Leucocytes, cytokines and satellite cells: what role do they play in muscle damage and regeneration following eccentric exercise?
about
Genetic variation and exercise-induced muscle damage: implications for athletic performance, injury and ageingRole of creatine supplementation in exercise-induced muscle damage: A mini reviewInteractions between muscle stem cells, mesenchymal-derived cells and immune cells in muscle homeostasis, regeneration and diseaseCyclooxygenase-2 or tumor necrosis factor-α inhibitors attenuate the mechanotransductive effects of pulsed focused ultrasound to suppress mesenchymal stromal cell homing to healthy and dystrophic muscleAttenuation of eccentric exercise-induced muscle damage conferred by maximal isometric contractions: a mini reviewInsights into the molecular etiology of exercise-induced inflammation: opportunities for optimizing performancePerformance Enhancing Diets and the PRISE Protocol to Optimize Athletic PerformanceExercise and diabetes: relevance and causes for response variabilitySatellite cells: regenerative mechanisms and applicability in muscular dystrophyResistance training-induced changes in integrated myofibrillar protein synthesis are related to hypertrophy only after attenuation of muscle damageVitamin C and E supplementation alters protein signalling after a strength training session, but not muscle growth during 10 weeks of trainingLeucine-enriched essential amino acids attenuate inflammation in rat muscle and enhance muscle repair after eccentric contractionThe roles of injury and nonsteroidal anti-inflammatory drugs in the development and outcomes of severe group A streptococcal soft tissue infectionsEffects of delayed NSAID administration after experimental eccentric contraction injury – A cellular and proteomics studyAcute and Post-Exercise Physiological Responses to High-Intensity Interval Training in Endurance and Sprint AthletesCould whole-body cryotherapy (below -100°C) improve muscle recovery from muscle damage?Prostaglandin E2 is essential for efficacious skeletal muscle stem-cell function, augmenting regeneration and strengthEffect of a professional soccer match in skin temperature of the lower limbs: a case study.Active muscle regeneration following eccentric contraction-induced injury is similar between healthy young and older adultsSatellite cell activity is differentially affected by contraction mode in human muscle following a work-matched bout of exercise.Re-evaluation of sarcolemma injury and muscle swelling in human skeletal muscles after eccentric exercise.Influence of exercise contraction mode and protein supplementation on human skeletal muscle satellite cell content and muscle fiber growth.Attenuation of indirect markers of eccentric exercise-induced muscle damage by curcuminCold applications for recovery in adolescent athletes: a systematic review and meta analysis.Supplementation with a polyphenolic blend improves post-exercise strength recovery and muscle sorenessSkeletal Muscle Inflammation Following Repeated Bouts of Lengthening Contractions in Humans.Plasma cell-free mitochondrial DNA declines in response to prolonged moderate aerobic exercise.Muscle damage and inflammation after eccentric exercise: can the repeated bout effect be removed?Effects of Traumeel (Tr14) on Exercise-Induced Muscle Damage Response in Healthy Subjects: A Double-Blind RCT.The effect of the competitive season in professional basketball on inflammation and iron metabolism.Effects of far infrared rays emitting clothing on recovery after an intense plyometric exercise bout applied to elite soccer players: a randomized double-blind placebo-controlled trialGreater eccentric exercise-induced muscle damage by large versus small range of motion with the same end-point.Probiotic Streptococcus thermophilus FP4 and Bifidobacterium breve BR03 Supplementation Attenuates Performance and Range-of-Motion Decrements Following Muscle Damaging Exercise.Human inflammatory and resolving lipid mediator responses to resistance exercise and ibuprofen treatment.Evidence of a Redox-Dependent Regulation of Immune Responses to Exercise-Induced Inflammation.Compression garments to prevent delayed onset muscle soreness in soccer players.A2 Milk Enhances Dynamic Muscle Function Following Repeated Sprint Exercise, a Possible Ergogenic Aid for A1-Protein Intolerant Athletes?Gene expression is differentially regulated in skeletal muscle and circulating immune cells in response to an acute bout of high-load strength exercise.Nociceptor interleukin 10 receptor 1 is critical for muscle analgesia induced by repeated bouts of eccentric exercise in the rat.Redox Control of Skeletal Muscle Regeneration.
P2860
Q26746405-47305937-1A22-4628-B68E-363349728988Q26780295-EC245CA3-69BE-4CDA-90DC-EBD82A97D508Q26800192-488625CE-ED62-4867-80BF-AA1BE3B13DFBQ27329655-8D4C55BA-F286-4780-9C99-1BF45FEBE815Q27687181-5B6E35E6-6275-458B-8BEA-61DABF2A2F3DQ28066359-8B66FB3F-BFA2-4601-9126-20A54FA2715AQ28080853-27428365-D636-40DB-8613-5D04ADA59287Q28081508-0A9C817D-17E3-4285-A2D3-4FCACF351EDBQ28083765-948672D2-4D74-4C28-AA90-2FA773FAD05EQ28275858-E2D4B84D-B2FE-4CBE-95F3-4B15A8A56B2CQ28384458-5EA3A563-65F5-4AC7-A9E0-4AA5437464B9Q28386920-FFD922D7-7767-41E0-9683-9F8B7DEC7DC3Q28388621-660697BA-56EE-4A6E-882A-9ABB19E44B11Q29248906-33723535-A2D5-4E33-90E6-A2D597224673Q33782753-77AF3431-5E2F-4190-920C-179D048354A8Q33832529-DC28FEEC-FD6A-400F-B2E2-818834CED463Q33865658-111888DB-886C-4B86-A3F9-A1AE0C769816Q33874351-EAD99C21-1C3C-4FF6-A5A0-D372D1088EBEQ34121917-47849B2F-814B-4236-A26D-BD983D768726Q34677427-5E5B1C71-6650-400A-8FA4-ED0AD1933E54Q34685549-F41A8A01-8DC2-4A77-BDAA-2D971B798149Q34790104-907C207E-CE84-4916-9BD0-7E5B5F739FFEQ35952640-2FF8A42A-45E3-403D-B140-D0CECAAB3D49Q36156385-D538C3EA-4C24-415B-9D66-9EEC6BDDD093Q36389985-681085C2-BD93-450C-BADC-824E5FA9A1EEQ36454121-6F9C7907-451D-4AF2-8BA7-7EF4170F54C0Q36597722-63242CC2-F661-4A05-92E5-C7D05DF188E6Q36597880-223E2210-122A-4317-BAD6-9450CE17E7D9Q37104727-7602253C-1497-4423-8785-A0756BD08D93Q37193897-461E4142-B521-4E6F-87F0-9B4676765402Q37193918-265EADE4-EB06-4BA2-ADF9-87DD0904CF91Q37193921-D38E9C03-F8C4-4A8C-9012-C5888C9B4B0AQ37373963-146056CD-D0D9-4B72-ADE7-700E586BB89CQ37440655-EF6F57F9-7034-45F1-BD27-563BEABFF9B1Q37448614-78B8AFB4-9497-40B2-AA61-48B702DE54DCQ37613892-5987B0DF-6BCC-4063-9C03-0E0523FAA194Q37673105-D193A475-48F2-461B-B62F-46522E64D500Q37679188-66E485E3-5801-4EB3-8F7C-E96695BF0D62Q38719395-D27867D4-82F4-40F8-8089-4D38662455BAQ39059046-14B90F62-ABD6-42CA-9DED-E4BC6B0BE816
P2860
Leucocytes, cytokines and satellite cells: what role do they play in muscle damage and regeneration following eccentric exercise?
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Leucocytes, cytokines and sate ...... following eccentric exercise?
@en
type
label
Leucocytes, cytokines and sate ...... following eccentric exercise?
@en
prefLabel
Leucocytes, cytokines and sate ...... following eccentric exercise?
@en
P2093
P1476
Leucocytes, cytokines and sate ...... following eccentric exercise?
@en
P2093
Gøran Paulsen
Jonathan M Peake
Truls Raastad
Ulla Ramer Mikkelsen
P577
2012-01-01T00:00:00Z