Search results for "Xenon isotopes"

showing 6 items of 6 documents

MRI using hyperpolarized noble gases.

1998

The aim of this study was to review the physical basis of MRI using hyperpolarized noble gases as well as the present status of preclinical and clinical applications. Non-radioactive noble gases with a nuclear spin 1/2 (He-3, Xe-129) can be hyperpolarized by optical pumping. Polarization is transferred from circularly polarized laser light to the noble-gas atoms via alkali-metal vapors (spin exchange) or metastable atoms (metastability exchange). Hyperpolarization results in a non-equilibrium polarization five orders of magnitude higher than the Boltzmann equilibrium compensating for the several 1000 times lower density of noble gases as compared with liquid state hydrogen concentrations in…

In vivo magnetic resonance spectroscopyAdultLung Diseasesmedicine.medical_specialtyQuantitative Biology::Tissues and OrgansPhysics::Medical PhysicsGuinea Pigschemistry.chemical_elementHeliumNoble GasesOptical pumpingMiceXenonNuclear magnetic resonanceIsotopesMetastabilitymedicineIsotopes of xenonImage Processing Computer-AssistedAnimalsHumansRadiology Nuclear Medicine and imagingHyperpolarization (physics)LungHeliumBrain Diseasesmedicine.diagnostic_testbusiness.industryBrainMagnetic resonance imagingGeneral MedicineImage EnhancementMagnetic Resonance ImagingchemistryXenon IsotopesFemaleRadiologybusinessNuclear medicineEuropean radiology
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Helium-3 imaging of pulmonary ventilation.

1998

In the first studies in humans, the 3He gas was Helium is an inert, non-radioactive, noble gas. directly inhaled from the glass cell or via a mouth 3He is a rare isotope with a nuclear spin c. As it tip or plastic bag [2, 3]. The estimated inhaled is derived from tritium decay, it is quite expensive. volume in our studies was 400–500 ml. Recently, Non-polarized 3He costs 100–150 US$. Advanwe developed a computer-assisted application tages for applications in humans are: negligible system which is compatible with spontaneous solubility in water or blood, no adverse effects — breathing, assisted or mechanical ventilation. The widely used in deep-sea diving (80% He, 20% lungs can be flushed wi…

Lung DiseasesHelmholtz coilMaterials sciencebusiness.industryContrast Mediachemistry.chemical_elementField strengthGeneral MedicineLaserHeliumMagnetic Resonance Imaginglaw.inventionOptical pumpingchemistrylawHelium-3HumansXenon IsotopesRadiology Nuclear Medicine and imagingHyperpolarization (physics)Atomic physicsNuclear medicinebusinessHyperfine structureHeliumThe British Journal of Radiology
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Imaging of a mixture of hyperpolarized 3He and 129Xe.

2004

Abstract With the use of hyperpolarized gases, a great number of experiments have been carried out in order to improve the diagnostics of the lung, both from a structural and a functional point of view. 3 He is best suited for structural studies, whereas 129 Xe gives more detailed information about the functionality of the lung because it enters the bloodstream. In this work, we propose the use of a gas mixture to perform consecutive analysis of lung structure and functionality upon the delivery of a single bolus of gas. We show images of a helium–xenon gas mixture in the presence of a small amount of liquid toluene in order to demonstrate how both nuclei can be detected independently, extr…

Magnetic Resonance SpectroscopyChemistryBiomedical EngineeringBiophysicsrespiratory systemIn Vitro TechniquesHeliumrespiratory tract diseasesLung structureMiceNuclear magnetic resonanceSingle bolusIsotopesAnimalsXenon IsotopesRadiology Nuclear Medicine and imagingComputer SimulationMouse LungLungBiomedical engineeringMagnetic resonance imaging
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Magnetic resonance imaging of dissolved hyperpolarized 129Xe using a membrane-based continuous flow system.

2009

Abstract A technique for continuous production of solutions containing hyperpolarized 129Xe is explored for MRI applications. The method is based on hollow fiber membranes which inhibit the formation of foams and bubbles. A systematic analysis of various carrier agents for hyperpolarized 129Xe has been carried out, which are applicable as contrast agents for in vivo MRI. The image quality of different hyperpolarized Xe solutions is compared and MRI results obtained in a clinical as well as in a nonclinical MRI setting are provided. Moreover, we demonstrate the application of 129Xe contrast agents produced with our dissolution method for lung MRI by imaging hyperpolarized 129Xe that has been…

Nuclear and High Energy PhysicsPulmonary Circulationmedicine.diagnostic_testContinuous flowChemistryPhantoms ImagingBiophysicsLung perfusionMagnetic resonance imagingBiocompatible MaterialsMembranes ArtificialCondensed Matter PhysicsBiochemistryMagnetic Resonance ImagingImaging phantomSolutionsMembraneNuclear magnetic resonancemedicineImage Processing Computer-AssistedRespiratory MechanicsXenon IsotopesHyperpolarization (physics)LungJournal of magnetic resonance (San Diego, Calif. : 1997)
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Functional MR imaging of pulmonary ventilation using hyperpolarized noble gases.

2000

The current status of experimental and clinical applications for functional MR imaging of pulmonary ventilation using hyperpolarized noble gases are reviewed. 3-helium (3He) and 129-xenon (129Xe) can be hyperpolarized by optical pumping techniques such as spin exchange or metastability exchange in sufficient amounts. This process leads to an artificial, non-equilibrium increase of the density of excited nuclei which represents the source of the MR signal. Those hyperpolarized gases are administered mostly via inhalation, and will fill airways and airspaces allowing for ventilation imaging. Recent human studies concentrate on imaging the airways and airspaces with high spatial resolution. N…

Respiratory physiologyVentilation/perfusion ratioHeliumNuclear magnetic resonanceIsotopesmedicineVentilation-Perfusion RatioHumansRadiology Nuclear Medicine and imagingHyperpolarization (physics)Lungmedicine.diagnostic_testInhalationRadiological and Ultrasound Technologybusiness.industryPulmonary Diffusing CapacityNoble gasMagnetic resonance imagingGeneral MedicineMagnetic Resonance ImagingBreathingPulmonary Diffusing CapacityXenon IsotopesNuclear medicinebusinessPulmonary VentilationActa radiologica (Stockholm, Sweden : 1987)
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Direct mass measurements on neutron-deficient xenon isotopes with the ISOLTRAP mass spectrometer

2002

The masses of Xe isotopes with 124 A 114 have been measured using the ISOLTRAP spectrometer at the on-line mass separator ISOLDE/CERN. A mass resolving power of 500000 was chosen resulting in an accuracy of m 12 keV for all isotopes investigated. Con icts with existing mass data of several standard deviations were found. peerReviewed

massaspektrometriaatomic massesXenon isotopesPhysics::Instrumentation and Detectorspenning trapNuclear Experimentradioactive ions
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