2024
Conventional and Contrast-enhanced US of the Lung: From Performance to Diagnosis.
Jiménez-Serrano S, Páez-Carpio A, Doménech-Ximenos B, Cornellas L, Sánchez M, Revzin M, Vollmer I. Conventional and Contrast-enhanced US of the Lung: From Performance to Diagnosis. RadioGraphics 2024, 44: e230171. PMID: 38935548, DOI: 10.1148/rg.230171.Peer-Reviewed Original ResearchConceptsPeripheral lung diseaseContrast-enhanced USDiagnosis of peripheral lung diseasePercutaneous biopsyLung USEnhancement patternLung diseaseImage-guided percutaneous biopsyAccurate differential diagnosisDiagnostic chest imagingLung biopsySubpleural lesionsConventional USDifferential diagnosisPathological findingsPulmonary physiologyChest imagingArterial supplyBiopsyLungDiagnostic testsDiagnosisSoft tissueDiseaseImaging time
2023
Intraprocedural C‐arm dual‐phase cone‐beam enhancement patterns correlate with tumor absorbed dose after radioembolization
Bastiaannet R, Lin M, Frey E, de Jong H. Intraprocedural C‐arm dual‐phase cone‐beam enhancement patterns correlate with tumor absorbed dose after radioembolization. Medical Physics 2023, 51: 3045-3052. PMID: 38064591, PMCID: PMC10994751, DOI: 10.1002/mp.16882.Peer-Reviewed Original ResearchContrast-enhanced cone-beam CTHepatocellular carcinomaPET/CT scansNon-tumor liver tissuesPersonalized treatment planningIntra-procedural imagingBlood flow patternsPretreatment tumorRetrospective studyLimits of agreementTumor responseBland-Altman analysisClinical trialsTumor doseCT scanEnhancement patternHepatic vasculatureHCC tumorsCatheter positionTumor tissueLiver tissueTumorsHepatic radioembolizationPatientsDose
2021
Imaging Features at the Periphery: Hemodynamics, Pathophysiology, and Effect on LI-RADS Categorization.
Consul N, Sirlin CB, Chernyak V, Fetzer DT, Masch WR, Arora SS, Do RKG, Marks RM, Fowler KJ, Borhani AA, Elsayes KM. Imaging Features at the Periphery: Hemodynamics, Pathophysiology, and Effect on LI-RADS Categorization. RadioGraphics 2021, 41: 1657-1675. PMID: 34559586, DOI: 10.1148/rg.2021210019.Peer-Reviewed Original ResearchConceptsHepatocellular carcinomaEnhancement patternLiver observationsCapsule appearanceRim arterial phase hyperenhancementAncillary featuresNon-HCC malignanciesLocal-regional therapyArterial phase hyperenhancementLiver Imaging ReportingDynamic contrast-enhanced imagingDifferent enhancement patternsImaging-based diagnosisContrast-enhanced imagingPeripheral washoutArterioportal shuntTargetoid appearanceNodular enhancementCorona enhancementBenign entityTreatment responseLI-RADSRisk populationsLiver lesionsSpecific diagnosis
2017
High-resolution vessel wall MRI for the evaluation of intracranial atherosclerotic disease
de Havenon A, Mossa-Basha M, Shah L, Kim SE, Park M, Parker D, McNally JS. High-resolution vessel wall MRI for the evaluation of intracranial atherosclerotic disease. Neuroradiology 2017, 59: 1193-1202. PMID: 28942481, DOI: 10.1007/s00234-017-1925-9.Peer-Reviewed Original ResearchConceptsHigh-resolution vessel wall MRIVessel wall MRIIntracranial atherosclerosisPrognosis of patientsIntracranial atherosclerotic diseasePost-contrast enhancementDiagnostic imaging techniquesHigh field strength MRIIschemic strokeStroke etiologyAtherosclerotic diseaseCerebrovascular diseaseVessel wall morphologyVascular pathologyIntracranial arteriesEnhancement patternRecurrence riskAtherosclerosisTranslational perspectiveVessel wallClinical interpretationMRIStrength MRIDisease
2016
Melanoma brain metastases: correlation of imaging features with genomic markers and patient survival
Bordia R, Zhong H, Lee J, Weiss S, Han SW, Osman I, Jain R. Melanoma brain metastases: correlation of imaging features with genomic markers and patient survival. Journal Of Neuro-Oncology 2016, 131: 341-348. PMID: 27822597, DOI: 10.1007/s11060-016-2305-8.Peer-Reviewed Original ResearchConceptsMelanoma brain metastasesSignificant prognostic factorsBRAF inhibitor treatmentPercent of lesionsBrain metastasesMedian survivalPrognostic factorsPatient survivalMultiple lesionsInhibitor treatmentT1-weighted hyperintensityBRAF mutation statusT1-weighted hyperintense signalsNumber of lesionsMethods PatientsRetrospective reviewInstitutional databaseLonger survivalHyperintense signalBrain MRIMelanoma metastasesSingle lesionEnhancement patternLarge lesionsLesion size
2015
1:27 PM, Abstract No. 119 Can whole liver enhancement patterns predict survival in patients with extensive neuroendocrine liver metastases treated with transarterial chemoembolization?
Sahu S, Duran R, Schernthaner R, Sohn J, Chapiro J, Lin M, Geschwind J. 1:27 PM, Abstract No. 119 Can whole liver enhancement patterns predict survival in patients with extensive neuroendocrine liver metastases treated with transarterial chemoembolization? Journal Of Vascular And Interventional Radiology 2015, 26: s58. DOI: 10.1016/j.jvir.2014.12.160.Peer-Reviewed Original Research
2007
Detection of Pulmonary Vein and Left Atrial Scar after Catheter Ablation with Three-dimensional Navigator-gated Delayed Enhancement MR Imaging: Initial Experience
Peters DC, Wylie JV, Hauser TH, Kissinger KV, Botnar RM, Essebag V, Josephson ME, Manning WJ. Detection of Pulmonary Vein and Left Atrial Scar after Catheter Ablation with Three-dimensional Navigator-gated Delayed Enhancement MR Imaging: Initial Experience. Radiology 2007, 243: 690-5. PMID: 17517928, DOI: 10.1148/radiol.2433060417.Peer-Reviewed Original ResearchConceptsPulmonary veinsLeft atriumEnhancement MR imagingLeft inferior pulmonary veinMR imagingInferior pulmonary veinEnhancement magnetic resonance imagingLocal institutional review boardUnpaired t-testMagnetic resonance imagingInstitutional review boardIsolation therapyCatheter ablationAtrial fibrillationRadiofrequency ablationInteratrial septumAtrial wallEnhancement patternPatientsInitial experienceAtrial scarResonance imagingRF ablationMR imaging methodsInformed consent
2000
Choroid plexus changes after temporal lobectomy.
Saluja S, Sato N, Kawamura Y, Coughlin W, Putman C, Spencer D, Sze G, Bronen R. Choroid plexus changes after temporal lobectomy. American Journal Of Neuroradiology 2000, 21: 1650-3. PMID: 11039344, PMCID: PMC8174865.Peer-Reviewed Original ResearchConceptsTemporal lobectomyChoroid plexusPostoperative changesResection siteNormal postoperative changesRecurrent brain tumorsContrast-enhanced T1-weighted imagesPresence of infectionContrast-enhanced MR imagingDegree of enhancementT1-weighted imagesChoroid plexus changesHippocampal sclerosisRecurrent tumorsIntractable epilepsyNodular patternPathologic changesPostoperative siteLobectomyBrain tumorsEnhancement patternSurgical manipulationPlexusMorphologic changesMR imaging
1997
Postoperative changes in the brain: MR imaging findings in patients without neoplasms.
Sato N, Bronen R, Sze G, Kawamura Y, Coughlin W, Putman C, Spencer D. Postoperative changes in the brain: MR imaging findings in patients without neoplasms. Radiology 1997, 204: 839-46. PMID: 9280269, DOI: 10.1148/radiology.204.3.9280269.Peer-Reviewed Original ResearchConceptsPostoperative MR imagesPostoperative changesDural enhancementEnhancement patternThin linear enhancementContrast enhancement patternMagnetic resonance imagingMR imagesSurgical marginsTemporal lobectomyNeoplastic changesExtraaxial fluidIntracranial airContrast material-enhanced MR imagesDay 5Day 51Day 30Resonance imagingSurgeryBrainPatientsTime courseContrast enhancementLinear enhancementDays
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