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Publication DateJournal of Applied Physiology, ISSN 8750-7587, 09/2015, Volume 119, Issue 5, pp. 569 - 575
Studies have reported a greater blood flow response to muscle contractions when the limb is below the heart compared with above the heart, and these results...
Skeletal muscle pump | Functional hyperemia | Muscle contraction | Muscle blood flow | BODY POSITION | muscle contraction | SPORT SCIENCES | PHYSIOLOGY | skeletal muscle pump | RAPID VASODILATION | HUMAN FOREARM | functional hyperemia | PUMP | MUSCLE BLOOD-FLOW | SKELETAL-MUSCLE | RHYTHMIC EXERCISE | muscle blood flow | NITRIC-OXIDE | BRIEF CONTRACTION | PERFUSION-PRESSURE | Humans | Rats | Male | Physical Conditioning, Animal - physiology | Plethysmography - methods | Rats, Sprague-Dawley | Blood Pressure Determination - methods | Animals | Hyperemia - physiopathology | Muscle Contraction - physiology | Muscle, Skeletal - physiopathology | Adult | Female | Blood Pressure - physiology | Exercise - physiology | Vasodilation - physiology | Regional Blood Flow - physiology | Brachial Artery - physiology
Skeletal muscle pump | Functional hyperemia | Muscle contraction | Muscle blood flow | BODY POSITION | muscle contraction | SPORT SCIENCES | PHYSIOLOGY | skeletal muscle pump | RAPID VASODILATION | HUMAN FOREARM | functional hyperemia | PUMP | MUSCLE BLOOD-FLOW | SKELETAL-MUSCLE | RHYTHMIC EXERCISE | muscle blood flow | NITRIC-OXIDE | BRIEF CONTRACTION | PERFUSION-PRESSURE | Humans | Rats | Male | Physical Conditioning, Animal - physiology | Plethysmography - methods | Rats, Sprague-Dawley | Blood Pressure Determination - methods | Animals | Hyperemia - physiopathology | Muscle Contraction - physiology | Muscle, Skeletal - physiopathology | Adult | Female | Blood Pressure - physiology | Exercise - physiology | Vasodilation - physiology | Regional Blood Flow - physiology | Brachial Artery - physiology
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Loading RightsNeuron, ISSN 0896-6273, 07/2018, Volume 99, Issue 2, pp. 362 - 375.e4
Functional hyperemia, a regional increase of blood flow triggered by local neural activation, is used to map brain activity in health and disease. However, the...
blood-brain barrier | microvascular | endothelium | calcium | anesthetized | CBF | neurovascular coupling | neuron | awake | odor | glia | in vivo | hyperpolarization | gap junction | functional imaging | astrocyte | glutamate | neurovascular unit | in vivo | RESPONSES | GAP-JUNCTIONS | OLFACTORY-BULB | CAPILLARY PERICYTES | OLIGODENDROCYTE PRECURSOR CELLS | IN-VIVO | MUSCLE | CEREBRAL-BLOOD-FLOW | NEUROSCIENCES | BRAIN | COMMUNICATION | Glutamate | Neurons | Endothelium | Neurophysiology | Calcium signalling | Neuroimaging | Odors | Brain mapping | Functional magnetic resonance imaging | Pericytes | Smooth muscle | Hyperemia | Capillaries | Velocity | Blood flow
blood-brain barrier | microvascular | endothelium | calcium | anesthetized | CBF | neurovascular coupling | neuron | awake | odor | glia | in vivo | hyperpolarization | gap junction | functional imaging | astrocyte | glutamate | neurovascular unit | in vivo | RESPONSES | GAP-JUNCTIONS | OLFACTORY-BULB | CAPILLARY PERICYTES | OLIGODENDROCYTE PRECURSOR CELLS | IN-VIVO | MUSCLE | CEREBRAL-BLOOD-FLOW | NEUROSCIENCES | BRAIN | COMMUNICATION | Glutamate | Neurons | Endothelium | Neurophysiology | Calcium signalling | Neuroimaging | Odors | Brain mapping | Functional magnetic resonance imaging | Pericytes | Smooth muscle | Hyperemia | Capillaries | Velocity | Blood flow
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Loading RightsJACC: Cardiovascular Interventions, ISSN 1936-8798, 04/2012, Volume 5, Issue 4, pp. 402 - 408
Objectives: This study sought to compare increasing doses of intracoronary (IC) adenosine or IC sodium nitroprusside versus intravenous (IV) adenosine for...
adenosine | intermediate coronary stenosis | sodium nitroprusside | fractional flow reserve | ARTERY STENOSES | CARDIAC & CARDIOVASCULAR SYSTEMS | NO-REFLOW | PRESSURE MEASUREMENTS | FUNCTIONAL SEVERITY | HUMANS | FOLLOW-UP | ANGIOPLASTY | ACUTE MYOCARDIAL-INFARCTION | CONTINUOUS-INFUSION | INTERVENTION | Predictive Value of Tests | Prospective Studies | Humans | Middle Aged | Fractional Flow Reserve, Myocardial - drug effects | Male | Atrioventricular Block - chemically induced | Dose-Response Relationship, Drug | Cardiac Catheterization | Rome | Adenosine - adverse effects | Female | Coronary Stenosis - diagnostic imaging | Severity of Illness Index | Nitroprusside - administration & dosage | Adenosine - administration & dosage | Nitroprusside - adverse effects | Myocardial Perfusion Imaging - methods | Coronary Angiography | Algorithms | Coronary Stenosis - physiopathology | Hyperemia - physiopathology | Aged | Infusions, Intravenous | Vasodilator Agents - adverse effects | Vasodilator Agents - administration & dosage | Coronary Stenosis - diagnosis | Infusions, Intra-Arterial | Injections, Intra-Arterial
adenosine | intermediate coronary stenosis | sodium nitroprusside | fractional flow reserve | ARTERY STENOSES | CARDIAC & CARDIOVASCULAR SYSTEMS | NO-REFLOW | PRESSURE MEASUREMENTS | FUNCTIONAL SEVERITY | HUMANS | FOLLOW-UP | ANGIOPLASTY | ACUTE MYOCARDIAL-INFARCTION | CONTINUOUS-INFUSION | INTERVENTION | Predictive Value of Tests | Prospective Studies | Humans | Middle Aged | Fractional Flow Reserve, Myocardial - drug effects | Male | Atrioventricular Block - chemically induced | Dose-Response Relationship, Drug | Cardiac Catheterization | Rome | Adenosine - adverse effects | Female | Coronary Stenosis - diagnostic imaging | Severity of Illness Index | Nitroprusside - administration & dosage | Adenosine - administration & dosage | Nitroprusside - adverse effects | Myocardial Perfusion Imaging - methods | Coronary Angiography | Algorithms | Coronary Stenosis - physiopathology | Hyperemia - physiopathology | Aged | Infusions, Intravenous | Vasodilator Agents - adverse effects | Vasodilator Agents - administration & dosage | Coronary Stenosis - diagnosis | Infusions, Intra-Arterial | Injections, Intra-Arterial
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Loading RightsAmerican Journal of Physiology - Heart and Circulatory Physiology, ISSN 0363-6135, 03/2016, Volume 310, Issue 6, pp. H775 - H784
Neurovascular coupling refers to the link between an increase in neural activity in response to a task and an increase in cerebral blood flow denoted...
Functional hyperemia | Lower body negative pressure | Neurovascular coupling | CARDIAC & CARDIOVASCULAR SYSTEMS | PHYSIOLOGY | MYOGENIC MECHANISMS | neurovascular coupling | functional hyperemia | CEREBROVASCULAR REGULATION | SPECTRUM ANALYSIS | ASTROCYTES | AUTOREGULATION | LOW-FREQUENCY OSCILLATIONS | lower body negative pressure | MOTOR IMAGERY PARADIGMS | PERIPHERAL VASCULAR DISEASE | CEREBRAL-BLOOD-FLOW | POSTURAL TACHYCARDIA SYNDROME | BRAIN | Cerebrovascular Circulation - physiology | Humans | Lower Body Negative Pressure - methods | Male | Healthy Volunteers | Young Adult | Hyperemia - diagnostic imaging | Ultrasonography, Doppler, Transcranial | Hyperemia - physiopathology | Blood Flow Velocity | Middle Cerebral Artery - physiopathology | Adult | Female | Postural Orthostatic Tachycardia Syndrome - physiopathology | Middle Cerebral Artery - diagnostic imaging | Regional blood flow | Blood pressure | Regulation | Health aspects | Methods | Integrative Cardiovascular Physiology and Pathophysiology
Functional hyperemia | Lower body negative pressure | Neurovascular coupling | CARDIAC & CARDIOVASCULAR SYSTEMS | PHYSIOLOGY | MYOGENIC MECHANISMS | neurovascular coupling | functional hyperemia | CEREBROVASCULAR REGULATION | SPECTRUM ANALYSIS | ASTROCYTES | AUTOREGULATION | LOW-FREQUENCY OSCILLATIONS | lower body negative pressure | MOTOR IMAGERY PARADIGMS | PERIPHERAL VASCULAR DISEASE | CEREBRAL-BLOOD-FLOW | POSTURAL TACHYCARDIA SYNDROME | BRAIN | Cerebrovascular Circulation - physiology | Humans | Lower Body Negative Pressure - methods | Male | Healthy Volunteers | Young Adult | Hyperemia - diagnostic imaging | Ultrasonography, Doppler, Transcranial | Hyperemia - physiopathology | Blood Flow Velocity | Middle Cerebral Artery - physiopathology | Adult | Female | Postural Orthostatic Tachycardia Syndrome - physiopathology | Middle Cerebral Artery - diagnostic imaging | Regional blood flow | Blood pressure | Regulation | Health aspects | Methods | Integrative Cardiovascular Physiology and Pathophysiology
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Loading RightsPLoS ONE, ISSN 1932-6203, 08/2017, Volume 12, Issue 8, p. e0183259
To characterize and interpret arterial spin labeling (ASL) reactive hyperemia of calf muscles for a better understanding of the microcirculation in peripheral...
RESPONSES | MATHEMATICAL-MODEL | INTERSTITIAL ADENOSINE | CONTRACTION | MULTIDISCIPLINARY SCIENCES | FLOW CHEMICAL-REGULATION | MAGNETIC-RESONANCE | BLOOD-FLOW | THEORETICAL-MODEL | HUMAN SKELETAL-MUSCLE | EXERCISE | Models, Theoretical | Peripheral Arterial Disease - physiopathology | Arteries - physiopathology | Humans | Hyperemia - physiopathology | Muscle, Skeletal - physiopathology | Adult | Spin Labels | Case-Control Studies | Muscle, Skeletal - blood supply | Physiological aspects | Microcirculation | Development and progression | Models | Research | Peripheral vascular diseases | Adenosine | Nuclear magnetic resonance--NMR | Thigh | Muscles | Labelling | Biophysics | Marking | Metabolism | Patients | Muscle contraction | Musculoskeletal system | Ischemia | Metabolites | Perfusion | Rodents | Spectrum analysis | Hypoxia | Physiology | Hyperemia | Microvasculature | Diabetes | Veins & arteries | NMR | Nuclear magnetic resonance
RESPONSES | MATHEMATICAL-MODEL | INTERSTITIAL ADENOSINE | CONTRACTION | MULTIDISCIPLINARY SCIENCES | FLOW CHEMICAL-REGULATION | MAGNETIC-RESONANCE | BLOOD-FLOW | THEORETICAL-MODEL | HUMAN SKELETAL-MUSCLE | EXERCISE | Models, Theoretical | Peripheral Arterial Disease - physiopathology | Arteries - physiopathology | Humans | Hyperemia - physiopathology | Muscle, Skeletal - physiopathology | Adult | Spin Labels | Case-Control Studies | Muscle, Skeletal - blood supply | Physiological aspects | Microcirculation | Development and progression | Models | Research | Peripheral vascular diseases | Adenosine | Nuclear magnetic resonance--NMR | Thigh | Muscles | Labelling | Biophysics | Marking | Metabolism | Patients | Muscle contraction | Musculoskeletal system | Ischemia | Metabolites | Perfusion | Rodents | Spectrum analysis | Hypoxia | Physiology | Hyperemia | Microvasculature | Diabetes | Veins & arteries | NMR | Nuclear magnetic resonance
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Loading RightsThe Journal of Physiology, ISSN 0022-3751, 12/2012, Volume 590, Issue 24, pp. 6307 - 6320
Abstract This review considers the contributions to exercise hyperaemia of substances released into the interstitial fluid, with emphasis on whether they are...
INTERSTITIAL METABOLITE RESPONSES | BLOOD-FLOW REGULATION | ARTERIOLAR DILATION | PHYSIOLOGY | IN-VIVO | SYSTEMIC HYPOXIA | NITRIC-OXIDE FORMATION | NEUROSCIENCES | HUMAN SKELETAL-MUSCLE | FUNCTIONAL HYPEREMIA | OXYGEN-UPTAKE | PROSTAGLANDIN SYNTHESIS | Phosphates | Lactates | Medical colleges | Exercise | Nitric oxide | Prostaglandins E | Physiological aspects | Cystic fibrosis | Endothelium | Adenosine | Rodents | From Rest to Maximal Exercise | Symposium Section Reviews | Blood Flow Regulation
INTERSTITIAL METABOLITE RESPONSES | BLOOD-FLOW REGULATION | ARTERIOLAR DILATION | PHYSIOLOGY | IN-VIVO | SYSTEMIC HYPOXIA | NITRIC-OXIDE FORMATION | NEUROSCIENCES | HUMAN SKELETAL-MUSCLE | FUNCTIONAL HYPEREMIA | OXYGEN-UPTAKE | PROSTAGLANDIN SYNTHESIS | Phosphates | Lactates | Medical colleges | Exercise | Nitric oxide | Prostaglandins E | Physiological aspects | Cystic fibrosis | Endothelium | Adenosine | Rodents | From Rest to Maximal Exercise | Symposium Section Reviews | Blood Flow Regulation
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Loading RightsAmerican Journal of Physiology - Heart and Circulatory Physiology, ISSN 0363-6135, 2017, Volume 312, Issue 4, pp. H672 - H680
Neurovascular coupling (NVC) describes the link between an increase in task-related neural activity and increased cerebral blood flow denoted "functional...
Functional hyperemia | Lower body negative pressure | Neurovascular coupling | CARDIAC & CARDIOVASCULAR SYSTEMS | PHYSIOLOGY | MYOGENIC MECHANISMS | INFORMATION | neurovascular coupling | functional hyperemia | CEREBROVASCULAR REGULATION | SPECTRUM ANALYSIS | ASTROCYTES | AUTOREGULATION | LOW-FREQUENCY OSCILLATIONS | lower body negative pressure | PERIPHERAL VASCULAR DISEASE | CEREBRAL-BLOOD-FLOW | POSTURAL TACHYCARDIA SYNDROME | BRAIN | Psychomotor Performance | Memory Disorders - psychology | Humans | Lower Body Negative Pressure - psychology | Male | Cerebrovascular Circulation | Healthy Volunteers | Hyperemia - psychology | Young Adult | Hyperemia - diagnostic imaging | Arterial Pressure | Memory Disorders - etiology | Ultrasonography, Doppler, Transcranial | Hyperemia - physiopathology | Middle Cerebral Artery - physiopathology | Adult | Female | Hemodynamics | Memory, Short-Term
Functional hyperemia | Lower body negative pressure | Neurovascular coupling | CARDIAC & CARDIOVASCULAR SYSTEMS | PHYSIOLOGY | MYOGENIC MECHANISMS | INFORMATION | neurovascular coupling | functional hyperemia | CEREBROVASCULAR REGULATION | SPECTRUM ANALYSIS | ASTROCYTES | AUTOREGULATION | LOW-FREQUENCY OSCILLATIONS | lower body negative pressure | PERIPHERAL VASCULAR DISEASE | CEREBRAL-BLOOD-FLOW | POSTURAL TACHYCARDIA SYNDROME | BRAIN | Psychomotor Performance | Memory Disorders - psychology | Humans | Lower Body Negative Pressure - psychology | Male | Cerebrovascular Circulation | Healthy Volunteers | Hyperemia - psychology | Young Adult | Hyperemia - diagnostic imaging | Arterial Pressure | Memory Disorders - etiology | Ultrasonography, Doppler, Transcranial | Hyperemia - physiopathology | Middle Cerebral Artery - physiopathology | Adult | Female | Hemodynamics | Memory, Short-Term
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Loading RightsNitric Oxide, ISSN 1089-8603, 05/2016, Volume 55-56, pp. 54 - 61
The presence of nitric oxide (NO) synthase enzymes, mainly the NOS1 isoform, in skeletal muscle had been well established; however in the last decade it has...
Nitrate | Exercise | Nitrite | Functional hyperemia | Nitric oxide | Skeletal muscle | BACTERIA | BIOCHEMISTRY & MOLECULAR BIOLOGY | RELEASE | CELL BIOLOGY | SYNTHASE | XANTHINE-OXIDASE | REDUCTION | GENERATION | SAMPLES | BLOOD | Xanthine Dehydrogenase - metabolism | Nitrates - metabolism | Nitric Oxide - biosynthesis | Hyperemia - metabolism | Animals | Rats, Wistar | Nitrites - metabolism | Male | Muscle, Skeletal - metabolism | Physical Conditioning, Animal - physiology | Muscles | Enzymes | Vasodilators | functional hyperemia | exercise | nitric oxide | nitrite | nitrate | skeletal muscle
Nitrate | Exercise | Nitrite | Functional hyperemia | Nitric oxide | Skeletal muscle | BACTERIA | BIOCHEMISTRY & MOLECULAR BIOLOGY | RELEASE | CELL BIOLOGY | SYNTHASE | XANTHINE-OXIDASE | REDUCTION | GENERATION | SAMPLES | BLOOD | Xanthine Dehydrogenase - metabolism | Nitrates - metabolism | Nitric Oxide - biosynthesis | Hyperemia - metabolism | Animals | Rats, Wistar | Nitrites - metabolism | Male | Muscle, Skeletal - metabolism | Physical Conditioning, Animal - physiology | Muscles | Enzymes | Vasodilators | functional hyperemia | exercise | nitric oxide | nitrite | nitrate | skeletal muscle
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Loading RightsInvestigative Ophthalmology and Visual Science, ISSN 0146-0404, 11/2015, Volume 56, Issue 12, pp. 7551 - 7559
PURPOSE. To investigate how glial cells participate in retinal circulation during flicker stimulation in cats. METHODS. Using laser Doppler velocimetry, we...
Retinal blood flow | Flicker-induced hyperemia | Gliotoxic compound | Retinal glial cells | Neurovascular coupling | DIABETIC-RETINOPATHY | OPTIC-NERVE HEAD | NADPH DIAPHORASE | NITRIC-OXIDE SYNTHASE | neurovascular coupling | AMINOADIPIC ACID | gliotoxic compound | OPEN-ANGLE GLAUCOMA | retinal blood flow | OPHTHALMOLOGY | retinal glial cells | flicker-induced hyperemia | ARTERIOLES | MULLER CELLS | FUNCTIONAL HYPEREMIA | BRAIN | Electroretinography | Immunohistochemistry | Cats | Neuroglia - pathology | Male | Laser-Doppler Flowmetry | Hyperemia - pathology | Animals | Hyperemia - physiopathology | Retinal Vessels - physiopathology | Female | Photic Stimulation | Regional Blood Flow - physiology | Disease Models, Animal
Retinal blood flow | Flicker-induced hyperemia | Gliotoxic compound | Retinal glial cells | Neurovascular coupling | DIABETIC-RETINOPATHY | OPTIC-NERVE HEAD | NADPH DIAPHORASE | NITRIC-OXIDE SYNTHASE | neurovascular coupling | AMINOADIPIC ACID | gliotoxic compound | OPEN-ANGLE GLAUCOMA | retinal blood flow | OPHTHALMOLOGY | retinal glial cells | flicker-induced hyperemia | ARTERIOLES | MULLER CELLS | FUNCTIONAL HYPEREMIA | BRAIN | Electroretinography | Immunohistochemistry | Cats | Neuroglia - pathology | Male | Laser-Doppler Flowmetry | Hyperemia - pathology | Animals | Hyperemia - physiopathology | Retinal Vessels - physiopathology | Female | Photic Stimulation | Regional Blood Flow - physiology | Disease Models, Animal
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Loading RightsActa Physiologica, ISSN 1748-1708, 06/2014, Volume 211, Issue 2, pp. 371 - 384
AimTo investigate the effects of pre-diabetes on microvascular network function in contracting skeletal muscle. We hypothesized that pre-diabetes compromises...
exercise | skeletal muscle | blood flow | diabetes | microcirculation | functional vasodilation | Microcirculation | Exercise | Functional vasodilation | Diabetes | Skeletal muscle | Blood flow | PHYSIOLOGY | OBESE ZUCKER RATS | STIMULATION CHARACTERISTICS | BLOOD-FLOW | IMMEDIATE EXERCISE HYPEREMIA | DIABETES-MELLITUS | IMPAIRED FASTING GLUCOSE | VASCULAR REACTIVITY | RAPID ONSET VASODILATATION | CARDIOVASCULAR RISK-FACTORS | HAMSTER CREMASTER MUSCLE | Mice, Inbred C57BL | Male | Hemodynamics - physiology | Animals | Prediabetic State - physiopathology | Arterioles - physiopathology | Hyperemia - physiopathology | Muscle Contraction - physiology | Muscle, Skeletal - physiopathology | Mice | Vasodilation - physiology | Diabetes Mellitus, Experimental - physiopathology | Muscle, Skeletal - blood supply | Blood vessels | Muscles | Dilatation | Vasodilators | Arteries | Prediabetic state
exercise | skeletal muscle | blood flow | diabetes | microcirculation | functional vasodilation | Microcirculation | Exercise | Functional vasodilation | Diabetes | Skeletal muscle | Blood flow | PHYSIOLOGY | OBESE ZUCKER RATS | STIMULATION CHARACTERISTICS | BLOOD-FLOW | IMMEDIATE EXERCISE HYPEREMIA | DIABETES-MELLITUS | IMPAIRED FASTING GLUCOSE | VASCULAR REACTIVITY | RAPID ONSET VASODILATATION | CARDIOVASCULAR RISK-FACTORS | HAMSTER CREMASTER MUSCLE | Mice, Inbred C57BL | Male | Hemodynamics - physiology | Animals | Prediabetic State - physiopathology | Arterioles - physiopathology | Hyperemia - physiopathology | Muscle Contraction - physiology | Muscle, Skeletal - physiopathology | Mice | Vasodilation - physiology | Diabetes Mellitus, Experimental - physiopathology | Muscle, Skeletal - blood supply | Blood vessels | Muscles | Dilatation | Vasodilators | Arteries | Prediabetic state
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 8/2000, Volume 97, Issue 17, pp. 9735 - 9740
Peptides derived from proteolytic processing of the β -amyloid precursor protein (APP), including the amyloid-β peptide (Aβ ), play a critical role in the...
Somatosensory cortex | Hypercapnia | Biological Sciences | Transgenic animals | Blood vessels | Mice | Hyperemia | Amyloids | Neocortex | Blood | Blood flow | ALZHEIMERS-DISEASE | MULTIDISCIPLINARY SCIENCES | VASOACTIVITY | AMYLOID PRECURSOR PROTEIN | GLUCOSE-UTILIZATION | NEUROTOXICITY | functional activation | beta-amyloid | CEREBRAL BLOOD-FLOW | cerebral blood flow | BETA-PROTEIN | Alzheimer's disease | BRAIN | TRANSGENIC MICE | PRESENILIN-1
Somatosensory cortex | Hypercapnia | Biological Sciences | Transgenic animals | Blood vessels | Mice | Hyperemia | Amyloids | Neocortex | Blood | Blood flow | ALZHEIMERS-DISEASE | MULTIDISCIPLINARY SCIENCES | VASOACTIVITY | AMYLOID PRECURSOR PROTEIN | GLUCOSE-UTILIZATION | NEUROTOXICITY | functional activation | beta-amyloid | CEREBRAL BLOOD-FLOW | cerebral blood flow | BETA-PROTEIN | Alzheimer's disease | BRAIN | TRANSGENIC MICE | PRESENILIN-1
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 08/2000, Volume 97, Issue 17, pp. 9735 - 9740
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Loading RightsJournal of Neuroscience, ISSN 0270-6474, 01/2000, Volume 20, Issue 2, pp. 763 - 770
The prostanoid-synthesizing enzyme cyclooxygenase-2 (COX-2) is expressed in selected cerebral cortical neurons and is involved in synaptic signaling. We sought...
Glucose use | Cerebral blood flow | Somatosensory activation | COX-2 knock-out mice | 2- deoxyglucose | NS-398 | Prostanoids | INDUCIBLE CYCLOOXYGENASE | STIMULATION | RAT | 2-deoxyglucose | SYNAPTIC ACTIVITY | GLUCOSE-UTILIZATION | NEUROSCIENCES | somatosensory activation | prostanoids | CEREBRAL BLOOD-FLOW | VASOACTIVE INTESTINAL POLYPEPTIDE | NITRIC-OXIDE | NEURONS | cerebral blood flow | glucose use | BRAIN | Cerebrovascular Circulation - physiology | Cyclooxygenase 2 | Nitrobenzenes - pharmacology | Brain - physiology | Regional Blood Flow - drug effects | Isoenzymes - metabolism | Blood Pressure - drug effects | Vibrissae - innervation | Bradykinin - pharmacology | Physical Stimulation | Prostaglandin-Endoperoxide Synthases - genetics | Acetylcholine - pharmacology | Cerebrovascular Circulation - drug effects | Isoenzymes - genetics | Synapses - physiology | Mice, Inbred C57BL | Functional Laterality | Isoenzymes - deficiency | Prostaglandin-Endoperoxide Synthases - deficiency | Organ Specificity | Sulfonamides - pharmacology | Carbon Dioxide - blood | Oxygen - blood | Cyclooxygenase Inhibitors - pharmacology | Mice, Knockout | Brain - drug effects | Somatosensory Cortex - physiology | Animals | Cyclooxygenase 2 Inhibitors | Prostaglandin-Endoperoxide Synthases - metabolism | Glucose - metabolism | Somatosensory Cortex - blood supply | Hyperemia | Mice
Glucose use | Cerebral blood flow | Somatosensory activation | COX-2 knock-out mice | 2- deoxyglucose | NS-398 | Prostanoids | INDUCIBLE CYCLOOXYGENASE | STIMULATION | RAT | 2-deoxyglucose | SYNAPTIC ACTIVITY | GLUCOSE-UTILIZATION | NEUROSCIENCES | somatosensory activation | prostanoids | CEREBRAL BLOOD-FLOW | VASOACTIVE INTESTINAL POLYPEPTIDE | NITRIC-OXIDE | NEURONS | cerebral blood flow | glucose use | BRAIN | Cerebrovascular Circulation - physiology | Cyclooxygenase 2 | Nitrobenzenes - pharmacology | Brain - physiology | Regional Blood Flow - drug effects | Isoenzymes - metabolism | Blood Pressure - drug effects | Vibrissae - innervation | Bradykinin - pharmacology | Physical Stimulation | Prostaglandin-Endoperoxide Synthases - genetics | Acetylcholine - pharmacology | Cerebrovascular Circulation - drug effects | Isoenzymes - genetics | Synapses - physiology | Mice, Inbred C57BL | Functional Laterality | Isoenzymes - deficiency | Prostaglandin-Endoperoxide Synthases - deficiency | Organ Specificity | Sulfonamides - pharmacology | Carbon Dioxide - blood | Oxygen - blood | Cyclooxygenase Inhibitors - pharmacology | Mice, Knockout | Brain - drug effects | Somatosensory Cortex - physiology | Animals | Cyclooxygenase 2 Inhibitors | Prostaglandin-Endoperoxide Synthases - metabolism | Glucose - metabolism | Somatosensory Cortex - blood supply | Hyperemia | Mice
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 1/2008, Volume 105, Issue 4, pp. 1347 - 1352
Alterations in cerebrovascular regulation related to vascular oxidative stress have been implicated in the mechanisms of Alzheimer's disease (AD), but their...
Oxidases | Oxidative stress | Reactive oxygen species | Transcriptional regulatory elements | Transgenic animals | Protein precursors | Mice | Hyperemia | Amyloids | Alzheimers disease | tg2576 | Cerebral blood flow | Alzheimer's disease | MOUSE-BRAIN | ABNORMALITIES | REDUCES OXIDATIVE DAMAGE | ALZHEIMERS-DISEASE | MULTIDISCIPLINARY SCIENCES | BETA-PEPTIDE | MODEL | OXYGEN SPECIES MEDIATE | cerebral blood flow | CEREBRAL-BLOOD-FLOW | FUNCTIONAL HYPEREMIA | TRANSGENIC MICE | Hyperemia - metabolism | Membrane Glycoproteins - metabolism | Humans | Membrane Glycoproteins - biosynthesis | NADPH Oxidases - metabolism | Molecular Sequence Data | Male | Free Radicals - adverse effects | Cerebrovascular Circulation - genetics | Behavioral Symptoms - metabolism | Brain - metabolism | Brain - blood supply | Membrane Glycoproteins - antagonists & inhibitors | Free Radicals - metabolism | NADPH Oxidases - genetics | Female | NADPH Oxidases - biosynthesis | Behavioral Symptoms - physiopathology | Disease Models, Animal | Amino Acid Sequence | Maze Learning - physiology | Brain - physiopathology | Mice, Inbred C57BL | NADPH Oxidases - antagonists & inhibitors | Mice, Transgenic | NADPH Oxidase 2 | Membrane Glycoproteins - genetics | Mice, Knockout | Behavioral Symptoms - genetics | Amyloid beta-Protein Precursor - genetics | Animals | Hyperemia - physiopathology | Hyperemia - genetics | Amyloid beta-Protein Precursor - biosynthesis | Control | Radicals (Chemistry) | Cerebral circulation | Influence | Glycoproteins | Research | Neurovascular diseases | Properties | Index Medicus | Biological Sciences
Oxidases | Oxidative stress | Reactive oxygen species | Transcriptional regulatory elements | Transgenic animals | Protein precursors | Mice | Hyperemia | Amyloids | Alzheimers disease | tg2576 | Cerebral blood flow | Alzheimer's disease | MOUSE-BRAIN | ABNORMALITIES | REDUCES OXIDATIVE DAMAGE | ALZHEIMERS-DISEASE | MULTIDISCIPLINARY SCIENCES | BETA-PEPTIDE | MODEL | OXYGEN SPECIES MEDIATE | cerebral blood flow | CEREBRAL-BLOOD-FLOW | FUNCTIONAL HYPEREMIA | TRANSGENIC MICE | Hyperemia - metabolism | Membrane Glycoproteins - metabolism | Humans | Membrane Glycoproteins - biosynthesis | NADPH Oxidases - metabolism | Molecular Sequence Data | Male | Free Radicals - adverse effects | Cerebrovascular Circulation - genetics | Behavioral Symptoms - metabolism | Brain - metabolism | Brain - blood supply | Membrane Glycoproteins - antagonists & inhibitors | Free Radicals - metabolism | NADPH Oxidases - genetics | Female | NADPH Oxidases - biosynthesis | Behavioral Symptoms - physiopathology | Disease Models, Animal | Amino Acid Sequence | Maze Learning - physiology | Brain - physiopathology | Mice, Inbred C57BL | NADPH Oxidases - antagonists & inhibitors | Mice, Transgenic | NADPH Oxidase 2 | Membrane Glycoproteins - genetics | Mice, Knockout | Behavioral Symptoms - genetics | Amyloid beta-Protein Precursor - genetics | Animals | Hyperemia - physiopathology | Hyperemia - genetics | Amyloid beta-Protein Precursor - biosynthesis | Control | Radicals (Chemistry) | Cerebral circulation | Influence | Glycoproteins | Research | Neurovascular diseases | Properties | Index Medicus | Biological Sciences
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Loading RightsThe Journal of Physiology, ISSN 0022-3751, 10/2012, Volume 590, Issue 20, pp. 5015 - 5023
Abstract The regulation of blood flow to skeletal muscle involves a complex interaction between several locally formed vasodilators that are produced both in...
MUSCLE BLOOD-FLOW | PHYSIOLOGY | HUMAN LEG | OXYGEN DELIVERY | ENDOTHELIAL-CELLS | IN-VIVO | ADENOSINE | ERYTHROCYTE | INDUCED ATP RELEASE | NEUROSCIENCES | FUNCTIONAL SYMPATHOLYSIS | INDUCED VASODILATATION | Adenosine - physiology | Humans | Hyperemia - physiopathology | Nitric Oxide - physiology | Exercise - physiology | Muscle, Skeletal - physiology | Adenosine Triphosphate - physiology | Hypertension - physiopathology | Muscle, Skeletal - blood supply | Purines | Adenosine | Sports sciences | Exercise | Metabolites | Laws, regulations and rules | Nitric oxide | Physiological aspects | Muscles | Endothelium | Plasma | Musculoskeletal system | Rodents | Symposium Section Reviews | Red Blood Cell Mechanisms of Tissue Blood Flow Control
MUSCLE BLOOD-FLOW | PHYSIOLOGY | HUMAN LEG | OXYGEN DELIVERY | ENDOTHELIAL-CELLS | IN-VIVO | ADENOSINE | ERYTHROCYTE | INDUCED ATP RELEASE | NEUROSCIENCES | FUNCTIONAL SYMPATHOLYSIS | INDUCED VASODILATATION | Adenosine - physiology | Humans | Hyperemia - physiopathology | Nitric Oxide - physiology | Exercise - physiology | Muscle, Skeletal - physiology | Adenosine Triphosphate - physiology | Hypertension - physiopathology | Muscle, Skeletal - blood supply | Purines | Adenosine | Sports sciences | Exercise | Metabolites | Laws, regulations and rules | Nitric oxide | Physiological aspects | Muscles | Endothelium | Plasma | Musculoskeletal system | Rodents | Symposium Section Reviews | Red Blood Cell Mechanisms of Tissue Blood Flow Control
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