2001
CT Perfusion Imaging versus MR Diffusion Weighted Imaging: Prediction of Final Infarct Size in Hyperacute Stroke
Berzin T, Lev M, Goodman D, Koroshetz W, Hunter G, Hamberg L, Buonanno F, Putman C, Budzik R, Eskey C, Schwamm L, Gonzalez R. CT Perfusion Imaging versus MR Diffusion Weighted Imaging: Prediction of Final Infarct Size in Hyperacute Stroke. Stroke 2001, 32: 317-317. DOI: 10.1161/str.32.suppl_1.317.Peer-Reviewed Original ResearchFinal infarct sizeCT perfusion imagingInfarct sizeStroke onsetHyperacute strokeDWI volumePerfusion imagingFinal infarct volumeBrain CT scanningHyperacute stroke patientsSame patient populationMR-Diffusion Weighted ImagingSteady-state administrationCT angiographic imagesDiffusion-Weighted ImagingDWI imagingInfarct volumeConsecutive patientsIndependent predictorsIschemic volumeStroke patientsPatient populationCTP imagingBlood volumePatients
1998
Assessment of cerebral perfusion and arterial anatomy in hyperacute stroke with three-dimensional functional CT: early clinical results.
Hunter G, Hamberg L, Ponzo J, Huang-Hellinger F, Morris P, Rabinov J, Farkas J, Lev M, Schaefer P, Ogilvy C, Schwamm L, Buonanno F, Koroshetz W, Wolf G, González R. Assessment of cerebral perfusion and arterial anatomy in hyperacute stroke with three-dimensional functional CT: early clinical results. American Journal Of Neuroradiology 1998, 19: 29-37. PMID: 9432154, PMCID: PMC8337333.Peer-Reviewed Original ResearchConceptsHyperacute strokeFunctional CTIschemic changesEarly clinical resultsCerebral blood volumeContrast-enhanced scansHelical CT techniqueOcclusion of vesselsHyperacute groupCerebral perfusionPBV mapsArterial anatomyPatient populationBrain stemClinical resultsCT angiogramContrast administrationRegional perfusionCT angiographyBlood volumePatientsPBV valuesWhite matterGray matterClinical feasibility