Exercise training changes autonomic cardiovascular balance in mice.
about
(In)activity-related neuroplasticity in brainstem control of sympathetic outflow: unraveling underlying molecular, cellular, and anatomical mechanismsMetabolic rates associated with membrane fatty acids in mice selected for increased maximal metabolic rate.Moderate Treadmill Exercise Training Improves Cardiovascular and Nitrergic Response and Resistance to Trypanosoma cruzi Infection in MiceInterval and continuous aerobic exercise training similarly increase cardiac function and autonomic modulation in infarcted mice.Role of exercise training on autonomic changes and inflammatory profile induced by myocardial infarctionPhysical (in)activity-dependent alterations at the rostral ventrolateral medulla: influence on sympathetic nervous system regulationInsulin resistance induced by sucrose feeding in rats is due to an impairment of the hepatic parasympathetic nerves.Methods of assessing vagus nerve activity and reflexes.Cardiac impairment evaluated by transesophageal echocardiography and invasive measurements in rats undergoing sinoaortic denervationCholinergic signaling exerts protective effects in models of sympathetic hyperactivity-induced cardiac dysfunction.Dynamic aerobic exercise induces baroreflex improvement in diabetic ratsExercise training-induced bradycardia: evidence for enhanced parasympathetic regulation without changes in intrinsic sinoatrial node functionModerate-intensity treadmill exercise training decreases murine cardiomyocyte cross-sectional area.Exercise Capacity and Response to Training Quantitative Trait Loci in a NZW X 129S1 Intercross and Combined Cross Analysis of Inbred Mouse Strains.The role of inhibitory heterotrimeric G proteins in the control of in vivo heart rate dynamics.Maximal exercise test is a useful method for physical capacity and oxygen consumption determination in streptozotocin-diabetic rats.Endurance exercise training normalizes repolarization and calcium-handling abnormalities, preventing ventricular fibrillation in a model of sudden cardiac death.Severe Obesity Shifts Metabolic Thresholds but Does Not Attenuate Aerobic Training Adaptations in Zucker Rats.Influence of sedentary versus physically active conditions on regulation of plasma renin activity and vasopressinCardiovascular responses to peripheral chemoreflex activation and comparison of different methods to evaluate baroreflex gain in conscious mice using telemetry.Aerobic training restores arterial baroreflex sensitivity in older adults with type 2 diabetes, hypertension, and hypercholesterolemia.Preventing tomorrow's sudden cardiac death in epilepsy today: what should physicians know about this?A brief review of chronic exercise intervention to prevent autonomic nervous system changes during the aging processExercise training improves cardiac function and attenuates arrhythmia in CPVT miceOxyntomodulin increases intrinsic heart rate through the glucagon receptor.Autonomic Cardiovascular Damage during Post-menopause: the Role of Physical Training.Pleiotropic effects of simvastatin in physically trained ovariectomized rats.Neurotrophins and target interactions in the development and regulation of sympathetic neuron electrical and synaptic propertiesFVB/NJ Mice Are a Useful Model for Examining Cardiac Adaptations to Treadmill Exercise.The pilocarpine model of epilepsy: what have we learned?Telemetric analysis of haemodynamic regulation during voluntary exercise training in mouse modelsWhy short stature is beneficial in Duchenne muscular dystrophy.Intense exercise training induces adaptation in expression and responsiveness of cardiac β-adrenoceptors in diabetic rats.Effects of exercise and diet composition on expression of MCP-1 and oxidative stress-related mRNA of adipose tissue in diet-induced obese mice.Combined influence of dietary restriction and treadmill running on MCP-1 and the expression of oxidative stress-related mRNA in the adipose tissue in obese mice.Regional effects of low-intensity endurance training on structural and mechanical properties of rat ventricular myocytes.Physical exercise reduces cardiac defects in type 2 spinal muscular atrophy-like mice.Swimming training increases cardiac vagal activity and induces cardiac hypertrophy in rats.Metabolomic analysis of long-term spontaneous exercise in mice suggests increased lipolysis and altered glucose metabolism when animals are at rest.Critical analysis of autoregressive and fast Fourier transform markers of cardiovascular variability in rats and humans.
P2860
Q28261797-0355E0B5-DB8E-4870-9756-35201A883AB9Q33601687-22CCD9FB-82B2-4174-93C3-3CD57882A1F2Q33700821-385BF76B-64F2-486B-8928-A943A494F10FQ33874289-C1187F1D-A220-49DB-B1CA-18CB36F3ED08Q33876247-DA696579-363F-4B11-98A2-722CCE5CE1E8Q33917504-9DF9823B-8F60-436D-9068-43494655EEA3Q34079273-CA527C94-5150-45B5-BD97-DF19FC89B4E6Q35067508-1EE7292C-44CA-4494-BE19-6C1F12C8C310Q35168754-9F5F5E0D-E0AE-4176-9527-06F0AA467C8EQ35200653-354DBFA8-DFE0-4A62-9248-C4243FF38D93Q35607336-FA120846-5AB3-46BD-87C5-9C1F7E43D4FFQ35671705-E57624F4-8DF5-45F2-824F-0563C84353EEQ35724660-04A1F881-AA13-4B96-8988-4AB55826F625Q35879619-24D55C44-4774-4AE7-ABF2-3CDAC7B01590Q36091079-B4CB9EE7-C4FC-43BE-A823-E54AAFC915FFQ36419803-4D2E3F64-730D-4933-9D9C-094DF88D3B9FQ36530990-47176946-486B-4141-835C-BC7C7346185AQ36809268-A8EA6D7D-7503-427D-B565-4839DD67C3ECQ36877714-0CDCFAB5-72A9-42F3-A1C1-DCE5CDA38105Q36956571-7EBAA2EF-0836-403E-B9E9-3A647FC7047DQ37092545-41A2732B-90E5-484F-9025-D19A6A2D4635Q37147410-7CE31031-E2D0-430A-BFFC-7EA01FAD6B9EQ37152558-B9173A8B-3952-450E-AF36-A2BC487B36BBQ37174127-1004E65F-A759-4E30-AEAF-90F6A6907231Q37344159-9342B56E-D099-4D6A-BC17-ADB0952E29ACQ37350367-79E6BDB4-5E6B-4CF6-AA70-58D3B312FDE6Q37371450-D3E0B00A-52E3-48FB-8BAF-59E663ADFA57Q37395764-1933B2BA-1172-497F-97BE-A7C7F1E4FB4FQ37521348-AC3DE593-1C30-4F60-BAF1-310C3F7B528AQ37590175-E1F76740-EDC8-44FC-8795-C6A5DECCAF02Q37709736-E7EC81FD-4F31-44B6-95D4-6A9D2AF14E76Q39376754-82DAEE41-EFBB-40ED-8CCF-FBAE572FE876Q41509581-D8C50E13-F869-43F0-B821-BF324ACA19ABQ41612948-41E53A7E-0A2C-4213-A65E-7CEE874B9177Q43026374-69FF2F29-6E00-4A30-A18B-87D81A3CCD48Q43740081-82D27864-0ED5-4851-ACDE-405DC562EE12Q44414821-43A5EE17-A1C0-4FFF-AC8C-1360AC60539AQ45159186-C3EB7B08-EEB9-4DE2-AFA9-72335BACDCF8Q45774877-6B8B1D1B-7803-43CA-8EEA-EA7516C07419Q46070024-D2D58C91-841E-46DC-A979-AF52A00509CE
P2860
Exercise training changes autonomic cardiovascular balance in mice.
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
Exercise training changes autonomic cardiovascular balance in mice.
@en
Exercise training changes autonomic cardiovascular balance in mice.
@nl
type
label
Exercise training changes autonomic cardiovascular balance in mice.
@en
Exercise training changes autonomic cardiovascular balance in mice.
@nl
prefLabel
Exercise training changes autonomic cardiovascular balance in mice.
@en
Exercise training changes autonomic cardiovascular balance in mice.
@nl
P2093
P1476
Exercise training changes autonomic cardiovascular balance in mice.
@en
P2093
E D Moreira
E M Krieger
K De Angelis
M C Irigoyen
W R A Jesus
P304
P356
10.1152/JAPPLPHYSIOL.00870.2003
P407
P577
2004-01-16T00:00:00Z