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1. Full Text Mechanisms Mediating Functional Hyperemia in the Brain
by Nippert, Amy R and Biesecker, Kyle R and Newman, Eric A
2/2018, Volume 24, Issue 1, 11
arachidonic acid | PGE2 | neurovascular coupling | cerebral blood flow | functional hyperemia | astrocyte | EETs | Neurosciences | Clinical Neurology | Neurosciences & Neurology | Life Sciences & Biomedicine | Science & Technology | Cerebrovascular Disorders - physiopathology | Animals | Brain - physiopathology | Humans | Hyperemia - physiopathology | Brain | Research | Astrocytes | Cerebral circulation | Index Medicus
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2. Full Text Vascular Compartmentalization of Functional Hyperemia from the Synapse to the Pia
by Rungta, Ravi L and Chaigneau, Emmanuelle and Osmanski, Bruno-Felix and Charpak, Serge
Neuron (Cambridge, Mass.), ISSN 0896-6273, 07/2018, Volume 99, Issue 2, pp. 362 - 375.e4
Neurosciences | Neurosciences & Neurology | Life Sciences & Biomedicine | Science & Technology | Synapses - physiology | Mice, Inbred C57BL | Mice, Transgenic | Pia Mater - blood supply | Hyperemia - diagnosis | Pericytes - physiology | Pia Mater - physiology | Brain - physiology | Microscopy, Confocal - methods | Brain Chemistry - physiology | Pericytes - chemistry | Pia Mater - chemistry | Brain - blood supply | Animals | Hyperemia - physiopathology | Muscle, Smooth, Vascular - chemistry | Mice | Muscle, Smooth, Vascular - physiology | Synapses - chemistry | 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
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3. Full Text Positional differences in reactive hyperemia provide insight into initial phase of exercise hyperemia
by Jasperse, Jeffrey L and Shoemaker, J. Kevin and Gray, Eric J and Clifford, Philip S
Journal of applied physiology (1985), ISSN 8750-7587, 09/2015, Volume 119, Issue 5, pp. 569 - 575
Skeletal muscle pump | Functional hyperemia | Muscle contraction | Muscle blood flow | Physiology | Sport Sciences | Life Sciences & Biomedicine | Science & Technology | 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 | Heart | Musculoskeletal system | Blood pressure | Rodents | Veins & arteries | Index Medicus | muscle contraction | functional hyperemia | muscle blood flow | skeletal muscle pump
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4. Full Text Vascular Compartmentalization of Functional Hyperemia from the Synapse to the Pia
by Rungta, Ravi L and Chaigneau, Emmanuelle and Osmanski, Bruno-Félix and Charpak, Serge
Neuron (Cambridge, Mass.), ISSN 0896-6273, 07/2018, Volume 99, Issue 2, pp. 362 - 375.e4
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 | 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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5. Full Text Heterogeneity of Sensory-Induced Astrocytic Ca2+ Dynamics During Functional Hyperemia
by Sharma, Kushal and Gordon, Grant R.J and Tran, Cam Ha T
Frontiers in physiology, ISSN 1664-042X, 12/2020, Volume 11, pp. 611884 - 611884
cerebral blood flow | functional hyperemia | two-photon imaging | awake in vivo | calcium | astrocyte
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6. Full Text Nitrate as a source of nitrite and nitric oxide during exercise hyperemia in rat skeletal muscle
by Piknova, Barbora and Park, Ji Won and Kwan (Jeff) Lam, Kai and Schechter, Alan N
Nitric oxide, ISSN 1089-8603, 05/2016, Volume 55-56, pp. 54 - 61
Nitrate | Exercise | Nitrite | Functional hyperemia | Nitric oxide | Skeletal muscle | Biochemistry & Molecular Biology | Life Sciences & Biomedicine | Science & Technology | Cell Biology | 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 | Index Medicus | functional hyperemia | exercise | nitric oxide | nitrite | nitrate | skeletal muscle
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7. Full Text Oscillatory lower body negative pressure impairs task related functional hyperemia in healthy volunteers
by Stewart, Julian M and Balakrishnan, Keshawadhana and Visintainer, Paul and Del Pozzi, Andrew T and Messer, Zachary R and Terilli, Courtney and Medow, Marvin S
American journal of physiology. Heart and circulatory physiology, ISSN 0363-6135, 03/2016, Volume 310, Issue 6, pp. H775 - H784
Functional hyperemia | Lower body negative pressure | Neurovascular coupling | Cardiac & Cardiovascular Systems | Physiology | Peripheral Vascular Disease | Life Sciences & Biomedicine | Cardiovascular System & Cardiology | Science & Technology | 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 | Flow velocity | Ultrasonic imaging | Comparative analysis | Index Medicus | neurovascular coupling | functional hyperemia | lower body negative pressure | Integrative Cardiovascular Physiology and Pathophysiology
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8. Full Text Oscillatory lower body negative pressure impairs working memory task-related functional hyperemia in healthy volunteers
by Merchant, Sana and Medow, Marvin S and Visintainer, Paul and Terilli, Courtney and Stewart, Julian M
American journal of physiology. Heart and circulatory physiology, ISSN 0363-6135, 2017, Volume 312, Issue 4, pp. H672 - H680
Functional hyperemia | Lower body negative pressure | Neurovascular coupling | Cardiac & Cardiovascular Systems | Physiology | Peripheral Vascular Disease | Life Sciences & Biomedicine | Cardiovascular System & Cardiology | Science & Technology | 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 | Cardiovascular system | Memory | Blood pressure | Index Medicus | lower body negative pressure | neurovascular coupling | functional hyperemia
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9. Full Text Cyclooxygenase-2 Contributes to Functional Hyperemia in Whisker-Barrel Cortex
by Niwa, Kiyoshi and Araki, Eiichi and Morham, Scott G and Ross, M. Elizabeth and Iadecola, Costantino
The Journal of neuroscience, ISSN 0270-6474, 01/2000, Volume 20, Issue 2, pp. 763 - 770
Glucose use | Cerebral blood flow | Somatosensory activation | COX-2 knock-out mice | 2- deoxyglucose | NS-398 | Prostanoids | Neurosciences | Neurosciences & Neurology | Life Sciences & Biomedicine | Science & Technology | 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 | vibrissa | hyperemia | cyclooxygenase 2 | Index Medicus
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10. Full Text Attenuation of functional hyperemia to visual stimulation in mild Alzheimer's disease and its sensitivity to cholinesterase inhibition
by Janik, Rafal and Thomason, Lynsie A.M and Chaudhary, Simone and Dorr, Adrienne and Scouten, Amy and Schwindt, Graeme and Masellis, Mario and Stanisz, Greg J and Black, Sandra E and Stefanovic, Bojana
Biochimica et biophysica acta. Molecular basis of disease, ISSN 0925-4439, 05/2016, Volume 1862, Issue 5, pp. 957 - 965
Early stage Alzheimer's disease | Functional hyperemia | Arterial spin labeling MRI | Vascular impairment | Cholinesterase inhibitors | Early stage alzheimer's disease | Biochemistry & Molecular Biology | Biophysics | Life Sciences & Biomedicine | Science & Technology | Cell Biology | Brain - diagnostic imaging | Humans | Alzheimer Disease - therapy | Hyperemia - therapy | Male | Cerebrovascular Circulation | Alzheimer Disease - pathology | Brain - blood supply | Hyperemia - pathology | Magnetic Resonance Imaging | Hyperemia - diagnostic imaging | Hyperemia - blood | Aged, 80 and over | Brain - pathology | Female | Aged | Alzheimer Disease - diagnostic imaging | Cholinesterase Inhibitors - therapeutic use | Photic Stimulation | Alzheimer Disease - blood | Cohort Studies | Development and progression | Alzheimer's disease | Diagnostic imaging
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11. Full Text Interaction of nitric oxide, 20-HETE, and EETs during functional hyperemia in whisker barrel cortex
by Xiaoguang Liu and Chunyuan Li and John R. Falck and Richard J. Roman and David R. Harder and Raymond C. Koehler
American Journal of Physiology - Heart and Circulatory Physiology, ISSN 0363-6135, 08/2008, Volume 295, Issue 2, pp. 619 - 631
Mouse | Rat | 20-hydroxyeicosatetraenoic acid | Eicosanoids | Epoxyeicosatrienoic acid | Vibrissae | Functional activation | Cardiac & Cardiovascular Systems | Physiology | Peripheral Vascular Disease | Life Sciences & Biomedicine | Cardiovascular System & Cardiology | Science & Technology | Hyperemia - metabolism | Cerebral Cortex - blood supply | Rats, Wistar | Nitric Oxide Synthase - antagonists & inhibitors | Male | 8,11,14-Eicosatrienoic Acid - metabolism | Cerebral Cortex - metabolism | 8,11,14-Eicosatrienoic Acid - analogs & derivatives | Time Factors | Cerebral Cortex - drug effects | 8,11,14-Eicosatrienoic Acid - pharmacology | Vibrissae - innervation | Physical Stimulation | Cerebral Cortex - enzymology | Cerebrovascular Circulation - drug effects | Mice, Inbred C57BL | Enzyme Inhibitors - pharmacology | Rats | Mice, Knockout | Indazoles - pharmacology | Mechanotransduction, Cellular | Hydroxyeicosatetraenoic Acids - metabolism | Animals | Hyperemia - physiopathology | Nitric Oxide Synthase Type I - metabolism | Amidines - pharmacology | Mice | Nitric Oxide Synthase - metabolism | Nitric Oxide Synthase Type I - genetics | Neurons, Afferent - metabolism | Vasodilation - drug effects | Nitric Oxide - metabolism | Brain | Inhibitor drugs | Effects | Neurons | Nitric oxide | Rodents | Index Medicus | eicosanoids | mouse | rat | epoxyeicosatrienoic acid | vibrissae | functional activation
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