-AF61-AC655C532B77Q37101178-10FE337F-4EA8-436C-BDC4-EEC2D0943C07Q37156949-D45BA3D0-21D8-477D-B4B2-7E9F21B9137AQ37219364-AFFB825B-F3AA-495D-BD90-F777CAA69AC3Q37394368-35B2FA72-212B-4A6E-AB37-EE219E6087D0
P2860
Neural adaptations to resistive exercise: mechanisms and recommendations for training practices.
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Neural adaptations to resistiv ...... ations for training practices.
@ast
Neural adaptations to resistiv ...... ations for training practices.
@en
Neural adaptations to resistiv ...... ations for training practices.
@nl
type
label
Neural adaptations to resistiv ...... ations for training practices.
@ast
Neural adaptations to resistiv ...... ations for training practices.
@en
Neural adaptations to resistiv ...... ations for training practices.
@nl
prefLabel
Neural adaptations to resistiv ...... ations for training practices.
@ast
Neural adaptations to resistiv ...... ations for training practices.
@en
Neural adaptations to resistiv ...... ations for training practices.
@nl
P2093
P2860
P1433
P1476
Neural adaptations to resistiv ...... ations for training practices.
@en
P2093
David A Gabriel
Gail Frost
Gary Kamen
P2860
P304
P356
10.2165/00007256-200636020-00004
P577
2006-01-01T00:00:00Z
P6179
1037123903