The contribution of reactive oxygen species to sarcopenia and muscle ageing.
about
Inhibition of xanthine oxidase reduces oxidative stress and improves skeletal muscle function in response to electrically stimulated isometric contractions in aged miceAging-dependent regulation of antioxidant enzymes and redox status inchronically loaded rat dorsiflexor musclesMechanisms of Muscle Denervation in Aging: Insights from a Mouse Model of Amyotrophic Lateral SclerosisMitochondrial and skeletal muscle health with advancing ageMitochondrial involvement and impact in aging skeletal muscleThe role of oxidative stress in skeletal muscle injury and regeneration: focus on antioxidant enzymesDysregulation of SIRT-1 in aging mice increases skeletal muscle fatigue by a PARP-1-dependent mechanismRelationship between human aging muscle and oxidative system pathwayMediation of endogenous antioxidant enzymes and apoptotic signaling by resveratrol following muscle disuse in the gastrocnemius muscles of young and old ratsThe physiological roles of Sirt1 in skeletal muscleAge-related alterations in the sarcolemmal environment are attenuated by lifelong caloric restriction and voluntary exerciseElevated hydrogen peroxide and decreased catalase and glutathione peroxidase protection are associated with aging sarcopeniaRationale for antioxidant supplementation in sarcopeniaSuppression of oxidative stress by resveratrol after isometric contractions in gastrocnemius muscles of aged miceThe identification of zebrafish mutants showing alterations in senescence-associated biomarkersExercise training prevents oxidative stress and ubiquitin-proteasome system overactivity and reverse skeletal muscle atrophy in heart failureOxidative stress in the denervated muscleMyogenic potential of canine craniofacial satellite cells.Increased mitochondrial matrix-directed superoxide production by fatty acid hydroperoxides in skeletal muscle mitochondria.Adiponectin modulates oxidative stress-induced mitophagy and protects C2C12 myoblasts against apoptosisRemodeling of the neuromuscular junction precedes sarcopenia related alterations in myofibers.The lack of CuZnSOD leads to impaired neurotransmitter release, neuromuscular junction destabilization and reduced muscle strength in mice.Role of the renin-angiotensin system in age-related sarcopenia and diastolic dysfunctionPre-mRNA processing is partially impaired in satellite cell nuclei from aged muscles.Human cord blood stem cell therapy for treatment of stress urinary incontinenceLow plasma carotenoids and skeletal muscle strength decline over 6 yearsConjugated linoleic acid (CLA) prevents age-associated skeletal muscle loss.Reduced mitochondrial ROS, enhanced antioxidant defense, and distinct age-related changes in oxidative damage in muscles of long-lived Peromyscus leucopus.Apoptosis-inducing factor regulates skeletal muscle progenitor cell number and muscle phenotypeAdvantages of dietary, exercise-related, and therapeutic interventions to prevent and treat sarcopenia in adult patients: an update.Evidence of changes to skeletal muscle contractile properties during the initiation of disease in the ageing guinea pig model of osteoarthritisImpact of lifelong sedentary behavior on mitochondrial function of mice skeletal muscle.Phototherapy and resistance training prevent sarcopenia in ovariectomized rats.Dissociated small hand muscle atrophy in aging: the 'senile hand' is a split hand.Bmi1 enhances skeletal muscle regeneration through MT1-mediated oxidative stress protection in a mouse model of dystrophinopathy.Oxidative stress responses to a graded maximal exercise test in older adults following explosive-type resistance training.MnSOD deficiency results in elevated oxidative stress and decreased mitochondrial function but does not lead to muscle atrophy during agingProtein carbonylation and heat shock proteins in human skeletal muscle: relationships to age and sarcopenia.Target population for clinical trials on sarcopenia.Skeletal muscle weakness due to deficiency of CuZn-superoxide dismutase is associated with loss of functional innervation
P2860
Q23918301-30223791-97AD-46E4-BD61-3A9F93A78948Q23923344-3EF8956D-647D-4444-8E28-A76E1641B35EQ26783337-C0F0EA26-A864-4058-B7E6-D15ECF09CCA4Q26853255-ABA26FB6-505F-4440-B92F-0D0B1001EEE2Q26863574-9E5E9D8E-A1E6-480A-9C4E-2792C096D629Q28076877-5271E14A-DA1F-40B0-B526-5D926EC8494AQ28383252-6159E643-0B08-4B7B-8867-EB9E53AC93C2Q28385037-52EE7867-1476-4C6B-8C15-29EE3279F906Q28385398-A35C4DF9-5514-4F84-B29F-3911BC7792DDQ28389469-DD0420CB-9FC0-45FE-9749-36141E6F8E86Q28389514-C89DCCBB-5FF3-47C1-9E83-83149D4CDD66Q28392374-025EC604-A0B8-4E18-934E-4779F6CE58B9Q28395964-1420B109-2393-4CBA-B71D-EFAC00DC6677Q28397026-2DDFF766-5B0C-4497-A22E-8A85338AB250Q28473459-E4820188-367D-4230-9AD9-BA2E800EE7A5Q28481996-5A1DF715-D67F-4C7B-870F-D3CA9DF82F3DQ28572155-6F0A5A7E-EF65-444A-B58E-A05A554CD265Q30578452-340F6F2B-79BC-4FA4-AD48-80710B98F035Q33595862-7E40C28C-D3A3-4615-A77B-02EB26AD5C9DQ33784563-531212E7-1892-4026-B4A8-0F5CEC313E45Q33788155-50EDDF5A-28A7-4774-89D2-A95F663799CFQ33817376-370C15CA-9EEF-4B3D-B7F2-B2CE26BD93BEQ33824351-CE1E2D46-0C0A-4B7E-9866-A3492D71F889Q33861160-F357D5D8-5776-4D9F-9124-2792D71D87CDQ33879766-49C77303-AB88-48BB-A76B-3D3087F894F1Q33914318-3AD37D58-B98E-4A63-9D4F-4490B4DD3C47Q33946806-B449A347-8736-4253-ABC1-B34035CE8EB2Q33976432-49034E85-9D34-43F6-829F-21B845EF410CQ34072686-EE5A60C0-1A3E-42D2-948C-C3D5B52B74A2Q34121836-E62FC1F0-90E7-4723-BD90-F38C901E8B0FQ34255848-50740836-9345-4F3D-B996-759B00B013E5Q34310382-705437ED-2AA2-4658-8477-E15AFF7E4290Q34544282-18AD469D-BB31-4791-9C27-1AD65E7654C8Q34583085-C5CB7722-AE8E-4939-B80C-063843FC8602Q34708380-5B450A8A-1ADC-44DB-A1F0-4A3356B483EBQ34980944-C80FD93E-0B62-4E0D-86DD-BF79D846396FQ34981154-9913EC69-800B-4B7E-B51B-3952AE0B9E16Q34994117-B70DF7C3-526E-4C48-A4C4-D8D6D14909ADQ35258802-E2F2D66E-1009-4D13-BFA3-4C9AD9E000E4Q35543355-93B6C88E-2CEC-43F5-B2FD-0177EE7EDB73
P2860
The contribution of reactive oxygen species to sarcopenia and muscle ageing.
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
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-hant
name
The contribution of reactive oxygen species to sarcopenia and muscle ageing.
@en
The contribution of reactive oxygen species to sarcopenia and muscle ageing.
@nl
type
label
The contribution of reactive oxygen species to sarcopenia and muscle ageing.
@en
The contribution of reactive oxygen species to sarcopenia and muscle ageing.
@nl
prefLabel
The contribution of reactive oxygen species to sarcopenia and muscle ageing.
@en
The contribution of reactive oxygen species to sarcopenia and muscle ageing.
@nl
P2093
P1476
The contribution of reactive oxygen species to sarcopenia and muscle ageing
@en
P2093
Andrea Beltramin
Feliciano Protasi
Giorgio Fanò
Guglielmo Di Tano
Leonardo Vecchiet
Simona Boncompagni
P356
10.1016/J.EXGER.2003.09.012
P577
2004-01-01T00:00:00Z