scholarly article | Q13442814 |
P50 | author | Yu-Chieh Tzeng | Q126176605 |
Philip Ainslie | Q98150705 | ||
P2093 | author name string | Christopher K Willie | |
Joseph A Fisher | |||
P2860 | cites work | Effect of stellate ganglion block on cerebral blood flow in normoxemic and hyperoxemic states | Q81623190 |
Cerebral blood flow and the alpha-1 agonist bogeyman | Q83299475 | ||
Relationship between middle cerebral artery blood velocity and end-tidal PCO2 in the hypocapnic-hypercapnic range in humans | Q83461243 | ||
Neurovascular coupling and distribution of cerebral blood flow during exercise | Q83768333 | ||
Acute reductions in blood flow restricted to the dorsomedial medulla induce a pressor response in rats | Q84340942 | ||
Effect of smoking cessation on visually evoked cerebral blood flow response in healthy volunteers | Q84857033 | ||
Observations on the extrinsic neural control of cerebral blood flow in the baboon | Q93788746 | ||
Protocol to measure acute cerebrovascular and ventilatory responses to isocapnic hypoxia in humans | Q80302708 | ||
Effects of the nitric oxide synthase inhibitor L-NMMA on cerebrovascular and cardiovascular responses to hypoxia and hypercapnia in humans | Q80730985 | ||
Mapping of the cerebral vascular response to hypoxia and hypercapnia using quantitative perfusion MRI at 3 T | Q81247336 | ||
Modelling vascular reactivity to investigate the basis of the relationship between cerebral blood volume and flow under CO2 manipulation | Q81406147 | ||
On the Regulation of the Blood-supply of the Brain | Q24554227 | ||
THE EFFECTS OF ALTERED ARTERIAL TENSIONS OF CARBON DIOXIDE AND OXYGEN ON CEREBRAL BLOOD FLOW AND CEREBRAL OXYGEN CONSUMPTION OF NORMAL YOUNG MEN | Q24562994 | ||
H and pCO2 as chemical factors in respiratory and cerebral circulatory control | Q28186965 | ||
Cerebral blood-flow responses to induced hypotension and to CO2 inhalation in patients with major cerebral artery occlusive disease: a positron-emission tomography study | Q28372096 | ||
Neurovascular regulation in the normal brain and in Alzheimer's disease | Q29619659 | ||
Glial and neuronal control of brain blood flow | Q29620058 | ||
Cerebral autoregulation of blood velocity and volumetric flow during steady-state changes in arterial pressure. | Q30564816 | ||
Regulation of regional cerebral blood flow by cholinergic fibers originating in the basal forebrain | Q30666709 | ||
Relative contributions from neuronal and endothelial nitric oxide synthases to regional cerebral blood flow changes during forebrain ischemia in rats | Q30876023 | ||
Activity-induced tissue oxygenation changes in rat cerebellar cortex: interplay of postsynaptic activation and blood flow | Q31154303 | ||
Role of adenosine and its receptors in the vasodilatation induced in the cerebral cortex of the rat by systemic hypoxia | Q32064876 | ||
Nitric oxide from neuronal NOS plays critical role in cerebral capillary flow response to hypoxia | Q32074432 | ||
Syncope, cerebral perfusion, and oxygenation | Q33148561 | ||
Maintained cerebrovascular function during post-exercise hypotension | Q33162249 | ||
Cerebral blood flow response in adenosine 2a receptor knockout mice during transient hypoxic hypoxia. | Q33342407 | ||
Sympathetic control of the cerebral vasculature in humans | Q33622214 | ||
Integration of blood flow control to skeletal muscle: key role of feed arteries | Q33888484 | ||
Cerebral blood flow and oxygen consumption in man. | Q33970033 | ||
Central nervous system mechanisms of ventilatory acclimatization to hypoxia | Q34017551 | ||
Cerebral vasoreactivity during hypercapnia is reset by augmented sympathetic influence | Q34598495 | ||
Integration of cerebrovascular CO2 reactivity and chemoreflex control of breathing: mechanisms of regulation, measurement, and interpretation | Q34943213 | ||
Measuring cerebrovascular reactivity: what stimulus to use? | Q35002943 | ||
THE EFFECTS OF ACTIVE AND PASSIVE HYPERVENTILATION ON CEREBRAL BLOOD FLOW, CEREBRAL OXYGEN CONSUMPTION, CARDIAC OUTPUT, AND BLOOD PRESSURE OF NORMAL YOUNG MEN. | Q35164846 | ||
The effect of bilateral stellectomy upon the cerebral circulation of man | Q35184116 | ||
THE EFFECT OF BILATERAL STELLATE GANGLION BLOCK ON THE CEREBRAL CIRCULATION IN NORMOTENSIVE AND HYPERTENSIVE PATIENTS. | Q35404180 | ||
The effects of intravenously administered aminophylline on cerebral circulation and metabolism in man. | Q35418733 | ||
VASCULAR MECHANISMS PERTAINING TO THE INTRINSIC REGULATION OF THE CEREBRAL CIRCULATION. | Q35464370 | ||
Cerebral artery dilatation maintains cerebral oxygenation at extreme altitude and in acute hypoxia--an ultrasound and MRI study. | Q35524188 | ||
Cerebrovascular response to acute hypocapnic and eucapnic hypoxia in normal man | Q35582162 | ||
Jugular venous overflow of noradrenaline from the brain: a neurochemical indicator of cerebrovascular sympathetic nerve activity in humans. | Q46031615 | ||
Dynamic pressure-flow relationship of the cerebral circulation during acute increase in arterial pressure | Q46054866 | ||
Cerebral sympathetic nerve activity has a major regulatory role in the cerebral circulation in REM sleep | Q46158873 | ||
Single-neuron activity and tissue oxygenation in the cerebral cortex | Q46217058 | ||
Dexmedetomidine weakens dynamic cerebral autoregulation as assessed by transfer function analysis and the thigh cuff method | Q46350460 | ||
The effect of hypocapnia on the autoregulation of cerebral blood flow during administration of isoflurane | Q46450105 | ||
Autonomic neural control of the cerebral vasculature: acute hypotension | Q46616015 | ||
Sympathetic nerve activity in the superior cervical ganglia increases in response to imposed increases in arterial pressure | Q46794024 | ||
Stellate ganglion block and regional cerebral blood volume and oxygenation | Q47645277 | ||
Baroreflex-induced sympathetic activation does not alter cerebrovascular CO2 responsiveness in humans | Q47780432 | ||
Influence of carbon monoxide and of hemodilution on cerebral blood flow and blood gases in man. | Q47988743 | ||
Ventilatory, cerebrovascular, and cardiovascular interactions in acute hypoxia: regulation by carbon dioxide | Q48010072 | ||
Cerebral microvascular dilation during hypotension and decreased oxygen tension: a role for nNOS. | Q48105162 | ||
Moderate hypoxia: reactivity of pial arteries and local effect of theophylline | Q48176210 | ||
Responses of cerebral arteries and arterioles to acute hypotension and hypertension | Q48196743 | ||
Effect of normalization of hematocrit on brain circulation and metabolism in hemodialysis patients | Q48236756 | ||
Determinants of human cerebral pressure-flow velocity relationships: new insights from vascular modelling and Ca²⁺ channel blockade | Q48266718 | ||
Effect of theophylline on brain tissue oxygenation during normoxia and hypoxia in humans | Q48273632 | ||
Contribution of arterial Windkessel in low-frequency cerebral hemodynamics during transient changes in blood pressure | Q48289996 | ||
Steal physiology is spatially associated with cortical thinning | Q48293009 | ||
Response of cerebral arteries to sympathetic stimulation during acute hypertension | Q48293033 | ||
The interaction of carbon dioxide and hypoxia in the control of cerebral blood flow | Q48383601 | ||
Contribution of epoxyeicosatrienoic acids to the hypoxia-induced activation of Ca2+ -activated K+ channel current in cultured rat hippocampal astrocytes | Q48402266 | ||
Have a safe night: intimate protection against cerebral hyperperfusion during REM sleep | Q48410333 | ||
Influence of posture on the regulation of cerebral perfusion. | Q48416517 | ||
Cholinergic innervation of vessels of the base of the brain | Q48416649 | ||
Influence of sympathoexcitation at high altitude on cerebrovascular function and ventilatory control in humans | Q48427007 | ||
Cerebral vasodilators | Q48451842 | ||
Gray matter blood flow change is unevenly distributed during moderate isocapnic hypoxia in humans | Q48452170 | ||
Fundamental importance of arterial oxygen content in the regulation of cerebral blood flow in man. | Q48513109 | ||
Differential blood flow responses to CO₂ in human internal and external carotid and vertebral arteries | Q48553413 | ||
Regional brain blood flow in man during acute changes in arterial blood gases | Q48572480 | ||
Vascular mechanisms controlling a constant blood supply to the brain ("autoregulation"). | Q48633320 | ||
Cerebral autoregulatory response depends on the direction of change in perfusion pressure | Q48707598 | ||
Bicarbonate ion modulation of cerebral blood flow during hypoxia and hypercapnia | Q48925752 | ||
Micropuncture evaluation of the importance of perivascular pH for the arteriolar diameter on the brain surface | Q48945962 | ||
Ventral medullary extracellular fluid pH and blood flow during hypoxia | Q48974205 | ||
Augmented hypoxic cerebral vasodilation in men during 5 days at 3,810 m altitude | Q49017573 | ||
Brain extracellular pH: the main factor controlling cerebral blood flow | Q49120264 | ||
Integrated human physiology: breathing, blood pressure and blood flow to the brain | Q49161946 | ||
Assessment of autoregulation by means of periodic changes in blood pressure | Q49227226 | ||
Effects of hypoxia and normocarbia on cerebral blood flow and metabolism in conscious man | Q51209603 | ||
Interrelationships between blood oxygen tensions and cerebral blood flow. | Q51241006 | ||
Cerebral blood flow in vascular disease of the brain; with observations on the effects of stellate ganglion block. | Q51360628 | ||
Middle cerebral artery blood velocity during exercise with beta-1 adrenergic and unilateral stellate ganglion blockade in humans. | Q51382263 | ||
Hemodilution, cerebral O2 delivery, and cerebral blood flow: a study using hyperbaric oxygenation. | Q51465765 | ||
Effect of stellate ganglion block on the cerebrovascular system: magnetic resonance angiography study. | Q51543335 | ||
Role of nitric oxide, adenosine, N-methyl-D-aspartate receptors, and neuronal activation in hypoxia-induced pial arteriolar dilation in rats. | Q51585146 | ||
Changes in cerebral blood flow estimated after stellate ganglion block by single photon emission computed tomography. | Q51612831 | ||
Cerebral blood flow and oxygen delivery during hypoxemia and hemodilution: role of arterial oxygen content. | Q51620447 | ||
Cholinergic modulation of the cortical microvascular bed. | Q35598412 | ||
Relative contribution of cyclooxygenases, epoxyeicosatrienoic acids, and pH to the cerebral blood flow response to vibrissal stimulation. | Q35850046 | ||
The siphon controversy counterpoint: the brain need not be "baffling". | Q36193028 | ||
Patterns of regional cerebral blood flow associated with low hemoglobin in the Baltimore Longitudinal Study of Aging | Q36215643 | ||
Defining the characteristic relationship between arterial pressure and cerebral flow | Q36320943 | ||
Neurovascular coupling in the normal brain and in hypertension, stroke, and Alzheimer disease | Q36343094 | ||
Perivascular nerves and the regulation of cerebrovascular tone | Q36391631 | ||
Anaemia and the brain | Q36615679 | ||
Cerebral arterial diameters during changes in blood pressure and carbon dioxide during craniotomy | Q36782733 | ||
Perivascular nerves of the human basal cerebral arteries: I. Topographical distribution | Q36817056 | ||
Role of astrocytes in matching blood flow to neuronal activity | Q36820320 | ||
Characterization of angiotensin-II effects on cerebral and ocular circulation by noninvasive methods | Q36861973 | ||
Astrocyte glycogen and brain energy metabolism | Q36894700 | ||
Middle cerebral O₂ delivery during the modified Oxford maneuver increases with sodium nitroprusside and decreases during phenylephrine | Q36923781 | ||
Glial regulation of the cerebral microvasculature | Q36983682 | ||
Sympathetic withdrawal augments cerebral blood flow during acute hypercapnia in sleeping lambs | Q37016550 | ||
Role of large arteries in regulation of cerebral blood flow in dogs | Q37032136 | ||
Experimental arrest of cerebral blood flow in human subjects: the red wing studies revisited | Q37359775 | ||
Impaired vascular regulation in patients with obstructive sleep apnea: effects of continuous positive airway pressure treatment | Q37443285 | ||
Cerebral autoregulation and anesthesia | Q37557270 | ||
Breathing at high altitude | Q37597944 | ||
Integrative physiological and computational approaches to understand autonomic control of cerebral autoregulation | Q37626313 | ||
Cerebral autoregulation in Alzheimer's disease | Q37871829 | ||
Control of brain capillary blood flow | Q37980380 | ||
Cerebral autoregulation and acute ischemic stroke. | Q38008914 | ||
Regulation of large cerebral arteries and cerebral microvascular pressure | Q38137923 | ||
Nonstationarity of dynamic cerebral autoregulation | Q38151372 | ||
Local mechanism of CO2 action of cat pial arterioles | Q39142192 | ||
Analysis of vasoactivity of local pH, PCO2 and bicarbonate on pial vessels | Q39146388 | ||
Parasympathetic cholinergic control of cerebral blood flow in dogs | Q39158855 | ||
Cervical sympathectomy for cerebral vasospasm after aneurysm rupture | Q39397437 | ||
THE EFFECT OF METABOLIC ACIDOSIS AND ALKALOSIS ON THE BLOOD FLOW THROUGH THE CEREBRAL CORTEX. | Q39416507 | ||
Effect of alterations in the arterial carbon dioxide tension on the blood flow through the cerebral cortex at normal and low arterial blood pressures | Q39428915 | ||
Effects of sympathetic nerves on cerebral vessels in dog, cat, and monkey | Q39637912 | ||
Cervical sympathetic block to reverse delayed ischemic neurological deficits after aneurysmal subarachnoid hemorrhage | Q39644771 | ||
Blood pressure and late-life cognitive function change: a biracial longitudinal population study | Q39686811 | ||
The cerebral vascular response to reduction in arterial carbon dioxide tension | Q40318388 | ||
Mechanisms of hypoxic cerebral vasodilatation | Q40506366 | ||
Hypoxia inhibits calcium influx in rabbit basilar and carotid arteries | Q41142143 | ||
Biochemical determinations of cholinergic innervation in cerebral arteries | Q41615429 | ||
Regulation of the cerebral circulation: role of endothelium and potassium channels | Q41697441 | ||
The oxygen paradox of neurovascular coupling | Q41863675 | ||
Brain metabolism dictates the polarity of astrocyte control over arterioles | Q42089441 | ||
pCO(2) and pH regulation of cerebral blood flow | Q42325271 | ||
Acidosis dilates brain parenchymal arterioles by conversion of calcium waves to sparks to activate BK channels. | Q42351857 | ||
Role of 20-HETE in the hypoxia-induced activation of Ca2+-activated K+ channel currents in rat cerebral arterial muscle cells | Q42519554 | ||
Effect of aminophylline on brain tissue oxygenation in patients with chronic obstructive lung disease | Q42572359 | ||
THE RELATIONSHIP BETWEEN THE BLOOD PRESSURE AND THE TONIC REGULATION OF THE PIAL ARTERIES. | Q42727885 | ||
The Different Effects of Midazolam and Propofol Sedation on Dynamic Cerebral Autoregulation | Q42873421 | ||
Flow patterns and distributions of fluid velocity and wall shear stress in the human internal carotid and middle cerebral arteries | Q42879564 | ||
Cerebrovascular regulation during transient hypotension and hypertension in humans. | Q43023400 | ||
On the regulation of the blood supply to the brain: old age concepts and new age ideas | Q43124587 | ||
Influence of changes in blood pressure on cerebral perfusion and oxygenation. | Q43190629 | ||
Effects of Blood Gases on the Pressure-Flow Relationships in Canine Cerebral Circulation | Q43779726 | ||
Autonomic neural control of dynamic cerebral autoregulation in humans. | Q44160803 | ||
Inhibitors of gap junctions attenuate myogenic tone in cerebral arteries | Q44213317 | ||
Mechanisms of the cerebrovascular response to apnoea in humans | Q44317043 | ||
Dampening of blood-flow pulsatility along the carotid siphon: does form follow function? | Q44388817 | ||
The role of the carotid body chemoreceptors and carotid sinus baroreceptors in the control of cerebral blood vessels. | Q44504423 | ||
ATP: a vasoactive signal in the pericyte-containing microvasculature of the rat retina. | Q44522448 | ||
The cholinergic pathway to cerebral blood vessels. II. Physiological studies | Q44568562 | ||
Circulating norepinephrine and cerebrovascular control in conscious humans. | Q44655667 | ||
The role of myogenic mechanisms in human cerebrovascular regulation. | Q44778077 | ||
Cerebral hypoperfusion modifies the respiratory chemoreflex during orthostatic stress | Q44972641 | ||
Assessment of cerebral autoregulation: the quandary of quantification. | Q45076193 | ||
Theophylline Effect on the Cerebral Blood Flow Response to Hypoxemia | Q45090879 | ||
Regional cerebral blood flow in humans at high altitude: gradual ascent and 2 wk at 5,050 m. | Q45265171 | ||
Hypoxic preconditioning and tolerance via hypoxia inducible factor (HIF) 1alpha-linked induction of P450 2C11 epoxygenase in astrocytes | Q45281360 | ||
Differential cerebrovascular CO₂ reactivity in anterior and posterior cerebral circulations | Q45860027 | ||
Nitric oxide mediates hypoxia-induced cerebral vasodilation in humans. | Q51727687 | ||
Low blood pressure and risk of dementia in the Kungsholmen project: a 6-year follow-up study. | Q51950626 | ||
Human cerebral venous outflow pathway depends on posture and central venous pressure. | Q51992816 | ||
Influence of adenosine on cerebral blood flow during hypoxic hypoxia in the newborn piglet. | Q52241740 | ||
The effect of intracarotid aminophylline infusion on the cerebral circulation. | Q52733370 | ||
The effect of stellate ganglion block on cerebral circulation in cerebrovascular accidents | Q52776924 | ||
Magnetic resonance angiography shows dilatation of the middle cerebral artery after infusion of glyceryl trinitrate in healthy volunteers. | Q53016737 | ||
Differential responses to CO2 and sympathetic stimulation in the cerebral and femoral circulations in humans. | Q53857077 | ||
Cerebral autoregulation dynamics in humans. | Q54368825 | ||
Role of large arteries in regulation of blood flow to brain stem in cats. | Q54406154 | ||
Effects of sympathetic stimulation and changes in arterial pressure on segmental resistance of cerebral vessels in rabbits and cats. | Q54497756 | ||
Mechanisms of cerebral vasodilatation in hypoxia. | Q54520725 | ||
Selective reduction of blood flow to white matter during hypercapnia corresponds with leukoaraiosis | Q57041703 | ||
The cerebrovascular response to carbon dioxide in humans | Q58232887 | ||
Dynamic cerebral autoregulation during and following acute hypoxia: role of carbon dioxide | Q58483986 | ||
Intermittent hypoxia reduces cerebrovascular sensitivity to isocapnic hypoxia in humans | Q58484058 | ||
On Intra-Cranial Pressure and the Cerebral Circulation: Part I. Physiological; Part II. Histological | Q58756741 | ||
Assessment and Prognostic Relevance of Right Ventricular Contractile Reserve in Patients With Severe Pulmonary Hypertension | Q61766963 | ||
Cholinergic control of the cerebral vasculature in humans | Q61857488 | ||
Determinants of Response of Pial Arteries to Norepinephrine and Sympathetic Nerve Stimulation | Q67345587 | ||
The effect of intraarterial administered aminophylline on cerebral hemodynamics in man | Q67553888 | ||
Effects of hypoxia on a potassium channel in cat cerebral arterial muscle cells | Q67861809 | ||
Segmental vascular responses to acute hypertension in cerebrum and brain stem | Q68980497 | ||
Role of adenosine in cerebral hypoxic hyperemia in the unanesthetized rabbit | Q69585729 | ||
Effects of oxygen and glucose deprivation on vasoactivity in isolated bovine middle cerebral arteries | Q69630256 | ||
Distribution of cholinergic and adrenergic nerves in the internal carotid artery. A histochemical study | Q69670216 | ||
Protection of cerebral vessels by sympathetic nerves and vascular hypertrophy | Q69688221 | ||
Role of adenosine in regulation of cerebral blood flow: effects of theophylline during normoxia and hypoxia | Q70185426 | ||
Cerebral blood flow is regulated by changes in blood pressure and in blood viscosity alike | Q70276643 | ||
Nitric oxide synthesis and regional cerebral blood flow responses to hypercapnia and hypoxia in the rat | Q70521815 | ||
Changes in pial arteriolar diameter and CSF adenosine concentrations during hypoxia | Q70568420 | ||
Effects of sympathetic nerves on cerebral vessels during acute, moderate increases in arterial pressure in dogs and cats | Q71156309 | ||
Effect of acetylcholine and vasoactive intestinal peptide on cerebral blood flow | Q71255846 | ||
Brain adenosine concentration during hypoxia in rats | Q71565739 | ||
Cervical Sympathectomy on Patients With Occlusive Cerebrovascular Disease | Q72341778 | ||
Neurovascular coupling remains unaffected during normal aging | Q73017531 | ||
Increased cortical oxidative metabolism due to sensory stimulation: implications for functional brain imaging | Q73195548 | ||
The lower limit of autoregulation: time to revise our thinking? | Q73445426 | ||
Motor responses of cultured rat cerebral vascular smooth muscle cells to intra- and extracellular pH changes | Q73568951 | ||
Interaction of carbon dioxide and sympathetic nervous system activity in the regulation of cerebral perfusion in humans | Q74316945 | ||
Interdependence of regional and global cerebral blood flow during visual stimulation: an O-15-butanol positron emission tomography study | Q74317985 | ||
Changes in hemodynamics of the carotid and middle cerebral arteries before and after endoscopic sympathectomy in patients with palmar hyperhidrosis: preliminary results | Q74586535 | ||
Cerebral hemodynamics during the Valsalva maneuver: insights from ganglionic blockade | Q76376909 | ||
Comparison of visually evoked peak systolic and end diastolic blood flow velocity using a control system approach | Q77370825 | ||
On the cellular mechanism for the effect of acidosis on vascular tone | Q77793330 | ||
Asymmetric dynamic cerebral autoregulatory response to cyclic stimuli | Q80108391 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 841-859 | |
P577 | publication date | 2014-01-06 | |
P1433 | published in | Journal of Physiology | Q7743612 |
P1476 | title | Integrative regulation of human brain blood flow | |
P478 | volume | 592 |
Q47657786 | A comparison of static and dynamic cerebral autoregulation during mild whole-body cold stress in individuals with and without cervical spinal cord injury: a pilot study. |
Q42319782 | A longitudinal study of cerebral blood flow under hypoxia at high altitude using 3D pseudo-continuous arterial spin labeling |
Q57658903 | A multiscale model for the simulation of cerebral and extracerebral blood flows and pressures in humans |
Q33774050 | A novel mouse model of ischemic carotid artery disease |
Q50529039 | A rat model of vascular dementia for evaluating Chinese medicine prescriptions. |
Q41037929 | Aging modifies the effect of cardiac output on middle cerebral artery blood flow velocity |
Q38729454 | Alterations in autonomic cerebrovascular control after spinal cord injury. |
Q52317732 | Alterations in the coupling functions between cerebral oxyhaemoglobin and arterial blood pressure signals in post-stroke subjects. |
Q40448100 | Arterial CO2 as a Potent Coronary Vasodilator: A Preclinical PET/MR Validation Study with Implications for Cardiac Stress Testing. |
Q90140439 | Arterial CO2 pressure changes during hypercapnia are associated with changes in brain parenchymal volume |
Q37735005 | Arterial pressure variations as parameters of brain perfusion in response to central blood volume depletion and repletion. |
Q38973598 | Association between cardiovagal baroreflex sensitivity and baseline cerebral perfusion of the hippocampus. |
Q31035657 | Association of age and admission mean arterial blood pressure in patients with stroke-data from a national stroke registry |
Q92527838 | Astrocytes monitor cerebral perfusion and control systemic circulation to maintain brain blood flow |
Q35810336 | Attenuated cerebral vasodilatory capacity in response to hypercapnia in college-aged African Americans. |
Q90134219 | Autoregulation assessment by direct visualisation of pial arterial blood flow in the piglet brain |
Q90219142 | Axial variation of deoxyhemoglobin density as a source of the low-frequency time lag structure in blood oxygenation level-dependent signals |
Q48740104 | Big brain, small body: towards a better understanding of cerebrovascular physiology in children |
Q92977197 | Blood pressure predictors of stroke in rural Chinese dwellers with hypertension: a large-scale prospective cohort study |
Q38668633 | Blunted cerebral vascular responsiveness to hypercapnia in obese individuals. |
Q48967751 | Can the Assessment of Spontaneous Oscillations by Near Infrared Spectrophotometry Predict Neurological Outcome of Preterm Infants? |
Q38867261 | Cardiovascular control during whole body exercise |
Q30384436 | Carotid artery stiffness and hemodynamic pulsatility during cognitive engagement in healthy adults: a pilot investigation |
Q39999646 | Central respiratory chemosensitivity and cerebrovascular CO2 reactivity: a rebreathing demonstration illustrating integrative human physiology |
Q64248638 | Cerebral Autoregulation Evidenced by Synchronized Low Frequency Oscillations in Blood Pressure and Resting-State fMRI |
Q58580614 | Cerebral Autoregulation Is Disrupted Following a Season of Contact Sports Participation |
Q88766746 | Cerebral Autoregulation in Stroke |
Q38596687 | Cerebral Blood-Flow Regulation During Hemorrhage |
Q38849579 | Cerebral Perfusion Pressure Insults and Associations with Outcome in Adult Traumatic Brain Injury. |
Q55054533 | Cerebral Perfusion and Cerebral Autoregulation after Cardiac Arrest. |
Q38542457 | Cerebral Vascular Control and Metabolism in Heat Stress |
Q42237492 | Cerebral ambiguity |
Q47158889 | Cerebral and Retinal Neurovascular Changes: A Biomarker for Alzheimer's Disease |
Q58763909 | Cerebral blood flow alteration following acute myocardial infarction in mice |
Q47356412 | Cerebral blood flow autoregulation in ischemic heart failure |
Q48314748 | Cerebral blood flow, frontal lobe oxygenation and intra-arterial blood pressure during sprint exercise in normoxia and severe acute hypoxia in humans. |
Q90066142 | Cerebral microvascular complications of type 2 diabetes: stroke, cognitive dysfunction, and depression |
Q33163947 | Cerebral oxygenation and hyperthermia |
Q91666073 | Cerebral oxygenation during locomotion is modulated by respiration |
Q47829179 | Cerebral oxygenation in highlanders with and without high-altitude pulmonary hypertension. |
Q38934920 | Cerebral perfusion monitoring in acute care surgery: current and perspective use. |
Q47695737 | Cerebrovascular Hemodynamics During the Practice of Bhramari Pranayama, Kapalbhati and Bahir-Kumbhaka: An Exploratory Study. |
Q47570827 | Cerebrovascular Hemodynamics in Women |
Q55437412 | Cerebrovascular Resistance: The Basis of Cerebrovascular Reactivity. |
Q35849979 | Cerebrovascular Responsiveness to Hypercapnia Is Stable over Six Months in Older Adults. |
Q41386025 | Cerebrovascular and ventilatory responses to acute normobaric hypoxia in girls and women |
Q37579320 | Cerebrovascular hemodynamics during pranayama techniques. |
Q89972158 | Cerebrovascular reactivity and cerebral autoregulation are improved in the supine posture compared to upright in healthy men and women |
Q47962803 | Cerebrovascular response to the cold pressor test - the critical role of carbon dioxide |
Q53098690 | Combining remote ischemic preconditioning and aerobic exercise: a novel adaptation of blood flow restriction exercise. |
Q47164483 | Compromised Cerebrovascular Regulation and Cerebral Oxygenation in Pulmonary Arterial Hypertension. |
Q90092982 | Compromised Dynamic Cerebral Autoregulation in Patients With Idiopathic Rapid Eye Movement Behavior Disorder: A Case-Control Study Using Transcranial Doppler |
Q90603121 | CrossTalk proposal: Blood flow pulsatility in left ventricular assist device patients is essential to maintain normal brain physiology |
Q48174813 | CrossTalk proposal: dynamic cerebral autoregulation should be quantified using spontaneous blood pressure fluctuations |
Q36348486 | Dehydration accelerates reductions in cerebral blood flow during prolonged exercise in the heat without compromising brain metabolism |
Q42083015 | Dehydration affects cerebral blood flow but not its metabolic rate for oxygen during maximal exercise in trained humans. |
Q90680465 | Depiction of Physiological Homeostasis by Self-Coupled System and Its Significance |
Q47872692 | Detrimental effect of systemic vascular risk factors on brain hemodynamic function assessed with MRI. |
Q102379232 | Dietary flavanols improve cerebral cortical oxygenation and cognition in healthy adults |
Q92239506 | Differences Between Central Venous and Cerebral Tissue Oxygen Saturation in Anaesthetised Patients With Diabetes Mellitus |
Q92631077 | Differential Expression of CD31 and Von Willebrand Factor on Endothelial Cells in Different Regions of the Human Brain: Potential Implications for Cerebral Malaria Pathogenesis |
Q33740914 | Differential impact of water immersion on arterial blood flow and shear stress in the carotid and brachial arteries of humans |
Q90261040 | Dynamic cerebral autoregulation across the cardiac cycle during 8 hr of recovery from acute exercise |
Q40503670 | Dynamic cerebral autoregulation to induced blood pressure changes in human experimental and clinical sepsis |
Q48270397 | Dynamics of middle cerebral artery blood flow velocity during moderate-intensity exercise |
Q58090312 | Effect of Electrical Vagus Nerve Stimulation on Cerebral Blood Flow and Neurological Outcome in Asphyxial Cardiac Arrest Model of Rats |
Q33901484 | Effect of acute hypoxia on regional cerebral blood flow: effect of sympathetic nerve activity |
Q50242628 | Effect of acute nitrate supplementation on neurovascular coupling and cognitive performance in hypoxia |
Q37644808 | Effect of acute resistance exercise on carotid artery stiffness and cerebral blood flow pulsatility. |
Q92373992 | Effect of chronic nitrate and citrulline supplementation on vascular function and exercise performance in older individuals |
Q88726695 | Effect of healthy aging and sex on middle cerebral artery blood velocity dynamics during moderate-intensity exercise |
Q92799754 | Effects of Metabolic Syndrome on Cognitive Performance of Adults During Exercise |
Q33874260 | Effects of a compound from the group of substituted thiadiazines with hypothermia inducing properties on brain metabolism in rats, a study in vivo and in vitro |
Q90228060 | Effects of anesthesia on cerebral blood flow, metabolism, and neuroprotection |
Q30437135 | Effects of hypercapnia on peripheral vascular reactivity in elderly patients with acute exacerbation of chronic obstructive pulmonary disease |
Q36594134 | Effects of midodrine and L-NAME on systemic and cerebral hemodynamics during cognitive activation in spinal cord injury and intact controls |
Q37009677 | Effects of short-term exposure to head-down tilt on cerebral hemodynamics: a prospective evaluation of a spaceflight analog using phase-contrast MRI. |
Q40770148 | Effects of short-term mechanical hyperventilation on cerebral blood flow and dynamic cerebral autoregulation in critically ill patients with sepsis. |
Q48336213 | Evidence for hysteresis in the cerebral pressure-flow relationship in healthy men. |
Q57175172 | Exploring early human brain development with structural and physiological neuroimaging |
Q36414105 | Extra and intra-cranial blood flow regulation during the cold pressor test: influence of age. |
Q34300623 | Factors affecting the determination of cerebrovascular reactivity. |
Q38998298 | False positives and false negatives in functional near-infrared spectroscopy: issues, challenges, and the way forward |
Q39825589 | Fine tuning breath-hold-based cerebrovascular reactivity analysis models |
Q28074564 | Fluid and ion transfer across the blood-brain and blood-cerebrospinal fluid barriers; a comparative account of mechanisms and roles |
Q64248325 | Frequency analysis of oscillations in cerebral hemodynamics measured by time domain near infrared spectroscopy |
Q47110915 | Functional connectivity analysis of distracted drivers based on the wavelet phase coherence of functional near-infrared spectroscopy signals. |
Q90400066 | Functional-Optical Coherence Tomography: A Non-invasive Approach to Assess the Sympathetic Nervous System and Intrinsic Vascular Regulation |
Q53461700 | Fundamental relationships between blood pressure and cerebral blood flow in humans. |
Q38329798 | Further understanding of cerebral autoregulation at the bedside: possible implications for future therapy |
Q33881997 | Gradient adjustment method for better discriminating correlating and non-correlating regions of physiological signals: application to the partitioning of impaired and intact zones of cerebral autoregulation. |
Q64292930 | Heat, Hydration and the Human Brain, Heart and Skeletal Muscles |
Q27692080 | High-intensity interval exercise and cerebrovascular health: curiosity, cause, and consequence |
Q64063582 | How I monitor cerebral autoregulation |
Q38629795 | Human cerebral blood flow control during hypoxia: focus on chronic pulmonary obstructive disease (COPD) and obstructive sleep apnea (OSA). |
Q49958823 | Human subarachnoid space width oscillations in the resting state. |
Q38671519 | Hypoxemia, oxygen content, and the regulation of cerebral blood flow |
Q39673675 | Identification of human sympathetic neurovascular control using multivariate wavelet decomposition analysis. |
Q89821999 | Impact of bariatric surgery on cerebral vascular reactivity and cognitive function: a non-randomized pilot study |
Q89338724 | Impact of fluid challenge increase in cardiac output on the relationship between systemic and cerebral hemodynamics in severe sepsis compared to brain injury and controls |
Q33164732 | Impact of hypocapnia and cerebral perfusion on orthostatic tolerance. |
Q35944554 | Impact of intraoperative hypotension and blood pressure fluctuations on early postoperative delirium after non-cardiac surgery |
Q89967616 | Improving Cerebrovascular Function to Increase Neuronal Recovery in Neurodegeneration Associated to Cardiovascular Disease |
Q48468855 | Influence of high altitude on cerebral blood flow and fuel utilization during exercise and recovery |
Q47680638 | Influence of lung volume on the interaction between cardiac output and cerebrovascular regulation during extreme apnoea. |
Q47814850 | Influence of muscle metaboreceptor stimulation on middle cerebral artery blood velocity in humans |
Q50224086 | Influence of prior hyperventilation duration on respiratory chemosensitivity and cerebrovascular reactivity during modified hyperoxic rebreathing. |
Q38832964 | Intracranial mechanisms for preserving brain blood flow in health and disease |
Q58123972 | Is Baseline Orthostatic Hypotension Associated With a Decline in Global Cognitive Performance at 4-Year Follow-Up? Data From TILDA (The Irish Longitudinal Study on Ageing) |
Q86828364 | Lack of effect of nitroglycerin on the diameter response of larger retinal arterioles in normal persons during hypoxia |
Q41389641 | Lack of linear correlation between dynamic and steady-state cerebral autoregulation. |
Q64106688 | Limb linkage rehabilitation training-related changes in cortical activation and effective connectivity after stroke: A functional near-infrared spectroscopy study |
Q87668384 | Measuring cerebral auto-variability |
Q96303384 | Measuring the Frequency-Specific Functional Connectivity Using Wavelet Coherence Analysis in Stroke Rats Based on Intrinsic Signals |
Q47949325 | Middle cerebral artery diameter changes during rhythmic handgrip exercise in humans. |
Q51594878 | Mild dehydration modifies the cerebrovascular response to the cold pressor test. |
Q26738343 | Neurocardiovascular Instability and Cognition |
Q59805507 | Neurovascular Coupling Remains Intact During Incremental Ascent to High Altitude (4240 m) in Acclimatized Healthy Volunteers |
Q92704291 | Neurovascular coupling and cerebral autoregulation in atrial fibrillation |
Q36765857 | Neurovascular coupling in humans: Physiology, methodological advances and clinical implications |
Q47934498 | Nitric oxide-sensitive guanylyl cyclase signaling affects CO2-dependent but not pressure-dependent regulation of cerebral blood flow |
Q92332496 | Non-pulsatile blood flow is associated with enhanced cerebrovascular carbon dioxide reactivity and an attenuated relationship between cerebral blood flow and regional brain oxygenation |
Q90330347 | Noninvasive optical measurement of microvascular cerebral hemodynamics and autoregulation in the neonatal ECMO patient |
Q57469014 | Oxygen, evolution and redox signalling in the human brain; quantum in the quotidian |
Q38738221 | Physiome approach for the analysis of vascular flow reserve in the heart and brain |
Q37670274 | Postural effects on cerebral blood flow and autoregulation |
Q92260685 | Prostacyclin Affects the Relation Between Brain Interstitial Glycerol and Cerebrovascular Pressure Reactivity in Severe Traumatic Brain Injury |
Q39403425 | Quantifying cerebrovascular reactivity in anterior and posterior cerebral circulations during voluntary breath holding |
Q92618718 | Quantitative Assessment of Autonomic Regulation of the Cardiac System |
Q48174840 | Rebuttal from Y. C. Tzeng and R. B. Panerai. |
Q31136975 | Regional Brain Water Content and Distribution During Diabetic Ketoacidosis |
Q88453331 | Regulation of Cerebral Blood Flow: Response to Cytochrome P450 Lipid Metabolites |
Q34957499 | Regulation of brain blood flow and oxygen delivery in elite breath-hold divers |
Q48162488 | Regulation of cerebral blood flow and metabolism during exercise |
Q92677857 | Regulation of the Cerebral Circulation by Arterial Carbon Dioxide |
Q26752796 | Regulation of the cerebral circulation: bedside assessment and clinical implications |
Q28081507 | Rho kinase as a target for cerebral vascular disorders |
Q37245262 | Role of cerebral blood flow in extreme breath holding |
Q37638008 | Role of endothelial nitric oxide synthase and endothelin-1 polymorphism genes with the pathogenesis of intraventricular hemorrhage in preterm infants |
Q92361908 | Six weeks of high-intensity interval training to exhaustion attenuates dynamic cerebral autoregulation without influencing resting cerebral blood velocity in young fit men |
Q89149556 | Sodium nitroprusside dilates cerebral vessels and enhances internal carotid artery flow in young men |
Q89876799 | Specific effect of hypobaria on cerebrovascular hypercapnic responses in hypoxia |
Q52543742 | Sport-Related Concussion Alters Indices of Dynamic Cerebral Autoregulation. |
Q48108590 | Static cerebrovascular pressure autoregulation remains intact during deep hypothermia. |
Q90322291 | Steady-state cerebral blood flow regulation at altitude: interaction between oxygen and carbon dioxide |
Q40947636 | Steady-state tilt has no effect on cerebrovascular CO2 reactivity in anterior and posterior cerebral circulations |
Q42839787 | Striatal vessels receive phosphorylated tyrosine hydroxylase-rich innervation from midbrain dopaminergic neurons. |
Q39721388 | Sub-clinical orthostatic hypotension is associated with greater subjective memory impairment in older adults |
Q35748723 | Sympathetic Activation Does Not Affect the Cardiac and Respiratory Contribution to the Relationship between Blood Pressure and Pial Artery Pulsation Oscillations in Healthy Subjects |
Q90100811 | Tai Chi Chuan exercise related change in brain function as assessed by functional near-infrared spectroscopy |
Q28084604 | Technical recommendations for the use of carotid duplex ultrasound for the assessment of extracranial blood flow |
Q41237380 | The Dynamic cerebral autoregulatory adaptive response to noradrenaline is attenuated during systemic inflammation in humans |
Q99634947 | The Various Oximetric Techniques Used for the Evaluation of Blood Oxygenation |
Q47892182 | The cerebrovascular response to lower-body negative pressure vs. head-up tilt. |
Q30300729 | The contribution of arterial blood gases in cerebral blood flow regulation and fuel utilization in man at high altitude |
Q37263946 | The effects of superimposed tilt and lower body negative pressure on anterior and posterior cerebral circulations |
Q92611794 | The impact of acute remote ischaemic preconditioning on cerebrovascular function |
Q38969718 | The impact of cerebrovascular aging on vascular cognitive impairment and dementia. |
Q47766365 | The independent and interactive effects of incremental heat strain, orthostatic stress and mild hypohydration on cerebral perfusion |
Q49771003 | The influence of norepinephrine and phenylephrine on cerebral perfusion and oxygenation during propofol-remifentanil and propofol-remifentanil-dexmedetomidine anaesthesia in piglets |
Q42374655 | The major cerebral arteries proximal to the Circle of Willis contribute to cerebrovascular resistance in humans |
Q38637373 | The role of vascular resistance in BOLD responses to progressive hypercapnia |
Q40479736 | Tonic Local Brain Blood Flow Control by Astrocytes Independent of Phasic Neurovascular Coupling. |
Q60938791 | Tooth Clenching Induces Abnormal Cerebrovascular Responses in Migraineurs |
Q30359815 | Transfer function analysis of dynamic cerebral autoregulation: A white paper from the International Cerebral Autoregulation Research Network |
Q49990774 | Transient Hypertension after Spinal Cord Injury Leads to Cerebrovascular Endothelial Dysfunction and Fibrosis. |
Q36390111 | UBC-Nepal Expedition: Markedly lower cerebral blood flow in high altitude Sherpa children compared to children residing at sea-level. |
Q37609064 | Uncoupling between cerebral perfusion and oxygenation during incremental exercise in an athlete with postconcussion syndrome: a case report |
Q93047390 | Vascular Instability and Neurological Morbidity in Sickle Cell Disease: An Integrative Framework |
Q57092049 | Ventilatory and cerebrovascular regulation and integration at high-altitude |
Q37153371 | Vigilance Task-Related Change in Brain Functional Connectivity as Revealed by Wavelet Phase Coherence Analysis of Near-Infrared Spectroscopy Signals |
Q52619553 | Wavelet decomposition analysis is a clinically-relevant strategy to evaluate cerebrovascular buffering of blood pressure after spinal cord injury. |
Q60923275 | What is the key mediator of the neurovascular coupling response? |
Search more.