Antioxidant supplementation restores defective leucine stimulation of protein synthesis in skeletal muscle from old rats.
about
Vitamin E and C supplementation reduces oxidative stress, improves antioxidant enzymes and positive muscle work in chronically loaded muscles of aged ratsOxidative system in aged skeletal muscleImproved muscle function and quality after diet intervention with leucine-enriched whey and antioxidants in antioxidant deficient aged miceRelationship between human aging muscle and oxidative system pathwayNovel insights on nutrient management of sarcopenia in elderlyVitamin E in sarcopenia: current evidences on its role in prevention and treatmentRationale for antioxidant supplementation in sarcopeniaOxidative stress, molecular inflammation and sarcopeniaHigh whey protein intake delayed the loss of lean body mass in healthy old rats, whereas protein type and polyphenol/antioxidant supplementation had no effects.Bee pollen improves muscle protein and energy metabolism in malnourished old rats through interfering with the Mtor signaling pathway and mitochondrial activity.A dietary supplementation with leucine and antioxidants is capable to accelerate muscle mass recovery after immobilization in adult ratsDifferential effect of long-term leucine supplementation on skeletal muscle and adipose tissue in old rats: an insulin signaling pathway approach.Does Branched-Chain Amino Acids Supplementation Modulate Skeletal Muscle Remodeling through Inflammation Modulation? Possible Mechanisms of ActionTargeting anabolic impairment in response to resistance exercise in older adults with mobility impairments: potential mechanisms and rehabilitation approaches.An overview of the therapeutic effects of leucine supplementation on skeletal muscle under atrophic conditions.Nutrition and sarcopenia: evidence for an interaction.Antioxidative peptides: enzymatic production, in vitro and in vivo antioxidant activity and potential applications of milk-derived antioxidative peptides.Nutritional strategies to counteract muscle atrophy caused by disuse and to improve recovery.Inactivity-induced oxidative stress: a central role in age-related sarcopenia?Similarities and interactions between the ageing process and high chronic intake of added sugars."Nutraceuticals" in relation to human skeletal muscle and exercise.Dietary proteins and amino acids in the control of the muscle mass during immobilization and aging: role of the MPS response.Evaluation of the antioxidant capacity of a milk protein matrix in vitro and in vivo in women aged 50-70 years.Enzymatically modified isoquercitrin supplementation intensifies plantaris muscle fiber hypertrophy in functionally overloaded miceThe Combination of Physical Exercise with Muscle-Directed Antioxidants to Counteract Sarcopenia: A Biomedical Rationale for Pleiotropic Treatment with Creatine and Coenzyme Q10.Whey protein precludes lipid and protein oxidation and improves body weight gain in resistance-exercised rats.The Role of Inflammation in Age-Related Sarcopenia.Protein feeding pattern, casein feeding, or milk-soluble protein feeding did not change the evolution of body composition during a short-term weight loss program.Determinants of muscle preservation in individuals with cerebral palsy across the lifespan: a narrative review of the literature.Nutrition and sarcopenia: A review of the evidence of nutritional influences.Achieving Optimal Post-Exercise Muscle Protein Remodeling in Physically Active Adults through Whole Food Consumption.Reduced dietary intake of micronutrients with antioxidant properties negatively impacts muscle health in aged mice.Chronic Intake of Sucrose Accelerates Sarcopenia in Older Male Rats through Alterations in Insulin Sensitivity and Muscle Protein Synthesis.Effects of exercise and dietary epigallocatechin gallate and β-alanine on skeletal muscle in aged mice.Contrarily to whey and high protein diets, dietary free leucine supplementation cannot reverse the lack of recovery of muscle mass after prolonged immobilization during ageing.Nutritional influences on age-related skeletal muscle loss.Influence of Nrf2 activators on subcellular skeletal muscle protein and DNA synthesis rates after 6 weeks of milk protein feeding in older adults.Muscle wasting and resistance of muscle anabolism: the "anabolic threshold concept" for adapted nutritional strategies during sarcopenia.High Tomato and Tomato Product Consumption is Protective Against the Decline in Handgrip Strength Among Japanese Adults: The Oroshisho Study
P2860
Q23918300-9FC15CEF-1746-4B93-AC6B-0FEBBA4F4D3CQ28383588-982FD8B0-8DF1-4FC9-877F-5A14F5E3D084Q28384545-A55EC87E-B5BE-4DEC-8B22-7F6BC8A21CE5Q28385037-B9579BE8-ABA9-4F0A-BD91-24D7639AF8C4Q28387785-BF4F2FE3-7C7F-4112-B9CB-43B9200241F1Q28390862-9EFB7568-F283-4E01-94D7-3B22B1CC5321Q28395964-7979EAA9-4A48-44D9-B715-38A58A36B1EFQ33853883-4226AF14-3A68-4D22-9633-5F505CC2C4CDQ34277391-2F19AB80-E70D-4A47-9E9D-D2B2F09AA708Q34774963-C7251618-7179-464B-8F4C-03E7229DF9F9Q35060561-2B3058C0-CDAA-4D11-8AF8-FC2E01F79DDFQ35853655-F86FFF98-AF2F-480F-A748-D9F8F68862B0Q35875721-E9027204-EA86-491F-ACA3-D3C3A8B158D8Q36246665-163C1DA2-9B24-4181-B674-13CCA7593FFAQ37761862-FA80B64C-217A-4844-9BF6-60EA9615B762Q37994941-6A9681FA-446B-46C1-8978-F0E5B855FDB1Q38042568-D43F4AA3-4BCA-41A6-95FE-7FD058133718Q38127714-EF557BE8-E5EB-4674-BD7B-C92291E5C0FAQ38180202-FA961907-416A-4DC3-977D-548522E3D0F3Q38782180-EA3DC60C-3507-4FDF-BD1C-81415B9461F9Q39112416-1293E612-FC36-4D47-9242-3F3F94E9CC88Q39125369-E3535247-4820-48AE-8139-F953608CE45AQ39934043-FD94CBAA-54CF-4B00-89C2-7F50BB1B1AB2Q41597827-2549CDB8-CA67-40A4-8150-BD7EC7671713Q45833603-D11B2DFC-2A4D-4138-A31A-93385374D9F1Q46721425-07A26CC8-1B7D-4F32-BC6C-BF930069BC22Q47221943-3418F3B0-FD3B-49CC-B4EC-A61112051BC3Q47291477-2A976739-6C81-49C1-B8D4-8A9B1D17BE86Q47824268-17D49CF5-6763-44A2-86E2-94D9997C95B6Q48561284-A171412B-D65C-4DAF-8FA5-AA10A8467D74Q49805274-C7F6F59C-A543-4E0C-8722-D6B54F864B98Q49894834-4D39234D-C3C5-4A0C-9998-E6F6CA33C75AQ50594736-1FC3222A-0FA2-4D13-9C21-768FCBD0D57FQ52144848-52A7D82E-2EF0-4053-813B-73B9A3F982F4Q53659116-3A011B38-F7FF-4760-B203-B0B07BF31F75Q54600895-379E48DB-FC46-4847-8781-356C45B031EBQ54879141-FED29E5B-5258-4C98-8DF1-9CD755397F0DQ55710142-B0CD1A4B-F40A-4CD0-8A34-2190C7F4351DQ58763982-1C62B2B1-73ED-4D16-A010-BE192B76A3E3
P2860
Antioxidant supplementation restores defective leucine stimulation of protein synthesis in skeletal muscle from old rats.
description
2008 nî lūn-bûn
@nan
2008 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Antioxidant supplementation re ...... skeletal muscle from old rats.
@ast
Antioxidant supplementation re ...... skeletal muscle from old rats.
@en
Antioxidant supplementation re ...... skeletal muscle from old rats.
@nl
type
label
Antioxidant supplementation re ...... skeletal muscle from old rats.
@ast
Antioxidant supplementation re ...... skeletal muscle from old rats.
@en
Antioxidant supplementation re ...... skeletal muscle from old rats.
@nl
prefLabel
Antioxidant supplementation re ...... skeletal muscle from old rats.
@ast
Antioxidant supplementation re ...... skeletal muscle from old rats.
@en
Antioxidant supplementation re ...... skeletal muscle from old rats.
@nl
P2093
P356
P1433
P1476
Antioxidant supplementation re ...... skeletal muscle from old rats.
@en
P2093
Annie Vénien
Barbara Marzani
Dominique Dardevet
Isabelle Papet
Laurent Mosoni
Michèle Balage
Thierry Astruc
P304
P356
10.3945/JN.108.094029
P407
P577
2008-11-01T00:00:00Z