2009
Feasibility of NIRS in the Neurointensive Care Unit: A Pilot Study in Stroke Using Physiological Oscillations
Muehlschlegel S, Selb J, Patel M, Diamond S, Franceschini M, Sorensen A, Boas D, Schwamm L. Feasibility of NIRS in the Neurointensive Care Unit: A Pilot Study in Stroke Using Physiological Oscillations. Neurocritical Care 2009, 11: 288. PMID: 19649749, PMCID: PMC2782535, DOI: 10.1007/s12028-009-9254-4.Peer-Reviewed Original ResearchConceptsCare unitStroke patientsPhysiological oscillationsHemoglobin concentrationMicrovascular hemodynamicsPilot studyIschemic brain injuryNeurointensive care unitNeurocritical care unitPre-hospital settingRespiratory oscillationsWarrants further validationAbsolute hemoglobin concentrationResultsNine patientsCerebral perfusionHemispheric strokeBrain injuryHealthy controlsFuture clinical applicationsPatientsOwn controlClinical feasibilityBedside modalityContinuous-wave NIRSClinical application
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