Proceedings of the International School of Physics "Enrico Fermi.", Volume 76N. Zanichelli, 1981 - Nuclear physics |
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Page 301
Oxygen Transport . C. E. W. HAHN Nuffield Department of Anaesthetics , University of Oxford , Radcliffe Infirmary Oxford , OX2 6HE , England 1 . - Introduction . This lecture will discuss ... Oxygen transport Introduction Oxygen utilization.
Oxygen Transport . C. E. W. HAHN Nuffield Department of Anaesthetics , University of Oxford , Radcliffe Infirmary Oxford , OX2 6HE , England 1 . - Introduction . This lecture will discuss ... Oxygen transport Introduction Oxygen utilization.
Page 302
oxygen . But , sufficient quantities of O , cannot be carried simply in solution ; if blood contained only dissolved oxygen , man would need a ... oxygen saturation of haemoglobin 302 C. E. W. HAHN Dissolved oxygen Haemoglobin and oxygen.
oxygen . But , sufficient quantities of O , cannot be carried simply in solution ; if blood contained only dissolved oxygen , man would need a ... oxygen saturation of haemoglobin 302 C. E. W. HAHN Dissolved oxygen Haemoglobin and oxygen.
Page 304
... Oxygen content . The blood oxygen content is simply the sum of the oxygen chemically combined with haemoglobin and the oxygen physically dissolved in plasma . Thus content S 100 n = { ( 1,31 [ HD ] + PO , } { 1.34 [ Hb ] + aPO , ml 0 ...
... Oxygen content . The blood oxygen content is simply the sum of the oxygen chemically combined with haemoglobin and the oxygen physically dissolved in plasma . Thus content S 100 n = { ( 1,31 [ HD ] + PO , } { 1.34 [ Hb ] + aPO , ml 0 ...
Contents
A R D THORNTON | 1 |
Physicists and clinicians | 5 |
The Fourier transform properties of an image | 12 |
Copyright | |
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alveolar amplitude analysis aorta aortic approximately arterial pressure arterial system attenuation value basilar membrane beam blood flow blood pressure C₁ capillary cardiac output circulation clinical cm³ CO₂ cochlea cochlear compartment compliance components computed tomography concentration constant counting rate cross-section cuff decrease detector diameter diastolic distribution effect elastin electrode energy equation filter fluid Fourier transform frame frequency function haemoglobin hair cells halothane heart rate impulse response increase left heart linear linear-attenuation coefficient lung manometer measured medical physics membrane method mmHg muscle normal obtained oxygen P₁ P₂ pacemaker patient peripheral resistance photons physicist physiological pulmonary pulsatile pulse ratio region Rendiconti S.I.F. sample scan scanner segment shown in fig shows signal stroke volume systolic techniques tissues transducer transmural pressure tube ultrasonic V₁ velocity venous system ventilation ventricle ventricular vessel viscoelastic volume wall wave form Windkessel X-ray zero