Search results for "Perflubron"

showing 2 items of 2 documents

Ventilation-Perfusion Ratio in Perflubron During Partial Liquid Ventilation

2010

BACKGROUND: Functional magnetic resonance imaging (fMRI) of fluorine-19 allows for the mapping of oxygen partial pressure within perfluorocarbons in the alveolar space (Pao(2)). Theoretically, fMRI-detected Pao(2) can be combined with the Fick principle approach, i.e., a mass balance of oxygen uptake by ventilation and delivery by perfusion, to quantify the ventilation-perfusion ratio (Va/Q) of a lung region: The mixed venous blood and the inspiratory oxygen fraction, which are equal for all lung regions, are measured. In addition, the local expiratory oxygen fraction and the end capillary oxygen content, both of which may differ between the lung regions, are calculated using the fMRI-detec…

Fluorine RadioisotopesLiquid VentilationSwineContrast Mediachemistry.chemical_elementVentilation/perfusion ratioOxygenFick principleBody Temperaturechemistry.chemical_compoundVentilation-Perfusion RatioAnimalsHumansMedicineComputer SimulationFluorocarbonsbusiness.industryPerflubronHemodynamicsOxygen transportPartial pressureMagnetic Resonance ImagingHydrocarbons BrominatedOxygenPulmonary AlveoliAnesthesiology and Pain MedicinechemistryAnesthesiaBreathingPulmonary Diffusing CapacitybusinessNuclear medicineBlood Gas Monitoring TranscutaneousPerfusionAlgorithmsAnesthesia & Analgesia
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19F-MRI of perflubron for measurement of oxygen partial pressure in porcine lungs during partial liquid ventilation

2001

A method for in vivo measurement of oxygen partial pressure (pO2) in porcine lungs during partial liquid ventilation (PLV) with perflubron (PFOB) was developed. A pulse sequence for high-resolution MRI of the distribution of PFOB in the lung after intratracheal administration was developed as well. Moreover, quantitative measurements of longitudinal relaxation time T(1) of (19)F resonances for assessment of regional pO2 are described. Due to the need to acquire data during a single expiratory breathhold, only low SNRs were achieved in vivo. Therefore, simulations were performed to investigate the influence of background noise on T(1) values calculated from data with low SNR. Based on these …

medicine.diagnostic_testChemistryPerflubronbusiness.industryMagnetic resonance imagingPartial pressureBackground noisechemistry.chemical_compoundIn vivomedicineRadiology Nuclear Medicine and imagingPartial liquid ventilationRespiratory systemNuclear medicinebusinessLongitudinal Relaxation TimeBiomedical engineeringMagnetic Resonance in Medicine
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