Interictal cerebral glucose metabolism in partial epilepsy and its relation to EEG changes. - Wikidata - wikimedia - TriplyDB

Interictal cerebral glucose metabolism in partial epilepsy and its relation to EEG changes.

Interictal cerebral glucose metabolism in partial epilepsy and its relation to EEG changes.

http://www.wikidata.org/entity/Q48868464

about

Dysfunction of GABAA receptor glycolysis-dependent modulation in human partial epilepsy Cortical glucose metabolism positively correlates with gamma-oscillations in nonlesional focal epilepsy.Interictal spikes increase cerebral glucose metabolism and blood flow: a PET study.Substrates of localization-related epilepsies: biologic implications of localizing findings in humans.1H and 31P spectroscopy and bioenergetics in the lateralization of seizures in temporal lobe epilepsy.Interictal regional cerebral blood flow during non specific activation test in partial epilepsy Correlations between cerebral blood flow variations and clinical parameters in temporal lobe epilepsy: an interictal study.Regional cerebral blood flow of patients with focal epilepsy studied using xenon enhanced CT brain scanning Positron emission tomography and the central nervous system Depression in secondary epilepsy: relation to lesion laterality.Depression in epilepsy: etiology, phenomenology, and treatment.Mesial temporal lobe epilepsy: what have we learned?Neuroanatomical clues to altered neuronal activity in epilepsy: from ultrastructure to signaling pathways of dentate granule cells.Comparison of [18F]FDG-PET, [99mTc]-HMPAO-SPECT, and [123I]-iomazenil-SPECT in localising the epileptogenic cortex.Interictal regional slow activity in temporal lobe epilepsy correlates with lateral temporal hypometabolism as imaged with 18FDG PET: neurophysiological and metabolic implications.PET: its clinical role in neurology.Imaging the head: functional imaging.Neuroimaging in infantile autism.The relative contributions of MRI, SPECT, and PET imaging in epilepsy.Parietal and occipital lobe epilepsy: a review.Quantitative analysis of simultaneous EEG features during PET studies for childhood partial epilepsy Neuroimaging in pediatric epilepsy.Cortical glucose metabolism correlates negatively with delta-slowing and spike-frequency in epilepsy associated with tuberous sclerosis.Brain mitochondrial metabolic dysfunction and glutamate level reduction in the pilocarpine model of temporal lobe epilepsy in mice Dynamic seizure-related changes in extracellular signal-regulated kinase activation in a mouse model of temporal lobe epilepsy.Imaging the serotonergic system by positron emission tomography.The impact of positron emission tomography imaging on the clinical management of patients with epilepsy.PET scanning.The use and impact of positron computed tomography scanning in epilepsy.Algorithm on the clinical evaluation of epilepsy.Regional cerebral perfusion in PLEDs: a case report.Hippocampal atrophy is not a major determinant of regional hypometabolism in temporal lobe epilepsy.Regional cerebral blood flow in epilepsy studied with xenon enhanced CT.Relation between functional magnetic resonance imaging (fMRI) and single neuron, local field potential (LFP) and electrocorticography (ECoG) activity in human cortex.Electrocorticographic confirmation of focal positron emission tomographic abnormalities in children with intractable epilepsy.Human cerebral metabolism: studies in normal subjects and patients with dementia and amnesia.FDG-PET in healthy and epileptic Lagotto Romagnolo dogs and changes in brain glucose uptake with age.Increased pH and inorganic phosphate in temporal seizure foci demonstrated by [31P]MRS.Improved sensitivity of 18FDG-positron emission tomography scans in frontal and "frontal plus" epilepsy.Correlation of severity of FDG-PET hypometabolism and interictal regional delta slowing in temporal lobe epilepsy.

P2860

Q30479036-DA78F220-52B2-475E-A60D-7A01E57F076D Q30485371-73DF801A-304D-40A5-B9EF-3F03DED78794 Q31912929-D8E6309A-F8D4-4E8C-8A67-0FAB3650F153 Q32064680-39360A94-4ED3-4610-A2DB-09615C5CA592 Q33184715-B6EBE6E1-12CB-43B8-A507-7215025CC98D Q33629437-F4752ECC-6AB2-4D10-91C5-A8737E2212DE Q33629566-1488D427-3083-4251-AD81-2D832ACAF391 Q33629949-9DD24570-C189-4741-8D90-85B01AF2424B Q33713885-E3B56A84-B506-4373-9230-4D9D8A8D5ED6 Q33731265-BD0C5AAF-4BF1-4133-989E-791E0BF48A0E Q33803080-5D3392CF-C104-49D5-93F2-0FB2903E444B Q34327864-457D5E40-C7C0-48B9-9E5D-4B1FCD1DE6B9 Q34426039-7CA3ACD0-5867-48F7-8C79-ABFB520B92B6 Q36317500-986C9A35-3CC5-49E5-B495-AB02AE52E701 Q36318476-71DC6797-54C0-4424-B450-ED428B29F677 Q36489599-C8E93CEA-94D7-4CDB-93FB-5E3842BB9AE4 Q36718204-E3D19811-5109-44DA-9DFB-424D64F78B57 Q36731557-F6476CC8-D4D9-4C54-9A39-5ABAE3A90EF4 Q36752487-70A4035F-3194-4ED8-8016-F71D82CA32DF Q36784193-F0DDE914-E3C8-4316-801E-04CFEC47147F Q36793088-551C4BC1-13DB-4A14-A6E8-04D0B797714E Q36800761-44DE2206-E2C9-4043-AA3E-3367EBA90CE8 Q36954096-A4A3C9C5-CA98-42B4-809C-A4049D8DA3CA Q36994337-0339A573-4F3A-438E-BC15-E8B761E55634 Q37116979-D051DDE0-DDB9-48C2-A4C5-8DDCB9C2A676 Q38004437-4B021352-4DB8-461B-8354-63AF6C059BDD Q38014892-DD96A748-CC96-4654-9689-13E19CEF6F8C Q38223456-D6A30AC1-FDA6-4B65-8EC1-4F8491DA9F95 Q40212903-094D3B15-638E-4EB0-9D15-F8391CAE0006 Q41621057-C0624DF2-3CF0-4352-9D74-92F5E96F349B Q42212052-EB385238-A6BA-49D9-AEC4-9F8796981A0F Q42529050-A02D6C31-EA51-4FAE-83F0-0722FE5D4D2E Q42589347-DB7DA661-7613-4739-A064-2167FE8CC414 Q43244428-31904756-AA22-4624-A4E1-73A261D2833D Q45172378-D68E2472-C8EF-4C71-93FA-BFDDAD51B6CC Q45299939-9FDDEB6F-0267-4835-95FE-A4D1FB5EF9AF Q46123732-7BE2D05C-E9A1-49D3-B4AC-8FBB7B67652A Q46150617-9D9FC3D3-2942-4030-9C38-20C4700AAE40 Q46282525-8D1A5CBA-DCE4-4EE1-9CD7-E2A0B6BC11B5 Q46427206-CA8D8705-0EAC-4D1E-8485-2F10F100C25C

P2860

Interictal cerebral glucose metabolism in partial epilepsy and its relation to EEG changes.

http://www.wikidata.org/entity/Q48868464

description

1982 nî lūn-bûn

@nan

1982年の論文

@ja

1982年学术文章

@wuu

1982年学术文章

@zh-cn

1982年学术文章

@zh-hans

1982年学术文章

@zh-my

1982年学术文章

@zh-sg

1982年學術文章

@yue

1982年學術文章

@zh

1982年學術文章

@zh-hant

name

Interictal cerebral glucose me ...... d its relation to EEG changes.

@en

Interictal cerebral glucose me ...... d its relation to EEG changes.

@nl

type

label

Interictal cerebral glucose me ...... d its relation to EEG changes.

@en

Interictal cerebral glucose me ...... d its relation to EEG changes.

@nl

prefLabel

Interictal cerebral glucose me ...... d its relation to EEG changes.

@en

Interictal cerebral glucose me ...... d its relation to EEG changes.

@nl

P1433

Q48868464-B2B7A35C-A154-4491-B38B-AADF8BFF7C66

P1476

Q48868464-0D7807EB-8BD0-465C-97A2-00FB289C2208

P2093

Q48868464-2C5A5214-66CB-4815-9B2C-329A7EE32FE5

Q48868464-69C0CFE3-F815-4CB3-B2BA-0FD3A40A6551

Q48868464-B4C3231D-1928-4A84-955B-B9F2A2BB4CBC

Q48868464-C70C47C7-81DD-4378-9581-A525AD7107B3

P2860

Q48868464-20DC003C-C29A-455A-90E4-C46A4B4A3D10

Q48868464-35B9867A-66F0-4339-B18E-D20F3A205CC2

Q48868464-4DC659A9-866E-40D1-A6F0-C616EB339A86

Q48868464-5B8C4655-D148-46D4-B421-39287EC496E2

Q48868464-AD1E0439-119B-48FE-8D66-73C561E77BCF

Q48868464-CC20B6B6-F07F-4E92-BA0E-0AA4E9299846

Q48868464-CF80B5DB-2D93-4D89-94C1-DF94AC73497C

P304

Q48868464-9005E2F4-1DEB-4ED5-8713-BC8610E58A46

P31

Q48868464-9D2861D4-F558-45B7-9650-3278EA7D9061

P356

Q48868464-3FBF4FB0-AA54-446E-A65B-9EE0B4DA8228

P433

Q48868464-FBC2B678-0935-4EE6-83B5-849574F551C5

P478

Q48868464-0BD28FD9-0729-4109-9F78-FFC725D107AB

P577

Q48868464-DC73F5C0-6537-4906-A7CA-2EA147FD9A89

P698

Q48868464-189CA4E2-3CD1-4CDD-BC47-3D4E7DDDBC06

P921

Q48868464-dd039459-2fff-4460-a363-bda85033b501

P356

P1433

Annals of Neurology

P1476

Interictal cerebral glucose me ...... d its relation to EEG changes.

@en

P2093

Engel J Jr

http://www.w3.org/2001/XMLSchema#string

Kuhl DE

http://www.w3.org/2001/XMLSchema#string

Mazziotta JC

http://www.w3.org/2001/XMLSchema#string

Phelps ME

http://www.w3.org/2001/XMLSchema#string

P2860

The [18F]fluorodeoxyglucose method for the measurement of local cerebral glucose utilization in man.

Regional cerebral blood flow and EEG in patients with epilepsy.

Metabolic anatomy of focal motor seizures.

Brain lesions that produce delta waves in the EEG.

Regional cerebral blood flow in focal cortical epilepsy.

Interictal regional cerebral blood flow in patients with partial seizures.

Control mechanisms in cortical epileptogenic foci. "Surround" inhibition.

P304

510-517

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1002/ANA.410120603

http://www.w3.org/2001/XMLSchema#string

P433

6

http://www.w3.org/2001/XMLSchema#string

P478

12

http://www.w3.org/2001/XMLSchema#string

P577

1982-12-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

6818896

http://www.w3.org/2001/XMLSchema#string

P921