Short-term bed rest impairs amino acid-induced protein anabolism in humans. - Wikidata - wikimedia - TriplyDB

Short-term bed rest impairs amino acid-induced protein anabolism in humans.

Short-term bed rest impairs amino acid-induced protein anabolism in humans.

http://www.wikidata.org/entity/Q44886673

about

Influence of amino acids, dietary protein, and physical activity on muscle mass development in humans Cardiac atrophy in women following bed rest.Protein and Essential Amino Acids to Protect Musculoskeletal Health during Spaceflight: Evidence of a Paradox?A dietary supplementation with leucine and antioxidants is capable to accelerate muscle mass recovery after immobilization in adult rats Cancer cachexia update in head and neck cancer: Pathophysiology and treatment.L-Citrulline Protects Skeletal Muscle Cells from Cachectic Stimuli through an iNOS-Dependent Mechanism.Proteins and amino acids are fundamental to optimal nutrition support in critically ill patients.Nutrition before and during Surgery and the Inflammatory Response of the Heart: A Randomized Controlled Trial Slow recovery of the impaired fatigue resistance in postunloading mouse soleus muscle corresponding to decreased mitochondrial function and a compensatory increase in type I slow fibers.The mTORC1 signaling repressors REDD1/2 are rapidly induced and activation of p70S6K1 by leucine is defective in skeletal muscle of an immobilized rat hindlimb.Glutamine deprivation causes enhanced plating efficiency of a herpes simplex virus type 1 ICP0-null mutant.Simulating human space physiology with bed rest.Regulation of muscle protein synthesis and the effects of catabolic states.Disuse-induced muscle wasting.BMI, RQ, diabetes, and sex affect the relationships between amino acids and clamp measures of insulin action in humans.An overview of the therapeutic effects of leucine supplementation on skeletal muscle under atrophic conditions.Redox homeostasis, oxidative stress and disuse muscle atrophy.Nutritional strategies to attenuate muscle disuse atrophy.Nutritional strategies to counteract muscle atrophy caused by disuse and to improve recovery.The importance of dietary protein for muscle health in inactive, hospitalized older adults.Frailty and nutrition: searching for evidence.Spaceflight induced changes in the human proteome.Little change in markers of protein breakdown and oxidative stress in humans in immobilization-induced skeletal muscle atrophy.Immobilization induces anabolic resistance in human myofibrillar protein synthesis with low and high dose amino acid infusion.Physical inactivity decreases whole body glutamine turnover independently from changes in proteolysis.Influence of concurrent exercise or nutrition countermeasures on thigh and calf muscle size and function during 60 days of bed rest in women.Neuromuscular electrical stimulation prevents muscle wasting in critically ill comatose patients.Skeletal muscle disuse atrophy is not attenuated by dietary protein supplementation in healthy older men.Effects of high-protein intake on bone turnover in long-term bed rest in women.Hypocaloric vs Normocaloric Nutrition in Critically Ill Patients: A Prospective Randomized Pilot Trial.Towards human exploration of space: The THESEUS review series on nutrition and metabolism research priorities.Age-related differences in lean mass, protein synthesis and skeletal muscle markers of proteolysis after bed rest and exercise rehabilitation.Leucine Supplementation Does Not Attenuate Skeletal Muscle Loss during Leg Immobilization in Healthy, Young Men.Dietary Protein and Muscle in Aging People: The Potential Role of the Gut Microbiome

P2860

Q27003307-B1F3F655-EFD2-4F89-9FB3-FD9DFC91107F Q33154926-563066E4-5EFF-4B1F-9F60-BA82929C363E Q34390397-7B9829B2-698B-4DBD-B57F-C6CEA51013DB Q35060561-C81733B5-07F5-429A-B462-D0AE3FCA6E99 Q35122201-ED554EF1-8C2D-4152-87B9-D81B076535EE Q35826123-EC5F3523-104B-4051-8EF4-C0AE656135E5 Q35902922-6355E893-909B-49D5-A925-44A112C01EEB Q35941757-B31C4982-8DF3-4B7D-B584-9F8A1A0F55AE Q36422683-1DFB8A18-1DA7-4148-9CCF-C664113BF879 Q36527745-72569F9B-1EF8-472F-8EE0-71FCBBE51BFB Q36949839-59D2ECA9-C153-4057-92F5-D501D145C6D2 Q36959854-7EB246EA-625D-43D8-BE1E-42046833FA50 Q37138209-C2C3E3FA-040F-4E12-92AB-55E592A2D292 Q37377797-6C672B98-B608-4754-8332-D83859A2A95D Q37510184-B10EE151-474C-45F2-ADBB-EFB668CEBCCC Q37761862-37C1D579-62F8-4ED6-BE13-BA5680AEDB25 Q37841944-37DAC0AB-B595-4E9D-8220-42C8C8EA9B7F Q38095522-B8CC1386-2080-4F25-9FE6-55A097C6989E Q38127714-679A581A-6B2F-4B57-A03A-0DEA8CD141D7 Q38239466-7A0FEC25-2EFB-4A36-837E-8235D6C48C02 Q38366831-6694F765-14E5-4D48-A1FD-E1F9FCF787A5 Q38435061-5A333D59-5B73-4567-8126-71AC2BE42A5C Q43103586-ECB849A5-575F-4905-A424-08662D312260 Q46291569-94FFC18A-BAE0-404A-BF88-1D216D3E8115 Q46453471-DEBFA583-0B38-4F99-99E3-67C356A4813A Q47278517-A80F0CAC-FB48-4B90-8A28-AC08F79ED429 Q51045283-58F98A27-D87A-43A8-AA36-A90DFCF47F77 Q51075352-743337B2-4E46-4B77-BAB2-60CA8EFE3D1B Q51146724-C76ADCDA-A1D7-4D2D-9BF7-F83D1DDB2CE1 Q51149084-23ACA85E-2ADF-410C-8A10-DA675736BE66 Q52570204-65B8AA1C-B63D-45DD-938D-41346134F360 Q55053241-ABCB6B33-0B36-4270-BE3B-AB917DAECE21 Q55298552-8940DD6A-E24E-4C45-8008-7A4FFC44B97E Q57175283-3C1D3758-0C71-4174-84D5-9A9422107955

P2860

Short-term bed rest impairs amino acid-induced protein anabolism in humans.

http://www.wikidata.org/entity/Q44886673

description

2004 nî lūn-bûn

@nan

2004年の論文

@ja

2004年学术文章

@wuu

2004年学术文章

@zh-cn

2004年学术文章

@zh-hans

2004年学术文章

@zh-my

2004年学术文章

@zh-sg

2004年學術文章

@yue

2004年學術文章

@zh

2004年學術文章

@zh-hant

name

Short-term bed rest impairs amino acid-induced protein anabolism in humans.

@en

Short-term bed rest impairs amino acid-induced protein anabolism in humans.

@nl

type

label

Short-term bed rest impairs amino acid-induced protein anabolism in humans.

@en

Short-term bed rest impairs amino acid-induced protein anabolism in humans.

@nl

prefLabel

Short-term bed rest impairs amino acid-induced protein anabolism in humans.

@en

Short-term bed rest impairs amino acid-induced protein anabolism in humans.

@nl

P1433

Q44886673-D43AC211-D5A1-4482-9C17-2DDB2846EB24

P1476

Q44886673-CE5EF70E-64AD-4DCE-974F-A19C601B5013

P2093

Q44886673-09A746DF-B6B5-48DE-82B4-0094AED49194

Q44886673-466AF844-7F54-4CE9-90E4-EEDD4050374C

Q44886673-5F094D52-FAC9-4B9D-A999-55688A5C936B

Q44886673-77FCC3FC-C727-4948-9BF6-3906B8C9E056

Q44886673-B129C22B-0BAD-446C-8A00-D43E57EF857D

Q44886673-D371D287-DAE9-42AB-88E1-E12C6D205B81

Q44886673-DB6FE166-BF61-4A6B-9C2B-9330417858F1

P2860

Q44886673-392C076A-22B8-4971-BE68-8E9358F4AEE9

Q44886673-4E588B53-0CC3-4719-B8DA-252D611A6317

Q44886673-5180CE3F-A8AA-4EC1-82A6-88FEE034702B

Q44886673-58FEB75E-A710-4BD6-A0E2-CBB653E57F9E

Q44886673-5B8C0B54-3382-4951-8CE6-D1E102296901

Q44886673-668D66A2-C93F-4524-A494-6CF8266C118E

Q44886673-8E0BF9B2-9F8B-48C6-8A82-5F1E7B04C11B

Q44886673-8FD59352-E604-4A35-8CBD-588663F72A11

Q44886673-9521A855-F24A-4520-B355-36BFF4E01341

Q44886673-B7D4FB40-6E57-4ED7-81BB-0F6D6B09F3F3

P304

Q44886673-C826915D-B528-4629-9742-D137392F8FF5

P31

Q44886673-B4244338-5245-44F3-915F-B5434B12752A

P356

Q44886673-38353F6F-DB42-4C5A-97CF-5FAACC61AE2C

P407

Q44886673-13F2674E-1EF5-4BC2-AEDD-EBD17480336F

P433

Q44886673-04F8772E-4EA3-460F-96F5-A485470695E8

P478

Q44886673-EE4845B3-35F0-46D2-8DA8-ACD8C7A7C8A7

P50

Q44886673-B49F73A1-CCAF-4636-8493-A18F192CD4B4

P577

Q44886673-3164C987-663E-4DA9-8FAE-6B094110798F

P5875

Q44886673-7C9718A6-F670-4214-BA86-9A46F3C65444

P698

Q44886673-9CFA53CD-F138-4946-B870-48AB86853926

P932

Q44886673-FDDF4F52-FF80-4526-8D9F-560C324C5682

P356

JPHYSIOL.2004.066365

P1433

The Journal of Physiology

P1476

Short-term bed rest impairs amino acid-induced protein anabolism in humans

@en

P2093

Beniamino Ciocchi

http://www.w3.org/2001/XMLSchema#string

Gianfranco Guarnieri

http://www.w3.org/2001/XMLSchema#string

Marion Lebenstedt

http://www.w3.org/2001/XMLSchema#string

Martina Heer

http://www.w3.org/2001/XMLSchema#string

Michela Zanetti

http://www.w3.org/2001/XMLSchema#string

Petra Platen

http://www.w3.org/2001/XMLSchema#string

Rocco Barazzoni

http://www.w3.org/2001/XMLSchema#string

P2860

Effect of dietary protein on bed-rest-related changes in whole-body-protein synthesis.

Prolonged bed rest decreases skeletal muscle and whole body protein synthesis.

Control of protein synthesis by amino acid availability.

Differential effects of hyperinsulinemia and hyperaminoacidemia on leucine-carbon metabolism in vivo. Evidence for distinct mechanisms in regulation of net amino acid deposition.

Latency, duration and dose response relationships of amino acid effects on human muscle protein synthesis.

Microgravity as a model of ageing.

Recovery of 13CO2 and 14CO2 in human bicarbonate studies: a critical review with original data.

Insulin responsiveness of protein metabolism in vivo following bedrest in humans.

Pentoxifylline acutely reduces protein catabolism in chronically uremic patients.

Meal-induced rise in resting energy expenditure in patients with complete cervical spinal cord lesions.

P304

381-388

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1113/JPHYSIOL.2004.066365

http://www.w3.org/2001/XMLSchema#string

P407

P433

Pt 2

http://www.w3.org/2001/XMLSchema#string

P478

558

http://www.w3.org/2001/XMLSchema#string

P50

P577

2004-05-06T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

8575001

http://www.w3.org/2001/XMLSchema#string

P698

15131238

http://www.w3.org/2001/XMLSchema#string

P932

1664959

http://www.w3.org/2001/XMLSchema#string