| scholarly article | Q13442814 |
| P2093 | author name string | Agnès Aubert | |
| Robert Costalat | |||
| P2860 | cites work | Lactate rise detected by 1H NMR in human visual cortex during physiologic stimulation | Q24564399 |
| Neurophysiological investigation of the basis of the fMRI signal | Q27860853 | ||
| Food for thought: challenging the dogmas | Q28182087 | ||
| Glutamate uptake into astrocytes stimulates aerobic glycolysis: a mechanism coupling neuronal activity to glucose utilization | Q29620724 | ||
| Non-invasive methods for studying brain energy metabolism: what they show and what it means | Q30620733 | ||
| GABA uptake into astrocytes is not associated with significant metabolic cost: Implications for brain imaging of inhibitory transmission | Q33973012 | ||
| Dynamic uncoupling and recoupling of perfusion and oxidative metabolism during focal brain activation in man. | Q34378252 | ||
| Dynamics of blood flow and oxygenation changes during brain activation: The balloon model | Q34471310 | ||
| Oxidative and nonoxidative metabolism of excited neurons and astrocytes | Q34504180 | ||
| Dichloroacetate effects on glucose and lactate oxidation by neurons and astroglia in vitro and on glucose utilization by brain in vivo | Q34961411 | ||
| Issues concerning the construction of a metabolic model for neuronal activation | Q35054005 | ||
| Neighborly interactions of metabolically-activated astrocytes in vivo | Q35125583 | ||
| Regulation and Modulation of pH in the Brain | Q35541864 | ||
| Energy Substrates for Neurons during Neural Activity: A Critical Review of the Astrocyte-Neuron Lactate Shuttle Hypothesis | Q35576702 | ||
| Determinants of brain activation-induced cortical NAD/NADH responses in vivo | Q36598838 | ||
| Transport of glucose from blood to brain | Q39794567 | ||
| Regulatory characteristics of lactate dehydrogenases | Q39897342 | ||
| Metabolic responses of the awake cerebral cortex to anoxia hypoxia spreading depression and epileptiform activity | Q39951365 | ||
| Model of blood-brain transfer of oxygen explains nonlinear flow-metabolism coupling during stimulation of visual cortex | Q40768794 | ||
| Kinetics of blood-brain barrier transport of pyruvate, lactate and glucose in suckling, weanling and adult rats | Q41743130 | ||
| Stimulated release of lactate in freely moving rats is dependent on the uptake of glutamate | Q42437700 | ||
| Effects of membrane depolarization on nicotinamide nucleotide fluorescence in brain slices | Q42437782 | ||
| Glycolysis in Neurons, Not Astrocytes, Delays Oxidative Metabolism of Human Visual Cortex during Sustained Checkerboard Stimulation in vivo | Q43820411 | ||
| Modelling of the coupling between brain electrical activity and metabolism | Q43862177 | ||
| Effect of photic stimulation on human visual cortex lactate and phosphates using 1H and 31P magnetic resonance spectroscopy | Q43917305 | ||
| A model of the coupling between brain electrical activity, metabolism, and hemodynamics: application to the interpretation of functional neuroimaging | Q44203479 | ||
| Uptake of locally applied deoxyglucose, glucose and lactate by axons and Schwann cells of rat vagus nerve | Q44278241 | ||
| NAD(P)H Fluorescence Imaging of Postsynaptic Neuronal Activation in Murine Hippocampal Slices | Q44418975 | ||
| Lactate is a preferential oxidative energy substrate over glucose for neurons in culture | Q44644241 | ||
| Neural activity triggers neuronal oxidative metabolism followed by astrocytic glycolysis. | Q44962228 | ||
| Discrepancies between BOLD and flow dynamics in primary and supplementary motor areas: application of the balloon model to the interpretation of BOLD transients | Q46816930 | ||
| Relation between cerebral blood flow and metabolism explained by a model of oxygen exchange | Q47880808 | ||
| Physiological stimulation increases nonoxidative glucose metabolism in the brain of the freely moving rat. | Q48312362 | ||
| A Temporary Local Energy Pool Coupled to Neuronal Activity: Fluctuations of Extracellular Lactate Levels in Rat Brain Monitored with Rapid‐Response Enzyme‐Based Sensor | Q48610328 | ||
| NMDA induces a biphasic change in intracellular pH in rat hippocampal slices | Q48682166 | ||
| The mechanisms controlling physiologically stimulated changes in rat brain glucose and lactate: a microdialysis study | Q48902600 | ||
| Intracellular redox changes in functioning cerebral cortex. I. Metabolic effects of epileptiform activity | Q51122433 | ||
| Lactate released by Müller glial cells is metabolized by photoreceptors from mammalian retina | Q71924039 | ||
| Simultaneous monitoring of dynamic changes in cerebral blood flow and oxygenation during sustained activation of the human visual cortex | Q73152467 | ||
| Redox transitions of cytochromes and pyridine nucleotides upon stimulation of an isolated rat ganglion | Q77923469 | ||
| P433 | issue | 11 | |
| P921 | main subject | mathematical model | Q486902 |
| astrocyte | Q502961 | ||
| P304 | page(s) | 1476-1490 | |
| P577 | publication date | 2005-11-01 | |
| P1433 | published in | Journal of Cerebral Blood Flow & Metabolism | Q14663525 |
| P1476 | title | Interaction between astrocytes and neurons studied using a mathematical model of compartmentalized energy metabolism | |
| P478 | volume | 25 |
| Q35916027 | A New Computational Model for Neuro-Glio-Vascular Coupling: Astrocyte Activation Can Explain Cerebral Blood Flow Nonlinear Response to Interictal Events |
| Q57492107 | A Process for Digitizing and Simulating Biologically Realistic Oligocellular Networks Demonstrated for the Neuro-Glio-Vascular Ensemble |
| Q39674469 | A Theoretical Study on the Role of Astrocytic Activity in Neuronal Hyperexcitability by a Novel Neuron-Glia Mass Model |
| Q35676853 | A coherent neurobiological framework for functional neuroimaging provided by a model integrating compartmentalized energy metabolism |
| Q37630535 | Activated astrocytes: a therapeutic target in Alzheimer's disease? |
| Q34656867 | Activity-dependent regulation of energy metabolism by astrocytes: an update |
| Q51639388 | An energy systems approach to Parkinson's disease |
| Q46035676 | An integrative dynamic model of brain energy metabolism using in vivo neurochemical measurements. |
| Q24541513 | Antidepressant effects of exercise: evidence for an adult-neurogenesis hypothesis? |
| Q31034673 | Astrocyte-neuron lactate shuttle may boost more ATP supply to the neuron under hypoxic conditions--in silico study supported by in vitro expression data |
| Q37826756 | Astrocytes and energy metabolism |
| Q30479376 | Astrocytes are poised for lactate trafficking and release from activated brain and for supply of glucose to neurons |
| Q37190449 | Astrocytes as the glucose shunt for glutamatergic neurons at high activity: an in silico study |
| Q33940897 | Bayesian comparison of neurovascular coupling models using EEG-fMRI. |
| Q34160702 | Brain lactate kinetics: Modeling evidence for neuronal lactate uptake upon activation |
| Q21129070 | Build-ups in the supply chain of the brain: on the neuroenergetic cause of obesity and type 2 diabetes mellitus |
| Q30476702 | Changes in glucose uptake rather than lactate shuttle take center stage in subserving neuroenergetics: evidence from mathematical modeling. |
| Q47711481 | Combination Therapy for Multi-Target Manipulation of Secondary Brain Injury Mechanisms |
| Q36894705 | Compartmentalization of brain energy metabolism between glia and neurons: insights from mathematical modeling |
| Q26859964 | Computational approaches for understanding energy metabolism |
| Q34141535 | Computational modelling of the piglet brain to simulate near-infrared spectroscopy and magnetic resonance spectroscopy data collected during oxygen deprivation. |
| Q92043375 | Computational singular perturbation analysis of brain lactate metabolism |
| Q35013625 | Energy metabolism and glutamate-glutamine cycle in the brain: a stoichiometric modeling perspective |
| Q31048542 | Energy metabolism in astrocytes: high rate of oxidative metabolism and spatiotemporal dependence on glycolysis/glycogenolysis |
| Q34482022 | Fuelling cerebral activity in exercising man. |
| Q41185691 | Glycogenolysis in Astrocytes Supports Blood-Borne Glucose Channeling Not Glycogen-Derived Lactate Shuttling to Neurons: Evidence from Mathematical Modeling |
| Q33857251 | Interpretation of NMR Spectroscopy Human Brain Data with a Multi-Compartment Computational Model of Cerebral Metabolism |
| Q94417353 | Ischemic preconditioning treatment of astrocytes transfers ischemic tolerance to neurons |
| Q37620008 | Lactate Shuttles in Neuroenergetics-Homeostasis, Allostasis and Beyond. |
| Q48619880 | Mathematical Modeling of Metabolism and Hemodynamics |
| Q38921582 | Mathematical analysis of the influence of brain metabolism on the BOLD signal in Alzheimer's disease |
| Q33801848 | Mathematical modeling of energy metabolism and hemodynamics of WHO grade II gliomas using in vivo MR data |
| Q24655314 | Metabolic and hemodynamic events after changes in neuronal activity: current hypotheses, theoretical predictions and in vivo NMR experimental findings |
| Q45271808 | Modeling the contribution of neuron-astrocyte cross talk to slow blood oxygenation level-dependent signal oscillations. |
| Q35568085 | Multi-timescale modeling of activity-dependent metabolic coupling in the neuron-glia-vasculature ensemble |
| Q34219179 | Ménage à Trois: The Role of Neurotransmitters in the Energy Metabolism of Astrocytes, Glutamatergic, and GABAergic Neurons |
| Q48202149 | On a Minimal Model for Hemodynamics and Metabolism of Lactate: Application to Low Grade Glioma and Therapeutic Strategies |
| Q48359063 | On the integration of physiological mechanisms in the nervous tissue using the MTIP: synaptic plasticity depending on neurons-astrocytes-capillaries interactions |
| Q42075828 | Physiology-based kinetic modeling of neuronal energy metabolism unravels the molecular basis of NAD(P)H fluorescence transients |
| Q33852904 | Response to 'comment on recent modeling studies of astrocyte-neuron metabolic interactions': much ado about nothing. |
| Q24671074 | Supply and demand in cerebral energy metabolism: the role of nutrient transporters |
| Q34573179 | Sustained neuronal activation raises oxidative metabolism to a new steady-state level: evidence from 1H NMR spectroscopy in the human visual cortex |
| Q38773606 | The Impact of Mathematical Modeling in Understanding the Mechanisms Underlying Neurodegeneration: Evolving Dimensions and Future Directions. |
| Q42950999 | The Possible Role of CO(2) in Producing A Post-Stimulus CBF and BOLD Undershoot |
| Q33743313 | The control systems structures of energy metabolism |
| Q24648293 | The in vivo neuron-to-astrocyte lactate shuttle in human brain: evidence from modeling of measured lactate levels during visual stimulation |
| Q38045780 | The metabolism of neurons and astrocytes through mathematical models. |
| Q48768537 | Uncertainty quantification in flux balance analysis of spatially lumped and distributed models of neuron-astrocyte metabolism. |
| Q26866532 | Unraveling the complex metabolic nature of astrocytes |
| Q31044917 | fMRI models of dendritic and astrocytic networks |
Search more.