Search results for "Pulmonary Diffusing Capacity"

showing 6 items of 6 documents

Early Lung Function Abnormalities in Acromegaly.

2014

BACKGROUND: Acromegaly is an insidious disorder caused by a pituitary growth hormone (GH)-secreting adenoma resulting in high circulating levels of GH and insulin-like growth factor I (IGF-I). Respiratory disorders are common complications in acromegaly, and can severely impact on quality of life, eventually affecting mortality. OBJECTIVES: The present study aimed to explore structural and functional lung alterations of acromegalic subjects. METHODS: We enrolled 10 consecutive patients (M/F: 5/5) affected by acromegaly. In all patients, magnetic resonance imaging (MRI) revealed the presence of pituitary tumor. All patients underwent clinical, lung functional, biological, and radiological as…

AdultLung DiseasesMalePulmonary and Respiratory MedicinePathologymedicine.medical_specialtyTime FactorsAdenomaVital CapacitySettore MED/10 - Malattie Dell'Apparato RespiratorioGastroenterologyspirometry dyspnea acromegalySettore MED/13 - EndocrinologiaPredictive Value of TestsDLCOForced Expiratory VolumeDiffusing capacityInternal medicineAcromegalymedicineHumansLung volumesRespiratory systemLungAgedLungbusiness.industryPituitary tumorsMiddle Agedrespiratory systemmedicine.diseaseMagnetic Resonance Imagingrespiratory tract diseasesRadiographyEarly Diagnosismedicine.anatomical_structureCase-Control StudiesPulmonary Diffusing CapacityFemaleGrowth Hormone-Secreting Pituitary AdenomaLung Volume Measurementsbusiness

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Diffusion capacity of the lung in young and old endurance athletes

2013

Lung diffusion capacity (D LCO) declines with age. A significant proportion of older endurance athletes develop exercise-induced hypoxemia (SaO2<95%). We hypothesised that master endurance athletes have a lower D LCO than age-matched non-athletes. We recruited 33 control (16 young; 17 old) and 29 male endurance athletes (13 young; 16 old) during the World Masters Athletics Indoor Championships, 2012 (Jyvaskyla, Finland). To measure D LCO the participant exhaled to residual volume and then quickly inhaled to ≥ 90% total lung capacity from a gas source with 0.3% carbon monoxide. The D LCO and transfer coefficient (K CO) were corrected for the actual haemoglobin concentration. Spirometric func…

AdultMaleSpirometrymedicine.medical_specialtymasther athletesPhysical Therapy Sports Therapy and RehabilitationYoung AdultInternal medicinemedicineHumansOrthopedics and Sports MedicineLung volumesYoung adultResidual volumeLungAgedWeltraumphysiologieCarbon MonoxideLungmedicine.diagnostic_testbiologybusiness.industryAthletesAge FactorsFEVtransfer coefficientbiology.organism_classificationLung diffusion capacityCross-Sectional Studiesmedicine.anatomical_structureAthletesSpirometryPhysical EndurancePhysical therapyCardiologyPulmonary Diffusing Capacitybusinessduffusion capacity

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Clinical aspects of the apparent diffusion coefficient in 3He MRI: results in healthy volunteers and patients after lung transplantation.

2007

Purpose To measure the apparent diffusion coefficient (ADC) after inhalation of hyperpolarized 3He in healthy volunteers and lung transplant recipients, and demonstrate the gravity dependence of ADC values. Materials and Methods Six healthy volunteers, 10 patients after single-lung transplantation, and six patients after double-lung transplantation were examined at 1.5T during inspiration and expiration. The inhalation of 300 mL of hyperpolarized 3He was performed with a computer-controlled delivery device. A two-dimensional fast low-angle shot (FLASH) sequence measured the 3He diffusive gas movement. From these data the ADC was calculated. Results The mean ADC was 0.143 cm2/second in healt…

AdultMalemedicine.medical_specialtymedicine.medical_treatmentPulmonary FibrosisHeliumAdministration InhalationmedicineImage Processing Computer-AssistedLung transplantationEffective diffusion coefficientHumansRadiology Nuclear Medicine and imagingLung emphysemaExpirationProspective StudiesLungInhalationbusiness.industryrespiratory systemMiddle Agedrespiratory tract diseasesbody regionsTransplantationmedicine.anatomical_structureDiffusion Magnetic Resonance ImagingPulmonary EmphysemaBreathingPulmonary Diffusing CapacityFemaleRadiologybusinessNuclear medicineLung TransplantationJournal of magnetic resonance imaging : JMRI

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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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Determination Of Pulmonary Parameters (V̇A, $$ {D_{{L_{{O^2}}}}} $$ ) From Arterial O2 and CO2 Partial Pressures During Exercise

1984

The arterial O2 and CO2 partial pressures mainly depend on the ventilation-perfusion ratio VA/Q and on the O2 diffusing capacity-perfusion ratio DLO2/Q. According to RAHN’s VA/Q concept, the dependence of the alveolar O2 and CO2 partial pressures on the ventilation-perfusion ratio can be determined graphically, and displayed in the form of a diagram (2,3). However, the application of the RAHN diagram is limited by the fact that during the passage of the blood through the lung capillaries, a complete adjustment of the capillary O2 partial pressure to the alveolar value frequently does not occur. This is particularly valid for gas exchange during exercise. For this case, the alveolar-endcapil…

Lungmedicine.anatomical_structureCarbon dioxide bloodChemistryCapillary actionPulmonary Diffusing CapacityDiagrammedicineThermodynamicsPartial pressureBicycle ergometerrespiratory systemVentilation/perfusion ratio

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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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