Cerebrovascular reserve: the link between fitness and cognitive function?
about
Aerobic Exercise as a Tool to Improve Hippocampal Plasticity and Function in Humans: Practical Implications for Mental Health TreatmentBilingualism and Cognitive Reserve: A Critical Overview and a Plea for Methodological InnovationsIncreased ventilatory response to carbon dioxide in COPD patients following vitamin C administrationIDE (rs6583817) polymorphism and pulse pressure are independently and interactively associated with level and change in executive function in older adults.Cardiovascular and cerebral hemodynamics during exercise and recovery in obese individuals as a function of their fitness status.The potential role of exercise in neuro-oncologyA Daily Process Analysis of Physical Activity, Sedentary Behavior, and Perceived Cognitive Abilities.Increased hippocampal blood flow in sedentary older adults at genetic risk for Alzheimer's disease.Impact of aerobic exercise on neurobehavioral outcomesBiomarkers and perfusion--training-induced changes after stroke (BAPTISe): protocol of an observational study accompanying a randomized controlled trial.Higher levels of cardiovascular fitness are associated with better executive function and prefrontal oxygenation in younger and older womenApoE and pulse pressure interactively influence level and change in the aging of episodic memory: Protective effects among ε2 carriersCerebrovascular Responsiveness to Hypercapnia Is Stable over Six Months in Older Adults.Exercise, cognitive function, and agingAcute effects of breaking up prolonged sitting on fatigue and cognition: a pilot studyThe brain-in-motion study: effect of a 6-month aerobic exercise intervention on cerebrovascular regulation and cognitive function in older adults.Neurovascular coupling in humans: Physiology, methodological advances and clinical implications.Fitness, but not physical activity, is related to functional integrity of brain networks associated with aging.Acute Supramaximal Exercise Increases the Brain Oxygenation in Relation to Cognitive Workload.Cardiometabolic risk factors predict cerebrovascular health in older adults: results from the Brain in Motion study.Cerebrovascular reactivity is associated with maximal aerobic capacity in healthy older adults.Effects of Moderate Aerobic Exercise on Cognitive Abilities and Redox State Biomarkers in Older Adults.Comparing Aging and Fitness Effects on Brain Anatomy.Relation between aerobic fitness and brain structures in amnestic mild cognitive impairment elderly.The role of mobility as a protective factor of cognitive functioning in aging adults: a review.Associations among executive function, cardiorespiratory fitness, and brain network properties in older adults.Aerobic Exercise for Adolescents With Prolonged Symptoms After Mild Traumatic Brain Injury: An Exploratory Randomized Clinical Trial.Promoting brain health through exercise and diet in older adults: a physiological perspective.Cognitive function in patients with stable coronary heart disease: Related cerebrovascular and cardiovascular responsesArterial elasticity, strength, fatigue, and endurance in older women.Effects of Exercise on Cognitive Function in Older People with Dementia: A Randomized Controlled TrialAutomatic auditory and somatosensory brain responses in relation to cognitive abilities and physical fitness in older adults.Effects of voluntary exercise on structure and function of cortical microvasculature.How the Body Talks to the Brain; Peripheral Mediators of Physical Activity-Induced Proliferation in the Adult Hippocampus.
P2860
Q26741515-1DA44D96-B86C-4B4C-A17C-B4CF5368635BQ26770439-32DB5733-58E1-474B-8245-F7428D4290F5Q28596757-78736F77-0E27-4D99-A235-85BA417A2FB0Q33801010-D0989D38-EA96-4EDB-833C-7924288F710BQ33856672-D44A038B-26A7-4C33-84A3-C067795C8E24Q34473328-D572BDAA-BA00-441F-9DEC-EFE925382D3BQ34533866-8E79FEFF-2D76-4D37-BE77-E685A3B22930Q34652778-B45836FC-110C-40A9-82AC-A375D592E167Q35064010-17C13B83-9D8C-453C-BD39-449D50AB175AQ35065455-E2376601-7659-49CC-83C0-79C11386A263Q35094437-C04DB7A6-DCAA-41F7-BB2C-FED808E8FB2AQ35572281-2A5F060E-B61E-4FC0-B653-75372DD782DEQ35849979-ADEA041E-7EF2-4938-9709-6E42DD1928C0Q36104517-64DD6779-4F19-49D1-B1C3-DAF06374885EQ36625263-95E96F7E-E4D3-48EE-A7F5-EDF40AB9EF11Q36687380-33C08AEC-DFB0-4CD4-8C04-F41B302E7ED6Q36765857-F1209956-D207-4AA9-B169-125FE1895CF8Q36814040-CC036834-FD67-43D6-8D7A-95CE81F7CF02Q36815781-70CB03C7-731C-45E1-9739-753C0C958CE6Q36846416-6C98FC87-C89C-4DAC-9505-CB237114E1CEQ36850746-F7006AF6-3EF8-4863-BC4C-A6F6E632CF88Q36855463-08967D42-443F-4EAF-B7E0-01DE89F72476Q37043151-F22039DB-1C3C-43BC-9DBC-80355925C54FQ37219603-C46F9BDE-89FA-4EEE-AE30-B2B02CD22595Q37417109-A42EF990-F782-40B9-B0AA-08CE581659DFQ37560427-F57907FE-E6EE-4D80-8FDD-32AF5CCC92B0Q38875131-E967F9AC-1946-4C18-8965-524259459807Q38927831-23BCECD2-D921-4988-9AFC-1D4E2B51E2DDQ41904781-3B223FF9-40B6-4526-93B0-A6A727558D02Q41907051-605A0B36-148E-4675-8703-60E850741B76Q41973133-1EC0C3FD-CC35-4D5E-B12A-E584B0612B77Q42653351-C6577BB2-7AD7-47B2-AB6E-97AA92EA2F86Q48493200-494ACE0C-5635-47DC-BBE3-C2EAAD38E541Q55175005-C637CD37-0CC0-4264-A7B9-13C78B5F8D32
P2860
Cerebrovascular reserve: the link between fitness and cognitive function?
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Cerebrovascular reserve: the link between fitness and cognitive function?
@en
type
label
Cerebrovascular reserve: the link between fitness and cognitive function?
@en
prefLabel
Cerebrovascular reserve: the link between fitness and cognitive function?
@en
P2093
P1476
Cerebrovascular reserve: the link between fitness and cognitive function?
@en
P2093
Gail A Eskes
Marc J Poulin
Margie H Davenport
R Stewart Longman
P304
P356
10.1097/JES.0B013E3182553430
P577
2012-07-01T00:00:00Z