about
sameAs
Vitamin C and E supplementation alters protein signalling after a strength training session, but not muscle growth during 10 weeks of trainingHeterogeneity in resistance training-induced muscle strength and mass responses in men and women of different ages.Effects of alfa-hydroxy-isocaproic acid on body composition, DOMS and performance in athletes.Moderate energy restriction with high protein diet results in healthier outcome in women.Effect of protein/essential amino acids and resistance training on skeletal muscle hypertrophy: A case for whey protein.Effect of sodium bicarbonate and beta-alanine supplementation on maximal sprint swimmingUpregulation of activin-B and follistatin in pulmonary fibrosis - a translational study using human biopsies and a specific inhibitor in mouse fibrosis models.Effects of high-fat diet and physical activity on pyruvate dehydrogenase kinase-4 in mouse skeletal muscle.Endothelial Bmx tyrosine kinase activity is essential for myocardial hypertrophy and remodeling.Treatment with soluble activin type IIB-receptor improves bone mass and strength in a mouse model of Duchenne muscular dystrophy.The effects of whey protein with or without carbohydrates on resistance training adaptations.Systemic blockade of ACVR2B ligands prevents chemotherapy-induced muscle wasting by restoring muscle protein synthesis without affecting oxidative capacity or atrogenes.VEGF-B gene therapy inhibits doxorubicin-induced cardiotoxicity by endothelial protection.VEGF-B-induced vascular growth leads to metabolic reprogramming and ischemia resistance in the heart.Potential role of branched-chain amino acid catabolism in regulating fat oxidation.Cannabinoid receptor 1 and acute resistance exercise--In vivo and in vitro studies in human skeletal muscle.Effects of resistance training on expression of IGF-I splice variants in younger and older men.Effects of resistance exercise and protein ingestion on blood leukocytes and platelets in young and older men.Effects of muscular dystrophy, exercise and blocking activin receptor IIB ligands on the unfolded protein response and oxidative stress.PGC-1 isoforms and their target genes are expressed differently in human skeletal muscle following resistance and endurance exercise.Variable resistance training promotes greater fatigue resistance but not hypertrophy versus constant resistance training.Combined effect of AAV-U7-induced dystrophin exon skipping and soluble activin Type IIB receptor in mdx mice.Resistance training induced increase in muscle fiber size in young and older men.Resistance exercise with whey protein ingestion affects mTOR signaling pathway and myostatin in men.High-fat feeding induces angiogenesis in skeletal muscle and activates angiogenic pathways in capillaries.Effect of strength training session on plasma amino acid concentration following oral ingestion of leucine, BCAAs or glutamine in men.Muscle protein synthesis, mTORC1/MAPK/Hippo signaling, and capillary density are altered by blocking of myostatin and activins.Effect of strength training session on plasma amino acid concentration following oral ingestion of arginine or taurine in men.Protein ingestion prior to strength exercise affects blood hormones and metabolism.Effects of resistance exercise session after oral ingestion of melatonin on physiological and performance responses of adult men.Morphological, molecular and hormonal adaptations to early morning versus afternoon resistance training.Prevention of chemotherapy-induced cachexia by ACVR2B ligand blocking has different effects on heart and skeletal muscle.Body composition and power performance improved after weight reduction in male athletes without hampering hormonal balance.Exercise restores decreased physical activity levels and increases markers of autophagy and oxidative capacity in myostatin/activin-blocked mdx mice.Effect of diet composition on acid-base balance in adolescents, young adults and elderly at rest and during exercise.Autophagy is induced by resistance exercise in young men, but unfolded protein response is induced regardless of age.Exercise type and volume alter signaling pathways regulating skeletal muscle glucose uptake and protein synthesis.The effects of whey protein on myostatin and cell cycle-related gene expression responses to a single heavy resistance exercise bout in trained older men.Lipid droplet-associated proteins in high-fat fed mice with the effects of voluntary running and diet change.Myostatin/activin blocking combined with exercise reconditions skeletal muscle expression profile of mdx mice.
P50
Q28384458-ADC680FE-38FC-425F-A234-81A4FD81744EQ30364343-EA749C2E-9478-486B-A727-9F76E111247EQ33638591-D792913E-A76A-48A7-BF84-AF9BE92E5817Q33657900-B99A20DF-69D6-44B1-B9AA-7D4E4F7E6E6FQ33981575-511AA45C-287D-4B50-AEA5-F12232F56FDAQ34248658-B72F9E76-A59E-48A4-BE75-C7D94B231010Q34738988-764C17B0-C6AC-42D7-91F9-2B26AF7CA10CQ36123395-D7530CD7-3523-46B8-9CD2-5941DC78A5B4Q36207332-EE8D4561-B982-4FC1-839A-EECEAEA94C17Q36254527-C9636005-FC29-45F8-A19C-21BDEAD96C8CQ36376812-2E4DDA52-45E8-49DB-AF1E-3FDBFDACB312Q37282125-8C7144F2-86F3-4A14-BCD0-8EB004A477F4Q37469455-0339A3EA-F38A-419B-89BE-FE6E4648B13AQ37644376-3171FC23-EC53-4DF0-BD5E-EEAA82AD52BCQ38123072-E2448A35-8440-406A-9614-D1A34427BB81Q38896779-09350A9B-2679-44FE-83E2-D6552ACC7587Q40732965-477E1FF1-BB69-47EA-A8CA-86F49C80335AQ42466360-A5530A32-FF0E-4153-B948-1E8E237F05DBQ42498042-008CDCA8-7637-4133-9D9F-D419404AA1E1Q43188510-3D94D412-BDC4-4435-9BB2-61BCEBF16FEDQ43763157-3A8B35A9-A53A-42F3-83C0-63CF41CB0E61Q44166590-928FEE25-94C8-459C-BF6A-F749A3A75059Q44455457-2784FEBF-F6CD-4CDD-AD7F-25DF705D00C5Q46082091-A2EF7B99-B005-42F5-93D7-BC0B8BA5968BQ46116266-EE518D5B-8506-4EE9-9276-0D2BFB88F0A9Q46240912-83AA3536-A891-48CE-B852-29A672763C7DQ46401273-F5B345A7-4451-4EE5-A633-F03FC4AE35C8Q46781648-E9888287-E91B-4070-857E-B37F87D71878Q46803078-90EF5ACD-C430-4CAF-853D-CD8118B2F73EQ46967111-2BDB2997-124E-4B8C-A7D2-290BE4850541Q47240111-562002E9-E67E-43A7-85BB-3F8063A9C02AQ47303605-97A92F7F-0FBA-42A5-BE0A-C14C33BD30A3Q47448932-2AF6F247-DDFD-458D-8618-07A2B6E93614Q50973442-B0F0549B-AA8B-4FD2-A518-480737925985Q51070102-D2D2612A-660B-4586-9A1E-F63D20D90AD5Q52613670-2E8C3B37-0AE8-418C-82F2-9FAC6D1183C0Q53266561-3F19438B-CC49-4300-90BD-F32790DD9932Q53522922-DDA6B305-4D5E-40D0-8B19-3EA6BE6229D8Q54200504-3125BB41-9F2D-4496-9285-70DFF1FC5693Q54316264-CB120129-58D4-40B9-88A3-AA31D3CDCC9C
P50
description
hulumtues
@sq
non-fictieschrijver
@nl
researcher
@en
ricercatore
@it
suomalainen liikuntatieteilijä
@fi
հետազոտող
@hy
name
Juha Hulmi
@ast
Juha Hulmi
@fi
Juha J Hulmi
@en
Juha J Hulmi
@es
Juha J Hulmi
@nl
Juha J Hulmi
@sl
type
label
Juha Hulmi
@ast
Juha Hulmi
@fi
Juha J Hulmi
@en
Juha J Hulmi
@es
Juha J Hulmi
@nl
Juha J Hulmi
@sl
altLabel
Juha Hulmi
@en
Juha J Hulmi
@ast
prefLabel
Juha Hulmi
@ast
Juha Hulmi
@fi
Juha J Hulmi
@en
Juha J Hulmi
@es
Juha J Hulmi
@nl
Juha J Hulmi
@sl
P214
P244
P1153
9433423300
P21
P213
0000 0000 7352 2249
P214
P244
n2009185030
P31
P496
0000-0003-3813-2124
P735
P7859
lccn-n2009185030