Changes in muscle strength, muscle fibre size and myofibrillar gene expression after immobilization and retraining in humans.
about
Physiological and Neural Adaptations to Eccentric Exercise: Mechanisms and Considerations for TrainingA mechanism for increased contractile strength of human pennate muscle in response to strength training: changes in muscle architectureSkeletal Muscle Remodeling in Response to Eccentric vs. Concentric Loading: Morphological, Molecular, and Metabolic AdaptationsMultiple sclerosis and physical exercise: recommendations for the application of resistance-, endurance- and combined training.Effects of 2 weeks lower limb immobilization and two separate rehabilitation regimens on gastrocnemius muscle protein turnover signaling and normalization genes.Multiple sclerosis affects skeletal muscle characteristicsSkeletal muscle changes after hemiparetic stroke and potential beneficial effects of exercise intervention strategies.Myofibrillar protein and gene expression in acute quadriplegic myopathy.Unilateral muscle overuse causes bilateral changes in muscle fiber composition and vascular supply.Strength gains by motor imagery with different ratios of physical to mental practice.Respiratory muscle fibres: specialisation and plasticity.SMASH - semi-automatic muscle analysis using segmentation of histology: a MATLAB application.Functional impairment of skeletal muscle oxidative metabolism during knee extension exercise after bed rest.The biochemical basis of the health effects of exercise: an integrative view.Collagen Type III and VI Turnover in Response to Long-Term ImmobilizationAbnormal myofiber morphology and limb dysfunction in claudication.The use of eccentrically biased resistance exercise to mitigate muscle impairments following anterior cruciate ligament reconstruction: a short reviewFunctional classification of skeletal muscle networks. I. Normal physiology.Hibernating squirrel muscle activates the endurance exercise pathway despite prolonged immobilizationNeural pathways mediating cross education of motor function.Enhanced Corticospinal Excitability and Volitional Drive in Response to Shortening and Lengthening Strength Training and Changes Following Detraining.Resistance training to improve type 2 diabetes: working toward a prescription for the future.An overview of the therapeutic effects of leucine supplementation on skeletal muscle under atrophic conditions.Nutritional strategies to attenuate muscle disuse atrophy.Eccentric exercise training: modalities, applications and perspectives.Motor unit activity after eccentric exercise and muscle damage in humans.Strategies to maintain skeletal muscle mass in the injured athlete: nutritional considerations and exercise mimetics.Chronic Eccentric Exercise and the Older Adult.Neuromuscular adaptability of male and female rats to muscle unloading.Aging-related effects of bed rest followed by eccentric exercise rehabilitation on skeletal muscle macrophages and insulin sensitivity.Effects of creatine supplementation on housekeeping genes in human skeletal muscle using real-time RT-PCR.Guidelines for the management of acute joint bleeds and chronic synovitis in haemophilia: A United Kingdom Haemophilia Centre Doctors' Organisation (UKHCDO) guideline.Accelerated rehabilitation after arthroscopic Bankart repair in professional footballers.Muscle size, neuromuscular activation, and rapid force characteristics in elderly men and women: effects of unilateral long-term disuse due to hip-osteoarthritis.Skeletal muscle fiber characteristics and oxidative capacity in hemiparetic stroke survivors.Age-dependent neuromuscular impairment in prion protein knockout mice.Effects of aging on human skeletal muscle myosin heavy-chain mRNA content and protein isoform expression.The effect of ageing and immobilization on structure and function of human skeletal muscle fibres.Central nervous adaptations following 1 wk of wrist and hand immobilization.Isokinetic eccentric resistance training prevents loss in mechanical muscle function after running.
P2860
Q26778654-42ABF619-C38A-4782-813E-F37FE987E1A3Q28344054-01EA1C1A-76EF-4A86-A168-9B9886FD88CCQ33867159-45F48C64-FFD1-4245-96BA-BF155CC8D1B0Q34007062-8A7F860C-C0CB-4318-8DB3-F26A98E858B1Q34210690-B16CFEB7-4737-49E1-AD59-DDD7245A6414Q34267933-E38BBD3B-0A63-454B-8FC1-D5CE2E2079A8Q34300962-D555FBFC-6098-40B8-BE4A-2BED54503B4FQ34358001-5E4A8EFB-C5F0-4844-AEEF-F9CB743F975AQ34784788-C174F016-2ECA-463E-88A2-AA06E4435693Q35171516-B01E3FA1-46D3-4C1E-9D66-0B77C9AAD954Q35536966-78BFB92F-7E53-4E2C-947A-C977BC33CC2CQ35563234-0616EFC4-B066-40C5-9FC8-BABF5B2776CEQ35601654-6ED8EFA6-8992-48FC-9E78-C4B115184370Q35855900-21038D1C-A337-4F31-A7E4-D215548E7CEFQ35862226-5AD25704-4C40-47B7-8020-E6B48223FBFEQ35882665-F65368CF-2401-4D2E-B30A-F8AA9D591439Q36242165-529C5FBA-A0AD-4BA5-B37B-A7D62C54A305Q36530926-5CC0B177-FF46-4351-91E4-2F0BF9E7BFE2Q36997293-9CCE08E9-FFF9-44D5-AFDE-17E6FE0A9B25Q37050571-1A0A70DC-7EFB-4518-9443-3BFB2BD53AC3Q37627125-B9478B7E-AC78-4056-82FA-9FFE0BC83B81Q37679183-E35ADB64-E242-4B54-9FFC-41E1A443ECA4Q37761862-303711C7-328A-4F61-97C2-271ED55D3F01Q38095522-F126642E-575A-4D4D-A83B-A8912B771397Q38105294-C90A6B09-E5CE-416C-9021-7BE931E6F2D9Q38206782-C34F90CC-AEC6-486E-8CA0-8C281AB34EC4Q38229905-B011CCCA-C529-4AFE-82C6-B1D86AC276D8Q38566220-D285B7F9-19FC-4A21-948C-F013D38E0732Q38651899-7B497C7F-FD18-43C0-94FD-E282A0F978F5Q38680292-30923CE8-4726-4489-A746-B7708E8A1FDDQ39124065-D8D4C723-8C1F-4D2B-8B4F-58E5B60C8232Q39216258-C54D1958-AB38-4291-9997-A4B713CEA975Q39359112-4A8E69C6-6E5D-4337-91A9-EFEB51BC2DC6Q40267313-B2598371-310A-4116-B7D6-95D9276A0995Q40549152-3985E828-4EE3-4105-B99A-FE7954369B8BQ41217812-9D0257C8-3209-4E9F-9612-EE320DCD5F5AQ44002169-8660A3AA-06FD-4013-AF5F-7B11AE9444AAQ44619547-99E75E54-B98E-442C-AEFC-2A7BD5BDF81EQ45324532-2F17AECA-83C2-40B0-ACCA-34E9ED400737Q45910204-C28FADB8-ACDE-4726-8178-0B8FE0F78258
P2860
Changes in muscle strength, muscle fibre size and myofibrillar gene expression after immobilization and retraining in humans.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh-hant
name
Changes in muscle strength, mu ...... tion and retraining in humans.
@en
Changes in muscle strength, mu ...... tion and retraining in humans.
@nl
type
label
Changes in muscle strength, mu ...... tion and retraining in humans.
@en
Changes in muscle strength, mu ...... tion and retraining in humans.
@nl
prefLabel
Changes in muscle strength, mu ...... tion and retraining in humans.
@en
Changes in muscle strength, mu ...... tion and retraining in humans.
@nl
P2093
P2860
P1476
Changes in muscle strength, mu ...... tion and retraining in humans.
@en
P2093
G Hamilton
T Hortobágyi
P2860
P304
P356
10.1111/J.1469-7793.2000.00293.X
P407
P478
P577
2000-04-01T00:00:00Z