Exercise training and sympathetic regulation in experimental heart failure.
about
(In)activity-related neuroplasticity in brainstem control of sympathetic outflow: unraveling underlying molecular, cellular, and anatomical mechanismsTherapeutic strategies for targeting excessive central sympathetic activation in human hypertensionPhysical (in)activity-dependent alterations at the rostral ventrolateral medulla: influence on sympathetic nervous system regulationModulation of angiotensin II signaling following exercise training in heart failure.Exercise training prevents arterial baroreflex dysfunction in rats treated with central angiotensin II.Effects of exercise training on cardiac function and myocardial remodeling in post myocardial infarction rats.Exercise training normalizes renal blood flow responses to acute hypoxia in experimental heart failure: role of the α1-adrenergic receptorExercise training initiated after the onset of diabetes preserves myocardial function: effects on expression of beta-adrenoceptorsPhysical (in)activity and endothelium-derived constricting factors: overlooked adaptations.Exercise training improves cardiovascular autonomic activity and attenuates renal damage in spontaneously hypertensive rats.Exercise training and peripheral arterial disease.Effects of exercise training on dendritic morphology in the cardiorespiratory and locomotor centers of the mature rat brainCentral sympathetic overactivity: maladies and mechanisms.Autonomic Cardiovascular Damage during Post-menopause: the Role of Physical Training.Impact of gender on benefits of exercise training on sympathetic nerve activity and muscle blood flow in heart failure.Nitric oxide regulation of autonomic function in heart failure.Swimming exercise changes hemodynamic responses evoked by blockade of excitatory amino receptors in the rostral ventrolateral medulla in spontaneously hypertensive ratsThe sympathetic nervous system and blood pressure in humans: implications for hypertension.Multiple Benefits of Rehabilitation in a Patient with Heart and Renal FailureExercise changes regional vascular control by commissural NTS in spontaneously hypertensive rats.Effect of a selective SGLT2 inhibitor, luseogliflozin, on circadian rhythm of sympathetic nervous function and locomotor activities in metabolic syndrome rats.Putative role of the NTS in alterations in neural control of the circulation following exercise training in rats.Exercise training improves neurovascular control and calcium cycling gene expression in patients with heart failure with cardiac resynchronization therapy.Integration of Central and Peripheral Regulation of the Circulation during Exercise: Acute and Chronic Adaptations.Experimental Evidences Supporting the Benefits of Exercise Training in Heart Failure.Exercise training attenuates increases in lumbar sympathetic nerve activity produced by stimulation of the rostral ventrolateral medulla.Aerobic physical training increases contractile response and reduces cardiac fibrosis in rats subjected to early ovarian hormone deprivation.Neuroplastic adaptations to exercise: neuronal remodeling in cardiorespiratory and locomotor areas.Exercise Training Attenuates Sympathetic Activity and Improves Morphometry of Splenic Arterioles in Spontaneously Hipertensive Rats.
P2860
Q28261797-8365243C-7931-4E76-AFE6-6EE6040B18F4Q33805761-0524EDDD-B565-40AE-93E5-6DAE084EAEFAQ33917504-7F19EE06-C749-408A-AC82-B9263DB9DF0EQ35437365-6AACEA17-4529-4629-AC78-9A78CBE940E6Q35865735-B727B22D-1ABD-43B0-B07E-0BF5458541AAQ36462593-A79BF923-103A-4499-B408-DB914328FF96Q36541471-17F21EA9-CA69-46AA-908D-C4D3DBCF1095Q36877516-81642B9C-2DDE-4773-AC64-602FC88FEE8DQ36982237-6AFD957B-5478-42DF-8A9E-831114A3FB62Q37143954-08DE161A-19C1-455F-8B38-0AF48457243CQ37157213-6BC29C69-90EC-4667-A75B-DF3828396DC3Q37174469-33D85BE7-E3C0-475D-BD7C-0AB7F78C9A9BQ37186153-EA2732B7-8158-48EB-9E75-B60ABE4811F3Q37350367-B2B09BAF-D5C8-4806-8786-E2A898B9C76EQ37484537-275B6EC4-0F0D-474B-B0D3-E46751EF2CBEQ37503805-C2285C22-17C0-4128-918A-E0F1F90F55F8Q37626949-DCF7A780-DC6D-449A-81EB-A536CA100622Q37898511-A1774969-B500-4B18-937D-92C171697B88Q42281265-59130527-8BD0-4A33-92DF-97E72860B863Q43089773-7662E9ED-2E5A-491F-BD20-1987C0BF9FC3Q45337526-CB1DDFCF-3FF7-41C8-B669-6A5E1574560CQ46716725-E40EBAE7-0241-41A5-88F6-ECEA05FF3570Q46925158-354095A4-1BD2-47EC-BD59-FA1900612C5EQ47651108-DF73DD8B-77F0-4A18-8194-2C475CE5920CQ48023234-89D02E03-757F-418B-95E1-06BF0846F290Q48391886-05F5E15B-6305-444A-B882-E49A8ED0C130Q51041956-D131F9C2-048F-4AF4-BAB8-CF70DBA4D2F9Q53659836-015349FE-71C0-4DF9-98A9-EA76528C7877Q55220674-368B7988-257C-4823-9F57-32BEEB0895E1
P2860
Exercise training and sympathetic regulation in experimental heart failure.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Exercise training and sympathetic regulation in experimental heart failure.
@ast
Exercise training and sympathetic regulation in experimental heart failure.
@en
type
label
Exercise training and sympathetic regulation in experimental heart failure.
@ast
Exercise training and sympathetic regulation in experimental heart failure.
@en
prefLabel
Exercise training and sympathetic regulation in experimental heart failure.
@ast
Exercise training and sympathetic regulation in experimental heart failure.
@en
P2093
P1476
Exercise training and sympathetic regulation in experimental heart failure.
@en
P2093
Harold D Schultz
Irving H Zucker
Kaushik P Patel
Rainer U Pliquett
P304
P356
10.1097/00003677-200407000-00006
P577
2004-07-01T00:00:00Z