E. Leon Kier, MD
Professor Emeritus of Radiology and Biomedical ImagingDownloadHi-Res Photo
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Professor Emeritus of Radiology and Biomedical Imaging
Appointments
Radiology & Biomedical Imaging
EmeritusPrimary
Other Departments & Organizations
Education & Training
- Fellow
- Albert Einstein College of Medicine, Bronx, NY (1968)
- Resident
- Yale-New Haven Hospital, New Haven, CT (1966)
- Resident
- Boston City Hospital, Boston, MA (1963)
- Postdoctoral Fellow
- Boston City Hospital, Boston, MA (1962)
- MD
- University of California/San Francisco (1961)
Board Certifications
Diagnostic Radiology
- Certification Organization
- AB of Radiology
- Original Certification Date
- 1968
Research
Overview
Medical Research Interests
Anatomy; Embryology; Radiology; Temporal Lobe
ORCID
0000-0002-1015-2898
Research at a Glance
Yale Co-Authors
Frequent collaborators of E. Leon Kier's published research.
Publications Timeline
A big-picture view of E. Leon Kier's research output by year.
Research Interests
Research topics E. Leon Kier is interested in exploring.
Benjamin Bunney, MD
Richard Bronen, MD
John Elsworth, PhD
Lawrence Staib, PhD
Robert Makuch, PhD
Charles Duncan, MD, FAANS
62Publications
1,858Citations
Temporal Lobe
Publications
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 ResearchMeSH Keywords and ConceptsConceptsMiddle cerebral arteryRecurrent arteryPiriform lobeHuman fetal specimensOlfactory tuberculeLenticulostriate arteriesRhinal sulcusEndorhinal sulcusCerebral arteryTemporal lobeFetal specimensAnatomic modificationsHuman temporal lobeStriate nucleusMCA branchesArteryInferomedial regionHeubnerHippocampusComplex anatomyDissection studiesBrain dissectionCerebrumSulcusLobeCerebral arterial and ventricular morphology of the dogfish (Squalus acanthias), American bullfrog (Rana catesbeiana), and green iguana (Iguana iguana): Arterial high‐resolution micro‐CT, dissection, and radiography study
Kier E, Conlogue G, VanHouten J. Cerebral arterial and ventricular morphology of the dogfish (Squalus acanthias), American bullfrog (Rana catesbeiana), and green iguana (Iguana iguana): Arterial high‐resolution micro‐CT, dissection, and radiography study. The Anatomical Record 2022, 306: 2015-2029. PMID: 35778853, DOI: 10.1002/ar.25028.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsMicro-CT imagesHigh-resolution micro-CTMicro-CTMicro-computed tomography (CT) imagingMicro-CT imagingArterial morphologyVenous cerebral circulationSequential displayGreen iguanasCerebral circulationVentricular morphologyRadiopaque contrastArterial circulationCorrosionArterial branchesVentricular systemRadiography studiesMorphologyArterial segmentsArterial structureAnatomic informationTomography imagingBrainArterial capillariesArterial network
2021
Comparative anatomy of dissected optic lobes, optic ventricles, midbrain tectum, collicular ventricles, and aqueduct: evolutionary modifications as potential explanation for non-tumoral aqueductal anomalies in humans
Kier E, Kalra V, Conlogue G, Filippi C, Saluja S. Comparative anatomy of dissected optic lobes, optic ventricles, midbrain tectum, collicular ventricles, and aqueduct: evolutionary modifications as potential explanation for non-tumoral aqueductal anomalies in humans. Child's Nervous System 2021, 38: 287-294. PMID: 34812897, PMCID: PMC8789712, DOI: 10.1007/s00381-021-05408-0.Peer-Reviewed Original ResearchAltmetricMeSH Keywords and ConceptsConceptsEvolutionary modificationsVertebrate materialMammalian componentsTectum structuresAdult sharksNeocortical expansionVertebratesComparative anatomyOptic lobeRelative size changesContinuous cavityOptic ventricleMammalsSharksSize changesFrogsIguanasOccipital lobeModificationMidbrain tectumMidbrain tectum structuresTectumPotential explanationAqueductal stenosisCerebral ventricle
2019
High‐Resolution Computed Tomography Imaging of the Cranial Arterial System and Rete Mirabile of the Cat (Felis catus)
Kier EL, Conlogue GJ, Zhuang Z. High‐Resolution Computed Tomography Imaging of the Cranial Arterial System and Rete Mirabile of the Cat (Felis catus). The Anatomical Record 2019, 302: 1958-1967. PMID: 31502384, PMCID: PMC6856801, DOI: 10.1002/ar.24251.Peer-Reviewed Original ResearchCitationsMeSH Keywords and ConceptsConceptsArterial circulationCranial circulationArterial systemHigh-resolution CT studiesPlain radiographic studiesRete mirabileHigh-resolution multiplanarRadiographic studiesCT studiesVascular anatomyMultiplanar reconstructionPlane angulationDisruption of tissueBony anatomyTomography imagingIntact skullCatsBone componentsRadiographic techniquesContrast compoundVascular visualization
2004
MR imaging of the temporal stem: anatomic dissection tractography of the uncinate fasciculus, inferior occipitofrontal fasciculus, and Meyer's loop of the optic radiation.
Kier EL, Staib LH, Davis LM, Bronen RA. MR imaging of the temporal stem: anatomic dissection tractography of the uncinate fasciculus, inferior occipitofrontal fasciculus, and Meyer's loop of the optic radiation. American Journal Of Neuroradiology 2004, 25: 677-91. PMID: 15140705, PMCID: PMC7974480.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsInferior occipitofrontal fasciculusTemporal stemMeyer's loopOccipitofrontal fasciculusUncinate fasciculusMR anatomyOptic radiationExtreme capsuleTemporal lobeLateral geniculate bodyAnterior temporal lobeCross-sectional MR imagesPostoperative complicationsTumor spreadExternal capsuleGeniculate bodyAnterior commissureAnatomic foundationAnatomic featuresBrain disordersAlzheimer's diseaseMR imagingDiffusion tractographyFasciculusTractAnatomic dissection tractography: a new method for precise MR localization of white matter tracts.
Kier EL, Staib LH, Davis LM, Bronen RA. Anatomic dissection tractography: a new method for precise MR localization of white matter tracts. American Journal Of Neuroradiology 2004, 25: 670-6. PMID: 15140704, PMCID: PMC7974503.Peer-Reviewed Original ResearchCitations
2000
MR Imaging and Histologic Features of Subinsular Bright Spots on T2-weighted MR Images: Virchow-Robin Spaces of the Extreme Capsule and Insular Cortex
Song C, Kim J, Kier E, Bronen R. MR Imaging and Histologic Features of Subinsular Bright Spots on T2-weighted MR Images: Virchow-Robin Spaces of the Extreme Capsule and Insular Cortex. Radiology 2000, 214: 671-677. PMID: 10715028, DOI: 10.1148/radiology.214.3.r00mr17671.Peer-Reviewed Original ResearchCitationsMeSH Keywords and ConceptsConceptsInsular cortexExtreme capsuleMR imagingControl subjectsBrain specimensPerivascular spacesFormalin-fixed brain specimensFluid-attenuated inversion recovery sequencesVirchow-Robin spacesT2-weighted magnetic resonance imagesCoronal T2-weighted imagesT2-weighted imagesCoronal MR imagesHigh signal intensityT2-weighted MR imagesInversion recovery sequenceHistologic featuresHistologic findingsCerebrospinal fluidMR imagesPatientsWhite matterPathologic conditionsGross anatomic inspectionMagnetic resonance images
1997
The lamina rostralis: modification of concepts concerning the anatomy, embryology, and MR appearance of the rostrum of the corpus callosum.
Kier EL, Truwit CL. The lamina rostralis: modification of concepts concerning the anatomy, embryology, and MR appearance of the rostrum of the corpus callosum. American Journal Of Neuroradiology 1997, 18: 715-22. PMID: 9127036, PMCID: PMC8338510.Peer-Reviewed Original ResearchCitationsMeSH Keywords and Concepts
1996
The normal and abnormal genu of the corpus callosum: an evolutionary, embryologic, anatomic, and MR analysis.
Kier E, Truwit C. The normal and abnormal genu of the corpus callosum: an evolutionary, embryologic, anatomic, and MR analysis. American Journal Of Neuroradiology 1996, 17: 1631-41. PMID: 8896613, PMCID: PMC8338282.Peer-Reviewed Original ResearchCitationsMeSH Keywords and ConceptsConceptsCorpus callosumCallosal anomaliesHuman corpus callosumAdult mammal brainHuman fetal brainHuman fetal developmentFrontal lobe sizeMR imagesMamillary bodiesAnterior commissureFetal brainCallosumFetal developmentAbnormal appearanceGenuNormal corpusPatientsMR analysisAnterior bodyMammal brainBrainCommissure
1993
Unilateral Transplantation of Human Fetal Mesencephalic Tissue Into the Caudate Nucleus of Patients With Parkinson's Disease
SPENCER D, ROBBINS R, NAFTOLIN F, MAREK K, VOLLMER T, LERANTH C, ROTH R, PRICE L, GJEDDE A, BUNNEY B, SASS K, ELSWORTH J, KIER E, MAKUCH R, HOFFER P, REDMOND D. Unilateral Transplantation of Human Fetal Mesencephalic Tissue Into the Caudate Nucleus of Patients With Parkinson's Disease. Obstetrical & Gynecological Survey 1993, 48: 413-415. DOI: 10.1097/00006254-199306000-00013.Peer-Reviewed Original Research
Academic Achievements & Community Involvement
honor Memorial Gold Medal Award
UnknownAssociation of University RadiologistsDetailsUnited Stateshonor Summa Cum Laude
UnknownRadiologic Society of North AmericaDetailsUnited Stateshonor Summa Cum Laude
UnknownAmerican Society of NeuroradiologyDetailsUnited States
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