Cerebral Blood Flow

Decomposing EEG data into space–time–frequency components using Parallel Factor Analysis

Mathematics / Principal Component Analysis / Independent Component Analysis / Electroencephalography / Neuroimmunology / Visual Cortex / Brain / Humans / Neuroimage / Magnetic Resonance / Statistical Significance / Frontal Cortex / Mental processes / Eye Movements / Space Time / Artifacts / New record / Spectrum / Time Factors / Nonlinear Time Series Analysis / Indexation / Resting State / Cerebral Blood Flow / Time Domain / Neural Information Processing / Alpha Rhythm / Theta Rhythm / Time varying / Autoregressive model / Visual Cortex / Brain / Humans / Neuroimage / Magnetic Resonance / Statistical Significance / Frontal Cortex / Mental processes / Eye Movements / Space Time / Artifacts / New record / Spectrum / Time Factors / Nonlinear Time Series Analysis / Indexation / Resting State / Cerebral Blood Flow / Time Domain / Neural Information Processing / Alpha Rhythm / Theta Rhythm / Time varying / Autoregressive model

Decomposing EEG data into space–time–frequency components using Parallel Factor Analysis

Mathematics / Principal Component Analysis / Independent Component Analysis / Electroencephalography / Neuroimmunology / Visual Cortex / Brain / Humans / Neuroimage / Magnetic Resonance / Statistical Significance / Frontal Cortex / Mental processes / Eye Movements / Space Time / Artifacts / New record / Spectrum / Time Factors / Nonlinear Time Series Analysis / Indexation / Resting State / Cerebral Blood Flow / Time Domain / Neural Information Processing / Alpha Rhythm / Theta Rhythm / Time varying / Autoregressive model / Visual Cortex / Brain / Humans / Neuroimage / Magnetic Resonance / Statistical Significance / Frontal Cortex / Mental processes / Eye Movements / Space Time / Artifacts / New record / Spectrum / Time Factors / Nonlinear Time Series Analysis / Indexation / Resting State / Cerebral Blood Flow / Time Domain / Neural Information Processing / Alpha Rhythm / Theta Rhythm / Time varying / Autoregressive model

Cerebral perfusion response to hyperoxia

Algorithms / Carbon Dioxide / Kinetics / Magnetic Resonance Imaging / Humans / Female / Male / Clinical Sciences / Oxygen / Adult / Blood Flow / Cerebral Blood Flow / Hyperoxia / Neurosciences / Female / Male / Clinical Sciences / Oxygen / Adult / Blood Flow / Cerebral Blood Flow / Hyperoxia / Neurosciences

La eritropoyetina humana recombinante como terapia para la neuroprotección en la isquemia cerebral

Engineering / Technology / Biological Sciences / Erythropoietin / Brain Ischemia / Peripheral Vascular Disease / Biotecnología Aplicada / Controlled Clinical Trial / Boolean Satisfiability / Mechanism of action / Sialic Acid / Cerebral Blood Flow / SECONDARY PREVENTION / Peripheral Vascular Disease / Biotecnología Aplicada / Controlled Clinical Trial / Boolean Satisfiability / Mechanism of action / Sialic Acid / Cerebral Blood Flow / SECONDARY PREVENTION

Superoxide dismutase 1 overexpression reduces MCP-1 and MIP-1α expression after transient focal cerebral ischemia

Kinetics / Cytokines / Mice / Animals / Superoxide Dismutase / Clinical Sciences / Reperfusion injury / Chemokines / Cerebral Blood Flow / Neurosciences / Gene Expression Regulation / Clinical Sciences / Reperfusion injury / Chemokines / Cerebral Blood Flow / Neurosciences / Gene Expression Regulation

Evaluation of extracranial blood flow in Parkinson disease

Neuroscience / Psychology / Cognitive Science / Aging / Brain / Humans / Female / Male / Aged / Middle Aged / Blood Flow / Age Factors / Flow Velocity / Cerebral Blood Flow / Blood Flow Velocity / Neurosciences / Internal Carotid Artery / Parkinson Disease / Vertebral artery / Humans / Female / Male / Aged / Middle Aged / Blood Flow / Age Factors / Flow Velocity / Cerebral Blood Flow / Blood Flow Velocity / Neurosciences / Internal Carotid Artery / Parkinson Disease / Vertebral artery

Evaluation of extracranial blood flow in Parkinson disease

Neuroscience / Psychology / Cognitive Science / Aging / Brain / Humans / Female / Male / Aged / Middle Aged / Blood Flow / Age Factors / Flow Velocity / Cerebral Blood Flow / Blood Flow Velocity / Neurosciences / Internal Carotid Artery / Parkinson Disease / Vertebral artery / Humans / Female / Male / Aged / Middle Aged / Blood Flow / Age Factors / Flow Velocity / Cerebral Blood Flow / Blood Flow Velocity / Neurosciences / Internal Carotid Artery / Parkinson Disease / Vertebral artery

Increased left posterior parietal–temporal cortex activation after d-fenfluramine in women with panic disorder

Cognitive Science / Psychiatry / Adolescent / Positron Emission Tomography / Serotonin / Temporal Lobe / Humans / Hemodynamics / Female / Panic Disorder / Parietal Cortex / Temporal Cortex / Clinical Sciences / Single Photon Emission Computed Tomography / Adult / Parietal Lobe / Regional Cerebral Blood Flow / Anxiety Disorder / Cerebral Blood Flow / Healthy Subjects / Neurosciences / Right Handed / Fenfluramine / Serotonin Uptake Inhibitors / Case Control Studies / Temporal Lobe / Humans / Hemodynamics / Female / Panic Disorder / Parietal Cortex / Temporal Cortex / Clinical Sciences / Single Photon Emission Computed Tomography / Adult / Parietal Lobe / Regional Cerebral Blood Flow / Anxiety Disorder / Cerebral Blood Flow / Healthy Subjects / Neurosciences / Right Handed / Fenfluramine / Serotonin Uptake Inhibitors / Case Control Studies

A computer model of intracranial dynamics

Physiology / Computational Modeling / Carbon Dioxide / Computer Model / Temperature / Arterial Blood Pressure / Real Time / Metabolic rate / Haemodynamics / Blood Flow / Cerebral Blood Flow / Intracranial Pressure / Arterial Blood Pressure / Real Time / Metabolic rate / Haemodynamics / Blood Flow / Cerebral Blood Flow / Intracranial Pressure

A whole-body mathematical model for intracranial pressure dynamics

Mathematical Biology / Biological Sciences / Cerebrospinal Fluid / Cardiac arrest / Brain / Humans / Computer Simulation / Mathematical Sciences / Blood Pressure / Choroid Plexus / Mathematical / Posture / Mathematical Model / Cardiac Output Monitoring / Hemostasis / Sympathetic Nervous System / Cerebral Blood Flow / Lower Extremity / Hemorrhagic Shock / Whole Body / Extracellular Space / Hydrostatic Pressure / Intracranial Pressure / Pulsatile Flow / Humans / Computer Simulation / Mathematical Sciences / Blood Pressure / Choroid Plexus / Mathematical / Posture / Mathematical Model / Cardiac Output Monitoring / Hemostasis / Sympathetic Nervous System / Cerebral Blood Flow / Lower Extremity / Hemorrhagic Shock / Whole Body / Extracellular Space / Hydrostatic Pressure / Intracranial Pressure / Pulsatile Flow

Cyclosporin A Enhances Survival, Ameliorates Brain Damage, and Prevents Secondary Mitochondrial Dysfunction after a 30-Minute Period of Transient Cerebral Ischemia

Pathology / Psychology / Treatment / Mitochondria / Blood brain barrier / Animals / Male / Cyclosporine / Clinical Sciences / Mitochondrial dysfunction / Rats / Time Factors / Blood Flow / Cerebral Ischemia / Wistar Rats / Experimental Neurology / Mitochondrial Permeability Transition Pore / Cerebral Blood Flow / Survival Time / Oxygen Consumption / Neurosciences / Brain Damage / Neuroprotective Agents / Respiratory Rate / Animals / Male / Cyclosporine / Clinical Sciences / Mitochondrial dysfunction / Rats / Time Factors / Blood Flow / Cerebral Ischemia / Wistar Rats / Experimental Neurology / Mitochondrial Permeability Transition Pore / Cerebral Blood Flow / Survival Time / Oxygen Consumption / Neurosciences / Brain Damage / Neuroprotective Agents / Respiratory Rate

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