2024
Translating Prefrontal Cortex Insights to the Clinic and Society
Rowe J, Datta D, Fiebach C, Jaeggi S, Liston C, Luna B, Rasmussen S, Roberts A, Sinha R, Haber S. Translating Prefrontal Cortex Insights to the Clinic and Society. 2024, 319-360. DOI: 10.7551/mitpress/15679.003.0019.Peer-Reviewed Original Research
2022
Comparative anatomy of the middle cerebral artery, rhinal and endorhinal sulci, piriform lobe, entorhinal cortex, olfactory tubercule, anterior perforate substance, and hippocampus: A dissection study
Kier E, Conlogue G. Comparative anatomy of the middle cerebral artery, rhinal and endorhinal sulci, piriform lobe, entorhinal cortex, olfactory tubercule, anterior perforate substance, and hippocampus: A dissection study. The Anatomical Record 2022, 306: 2030-2043. PMID: 36371781, DOI: 10.1002/ar.25124.Peer-Reviewed Original ResearchConceptsMiddle cerebral arteryRecurrent arteryPiriform lobeHuman fetal specimensOlfactory tuberculeLenticulostriate arteriesRhinal sulcusEndorhinal sulcusCerebral arteryTemporal lobeFetal specimensAnatomic modificationsHuman temporal lobeStriate nucleusMCA branchesArteryInferomedial regionHeubnerHippocampusComplex anatomyDissection studiesBrain dissectionCerebrumSulcusLobeChapter 2 Pituitary gland
Holt E, Lupsa B, Lee G, Bassyouni H, Peery H. Chapter 2 Pituitary gland. 2022, 43-73. DOI: 10.1016/b978-0-12-815844-9.00002-6.ChaptersGrowth hormoneAnterior pituitaryHypothalamic-hypophyseal portal systemInsulin-like growth factorAnterior pituitary hormonesEjection of milkHypothalamic-hypophyseal tractPituitary hormonesAnterior lobeTrophic hormonesInhibitory hormonePituitary glandPosterior pituitaryAxon endingsPortal systemHypothalamusPituitaryHormoneTypes of cellsGrowth factorConnective tissueTarget tissuesGlandAcidophile cellsLobe
2021
The development and function of neuronal subtypes processing color and skylight polarization in the optic lobes of Drosophila melanogaster
Sancer G, Wernet M. The development and function of neuronal subtypes processing color and skylight polarization in the optic lobes of Drosophila melanogaster. Arthropod Structure & Development 2021, 61: 101012. PMID: 33618155, DOI: 10.1016/j.asd.2020.101012.Peer-Reviewed Original ResearchConceptsDorsal rim areaOptic lobeSpecific cellular elementsCell typesMedulla neuropilPhotoreceptor terminalsNeuronal subtypesRim areaOmmatidial subtypesDistinct subtypesSynaptic connectionsNeural circuitsCellular elementsSubtypesDistal portionRetinal mosaicsMolecular mechanismsCell type-specific transcriptomicsResponse propertiesPhotoreceptorsLobeCellsR7 photoreceptorsR8 cellsR8 photoreceptors
2020
Case Report: Suprasellar Pituitary Adenoma Presenting With Temporal Lobe Seizures
Hong CS, Gorrepati R, Kundishora AJ, Elsamadicy AA, Peter PR, Damisah EC, Manes RP, Omay SB. Case Report: Suprasellar Pituitary Adenoma Presenting With Temporal Lobe Seizures. Frontiers In Surgery 2020, 7: 598138. PMID: 33335912, PMCID: PMC7736041, DOI: 10.3389/fsurg.2020.598138.Peer-Reviewed Case Reports and Technical NotesPituitary macroadenomaTemporal lobeFurther seizure activityTemporal lobe seizuresYear old maleMass effectLeft temporal lobeSuprasellar pituitary adenomasEndocrine dysfunctionGeneralized seizuresSeizure activityPituitary pathologyPituitary adenomasMedical treatmentSeizuresEndoscopic endonasalMacroadenomasLobePatientsDysfunctionAdenomasSymptomsTumorsEndonasalPathology
2019
Implementation of an experimental isolated lung perfusion model on surgically resected human lobes
Slama A, Raber C, Hedderich C, Stockhammer P, Hegedüs B, Koch A, Theegarten D, Ploenes T, Aigner C. Implementation of an experimental isolated lung perfusion model on surgically resected human lobes. Scientific Reports 2019, 9: 12193. PMID: 31434960, PMCID: PMC6704181, DOI: 10.1038/s41598-019-48719-8.Peer-Reviewed Original ResearchConceptsIsolated lung perfusionAnatomic pulmonary lobectomyLung perfusion modelExperimental lung researchDonor lungsIschemic timeMedian durationVariety of pathologiesPulmonary lobectomyLung perfusionMechanical ventilationArterial ligationLung cancerMetabolic parametersNormothermic conditionsRespiratory parametersPerfusion modelTreatment effectsLobePerfusionCancer researchLung researchVentilationPhysiological settingsAnimal organsComparisons between the ON- and OFF-edge motion pathways in the Drosophila brain
Shinomiya K, Huang G, Lu Z, Parag T, Xu CS, Aniceto R, Ansari N, Cheatham N, Lauchie S, Neace E, Ogundeyi O, Ordish C, Peel D, Shinomiya A, Smith C, Takemura S, Talebi I, Rivlin PK, Nern A, Scheffer LK, Plaza SM, Meinertzhagen IA. Comparisons between the ON- and OFF-edge motion pathways in the Drosophila brain. ELife 2019, 8: e40025. PMID: 30624205, PMCID: PMC6338461, DOI: 10.7554/elife.40025.Peer-Reviewed Original Research
2018
A resource for the Drosophila antennal lobe provided by the connectome of glomerulus VA1v
Horne JA, Langille C, McLin S, Wiederman M, Lu Z, Xu CS, Plaza SM, Scheffer LK, Hess HF, Meinertzhagen IA. A resource for the Drosophila antennal lobe provided by the connectome of glomerulus VA1v. ELife 2018, 7: e37550. PMID: 30382940, PMCID: PMC6234030, DOI: 10.7554/elife.37550.Peer-Reviewed Original Research
2017
Breakdown of Thalamo-Cortical Connectivity Precedes Spike Generation in Focal Epilepsies
Chiosa V, Groppa S, Ciolac D, Koirala N, Mişina L, Winter Y, Moldovanu M, Muthuraman M, Groppa S. Breakdown of Thalamo-Cortical Connectivity Precedes Spike Generation in Focal Epilepsies. Brain Connectivity 2017, 7: 309-320. PMID: 28494616, DOI: 10.1089/brain.2017.0487.Peer-Reviewed Original ResearchConceptsFrontal lobeVentral anterior nucleusThalamo-cortical connectivityFuture therapeutic approachesSpike generationFocal epileptic seizuresMedial dorsalThalamic volumeFocal epilepsyAnterior nucleusFrontal cortexTherapeutic approachesEpileptic seizuresCerebral networksCortical integrityThalamusEEG recordingsWidespread areasDistinct patternsLobeEpileptogenesisPatientsEpilepsySeizuresCortex
2014
The Necessity of the Medial Temporal Lobe for Statistical Learning
Schapiro AC, Gregory E, Landau B, McCloskey M, Turk-Browne NB. The Necessity of the Medial Temporal Lobe for Statistical Learning. Journal Of Cognitive Neuroscience 2014, 26: 1736-1747. PMID: 24456393, PMCID: PMC4264662, DOI: 10.1162/jocn_a_00578.Peer-Reviewed Original Research
2013
Temporal Lobe Seizures
Furman M, Blumenfeld H. Temporal Lobe Seizures. 2013, 51-62. DOI: 10.1007/978-3-642-37580-4_4.Peer-Reviewed Original ResearchTemporal lobe seizuresTemporal epilepsyTemporal lobeFocal temporal lobe seizuresNetwork inhibition hypothesisSlow electroencephalogram activityLoss of consciousnessParietal association cortexImpaired consciousnessCortical dysfunctionSide effectsAnimal modelsNovel treatmentsAssociation cortexDeep anesthesiaAwake stateHuman patientsElectrophysiological techniquesMemory lossSeizuresElectroencephalogram (EEG) activityElectrophysiological dataEpilepsyCortexLobe
2011
Multi-core processing within the frontal lobe
Noah J, Tachibana A, Bronner S. Multi-core processing within the frontal lobe. 2011, 280-282. DOI: 10.1145/2159365.2159412.Peer-Reviewed Original ResearchExecutive functionFrontal lobeMotor outputFunctional brain activityDifferent sensory inputsDance Dance RevolutionSensory modalitiesBrain activitySensory cuesSensory informationSensory inputMagnetic resonance imagingVideo gamesMemory workDistinct patternsCuesMemoryResonance imagingLobeProcessingGameBrainInformationScanning procedure
2008
Temporal distributions of seizure occurrence from various epileptogenic regions
Durazzo TS, Spencer SS, Duckrow RB, Novotny EJ, Spencer DD, Zaveri HP. Temporal distributions of seizure occurrence from various epileptogenic regions. Neurology 2008, 70: 1265-1271. PMID: 18391158, DOI: 10.1212/01.wnl.0000308938.84918.3f.Peer-Reviewed Original ResearchConceptsMesial temporal lobeSeizure occurrencePartial epilepsyTemporal lobeBrain regionsParietal seizuresSeizure distributionNeocortical temporal lobeParietal lobe seizuresTemporal lobe seizuresFrontal lobe seizuresConsecutive adult subjectsCortical brain regionsCircadian rhythmNeocortical temporalSurgical resectionTemporal seizuresIntracranial EEG recordingsEpileptogenic regionSeizuresAdult subjectsEpilepsyEndogenous circadian rhythmLobeEEG recordings
2005
Of Buffaloes, Horseshoes, and Having No Connections
Parsons AM, Detterbeck FC. Of Buffaloes, Horseshoes, and Having No Connections. The Annals Of Thoracic Surgery 2005, 80: 1521-1523. PMID: 16181911, DOI: 10.1016/j.athoracsur.2004.04.054.Peer-Reviewed Original ResearchConceptsUnilateral pulmonary artery agenesisCongenital pulmonary anomaliesPulmonary artery agenesisDouble lung transplantationRight middle lobeRight upper lobeBuffalo chestHorseshoe lungLung transplantationPulmonary anomaliesLeft lungUpper lobeLower lobeRight chestRight lungAnatomic anomaliesMiddle lobeLeft chestLungChestLobePatientsTransplantationAgenesisHemithoracesGustatory agnosia
Small DM, Bernasconi N, Bernasconi A, Sziklas V, Jones-Gotman M. Gustatory agnosia. Neurology 2005, 64: 311-317. PMID: 15668430, DOI: 10.1212/01.wnl.0000149515.77718.35.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgnosiaAmygdalaAnorexiaAtrophyCerebral CortexElectrodes, ImplantedElectroencephalographyEpilepsy, Temporal LobeFemaleFollow-Up StudiesFood PreferencesHippocampusHumansMagnetic Resonance ImagingMeningoencephalitisNeuropsychological TestsOlfaction DisordersPositron-Emission TomographyPostoperative ComplicationsTasteTaste ThresholdTemporal LobeConceptsMedial temporal lobeTemporal lobeSurgical treatmentLeft medial temporal lobeAnteromedial temporal lobeFunctional neuroimaging studiesBilateral atrophyIntractable epilepsyComplete atrophyPreoperative MRIGustatory functionLeft amygdalaLeft insulaChemosensory evaluationNeuroimaging studiesTaste abilityPatientsAtrophyAmygdalaAversive tasteLobeRecognition thresholdAgnosiaTreatmentTaste quality
2001
Changes in Taste Intensity Perception Following Anterior Temporal Lobe Removal in Humans
Small D, Zatorre R, Jones-Gotman M. Changes in Taste Intensity Perception Following Anterior Temporal Lobe Removal in Humans. Chemical Senses 2001, 26: 425-432. PMID: 11369677, DOI: 10.1093/chemse/26.4.425.Peer-Reviewed Original ResearchConceptsAnterior temporal lobeTemporal lobeHealthy control subjectsTemporal lobe removalsRight anterior temporal lobeRight temporal groupPatient groupIntractable epilepsyControl subjectsControl groupMeasures ANOVAMeasures analysisBitter tasteSignificant differencesUnpleasant bitter tasteStimulus concentrationLobeTaste perceptionSubjectsGroupTemporal groupsPatientsIntensity perceptionEpilepsy
1997
Measurement of frontal lobe volume on magnetic resonance imaging scans
Aylward E, Augustine A, Li Q, Barta P, Pearlson G. Measurement of frontal lobe volume on magnetic resonance imaging scans. Psychiatry Research 1997, 75: 23-30. PMID: 9287371, DOI: 10.1016/s0925-4927(97)00026-7.Peer-Reviewed Original Research
1995
Language-related field potentials in the anterior-medial temporal lobe: I. Intracranial distribution and neural generators
McCarthy G, Nobre A, Bentin S, Spencer D. Language-related field potentials in the anterior-medial temporal lobe: I. Intracranial distribution and neural generators. Journal Of Neuroscience 1995, 15: 1080-1089. PMID: 7869084, PMCID: PMC6577814, DOI: 10.1523/jneurosci.15-02-01080.1995.Peer-Reviewed Original ResearchConceptsAnterior medial temporal lobeField potentialsTemporal lobeCollateral sulcusNegative field potentialsPositive field potentialsMedial temporal lobeLanguage-related processingAnterior fusiform gyrusSubdural electrodesPeak latencyIntracranial electrodesScalp electrodesFusiform gyrusIntracranial distributionHippocampusLarge negative field potentialNeural generatorsSame latencyAmygdalaSentence-ending wordsSulcusLobeN400 potentialsLocal Ventromedial Hypothalamus Glucopenia Triggers Counterregulatory Hormone Release
Borg W, Sherwin R, During M, Borg M, Shulman G. Local Ventromedial Hypothalamus Glucopenia Triggers Counterregulatory Hormone Release. Diabetes 1995, 44: 180-184. PMID: 7859938, DOI: 10.2337/diab.44.2.180.Peer-Reviewed Original ResearchConceptsVentromedial hypothalamusFrontal lobeMicrodialysis probeCounterregulatory hormone releaseCellular glucopeniaCounterregulatory hormonesCounterregulatory responsesPlasma glucagonPlasma glucoseLocal perfusionHormone releaseCerebral tissueStriking elevationControl groupGlucopeniaBrain tissueGlucopenic agentHypoglycemiaRatsTwofold increaseLobeTissueNorepinephrineHypothalamusEpinephrine
1994
Word recognition in the human inferior temporal lobe
Nobre A, Allison T, McCarthy G. Word recognition in the human inferior temporal lobe. Nature 1994, 372: 260-263. PMID: 7969469, DOI: 10.1038/372260a0.Peer-Reviewed Original ResearchConceptsInferior temporal lobeFusiform gyrusTemporal lobeWord-like stimuliComplex visual stimuliAnterior fusiform gyrusVentral visual pathwayPosterior fusiform gyrusWord recognitionVisual processingStimulus dimensionsVisual stimuliVentral pathwaySemantic contextExternal worldObject recognitionVisual featuresVisual systemGyrusVisual pathwayWordsStimuliRecognitionInferior portionLobe
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