2019
Interictal Hyperperfusion in the Higher Visual Cortex in Patients With Episodic Migraine
Michels L, Villanueva J, O’Gorman R, Muthuraman M, Koirala N, Büchler R, Gantenbein A, Sandor P, Luechinger R, Kollias S, Riederer F. Interictal Hyperperfusion in the Higher Visual Cortex in Patients With Episodic Migraine. Headache The Journal Of Head And Face Pain 2019, 59: 1808-1820. PMID: 31680242, DOI: 10.1111/head.13646.Peer-Reviewed Original ResearchConceptsCerebral blood flowCohen's d effect sizesEpisodic migraineD effect sizesHealthy controlsSuperior temporal gyrusASL-MRIVisual cortexInterictal cerebral blood flowInterictal stateTemporal gyrusHigher-order visual cortexNeuro-functional abnormalitiesEffect sizeFunctional brain imaging studiesNon-invasive imaging methodMagnetic resonance imagingHigher visual cortexBrain imaging studiesInterictal hyperperfusionCBF changesSubcortical alterationsMigraine pathophysiologyParietal operculumBlood flowNon-invasive Multimodality Cardiovascular Imaging of the Right Heart and Pulmonary Circulation in Pulmonary Hypertension
Hur DJ, Sugeng L. Non-invasive Multimodality Cardiovascular Imaging of the Right Heart and Pulmonary Circulation in Pulmonary Hypertension. Frontiers In Cardiovascular Medicine 2019, 6: 24. PMID: 30931315, PMCID: PMC6427926, DOI: 10.3389/fcvm.2019.00024.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsMean pulmonary arterial pressureRight heart catheterizationPulmonary hypertensionRight ventricleEvaluation of PHMultimodality cardiovascular imagingPulmonary arterial pressurePulmonary arterial vasculatureNon-invasive imaging methodMillimeters of mercuryHeart catheterizationArterial pressurePrognostic riskRight heartNon-invasive imagingPatient survivalRV structurePulmonary circulationSeverity stratificationEarly initiationArterial vasculatureFunctional assessmentMortality rateRH dysfunctionTreatment management
2013
MO‐D‐141‐01: Quantification of Tumor Hypoxia Using [18F]‐Fluoromisonidazole Positron Emission Tomography and Tracer Kinetic Modeling
Kelada O, Rockwell S, Carson R, Decker R, Oelfke U, Carlson D. MO‐D‐141‐01: Quantification of Tumor Hypoxia Using [18F]‐Fluoromisonidazole Positron Emission Tomography and Tracer Kinetic Modeling. Medical Physics 2013, 40: 399-399. DOI: 10.1118/1.4815248.Peer-Reviewed Original ResearchPositron emission tomographyBlood ratioComputed tomographyFluoromisonidazole positron emission tomographyMale BALB/c miceEmission tomographyTumor hypoxiaBALB/c miceEMT-6 tumorsNon-invasive imaging methodVoxel basisTreatment failureC miceConventional tumorHypoxia quantificationHypoxic fractionAnaesthetized animalsTumorsHistologic sectionsPharmacokinetic modelPharmacokinetic modelingDynamic positron emission tomographyPET imagingHypoxic radioresistanceBetter delineation
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