Results 211 to 220 of about 237,789 (260)
A robust technique for gas-exchange measurements using petiole-cut Arabidopsis leaves in a whole plant chamber. [PDF]
Kinoshita SN, Finkemeier I.
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A Validated CFD Model for Gas Exchange in Hollow Fiber Membrane Oxygenators: Incorporating the Bohr and Haldane Effects. [PDF]
Monsefi Estakhrposhti SH +3 more
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Erratum to "Abnormal Exercise Gas Exchange Before Pulmonary Emboli Diagnosis". [PDF]
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Seminars in Respiratory and Critical Care Medicine, 2023
AbstractGas exchange in the lung depends on tidal breathing, which brings new oxygen to and removes carbon dioxide from alveolar gas. This maintains alveolar partial pressures that promote passive diffusion to add oxygen and remove carbon dioxide from blood in alveolar capillaries.
Johan, Petersson, Robb W, Glenny
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AbstractGas exchange in the lung depends on tidal breathing, which brings new oxygen to and removes carbon dioxide from alveolar gas. This maintains alveolar partial pressures that promote passive diffusion to add oxygen and remove carbon dioxide from blood in alveolar capillaries.
Johan, Petersson, Robb W, Glenny
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Journal of Experimental Zoology, 1974
AbstractAnalysis of the determinants of oxygen exchange in Ceriantheopsis americanus, a tubicolous anthozoan, indicates that in the natural habitat the site of oxygen entry is restricted to the tentacular crown. Predicted rates of oxygen diffusion solely across the marginal tentacles are sufficient to account for observed uptake rates in intact animals.
C, Sassaman, C P, Mangum
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AbstractAnalysis of the determinants of oxygen exchange in Ceriantheopsis americanus, a tubicolous anthozoan, indicates that in the natural habitat the site of oxygen entry is restricted to the tentacular crown. Predicted rates of oxygen diffusion solely across the marginal tentacles are sufficient to account for observed uptake rates in intact animals.
C, Sassaman, C P, Mangum
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Current Opinion in Critical Care, 2009
We report on recent advances and achievements on the use of extracorporeal gas exchange for long-term application in the therapy of critically ill patients with various forms of respiratory failure.The most important results regarding the use of extracorporeal gas exchange are expected from the Conventional Ventilatory Support vs.
PESENTI, ANTONIO MARIA +2 more
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We report on recent advances and achievements on the use of extracorporeal gas exchange for long-term application in the therapy of critically ill patients with various forms of respiratory failure.The most important results regarding the use of extracorporeal gas exchange are expected from the Conventional Ventilatory Support vs.
PESENTI, ANTONIO MARIA +2 more
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Comprehensive Physiology, 2011
Abstract Hibernation in endotherms and ectotherms is characterized by an energy‐conserving metabolic depression due to low body temperatures and poorly understood temperature‐independent mechanisms. Rates of gas exchange are correspondly reduced.
William K, Milsom, Donald C, Jackson
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Abstract Hibernation in endotherms and ectotherms is characterized by an energy‐conserving metabolic depression due to low body temperatures and poorly understood temperature‐independent mechanisms. Rates of gas exchange are correspondly reduced.
William K, Milsom, Donald C, Jackson
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Journal of Aerosol Medicine, 1996
The primary function of the lungs is to exchange the respiratory gases, O2 and CO2, between the atmosphere and the blood. Our overall understanding of the lungs as a gas-exchanging organ has improved considerably over the past four decades. We now know that the dynamics of gas exchange depend on the blood solubility (beta b, ml gas ml blood-1 atm-1) of
S C, George +3 more
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The primary function of the lungs is to exchange the respiratory gases, O2 and CO2, between the atmosphere and the blood. Our overall understanding of the lungs as a gas-exchanging organ has improved considerably over the past four decades. We now know that the dynamics of gas exchange depend on the blood solubility (beta b, ml gas ml blood-1 atm-1) of
S C, George +3 more
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2005 IEEE Engineering in Medicine and Biology 27th Annual Conference, 2005
The paper describes three types of artificial gas exchange techniques for respiratory failure; extracorporeal membrane oxygenation (ECMO) for acute respiratory failure address the problem of oxygenation and CO2 removal; arteriovenous carbon dioxide removal (AVCO 2) for acute and respiratory failure with residual function, achieve total CO2 removal ...
Dongfang, Wang +2 more
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The paper describes three types of artificial gas exchange techniques for respiratory failure; extracorporeal membrane oxygenation (ECMO) for acute respiratory failure address the problem of oxygenation and CO2 removal; arteriovenous carbon dioxide removal (AVCO 2) for acute and respiratory failure with residual function, achieve total CO2 removal ...
Dongfang, Wang +2 more
openaire +2 more sources

