Oxygen Transport

Beschreibung

Physiology 1B (Respiratory) Mindmap am Oxygen Transport, erstellt von Daniel Elandix G am 06/09/2013.
Daniel Elandix G
Mindmap von Daniel Elandix G, aktualisiert more than 1 year ago
Daniel Elandix G
Erstellt von Daniel Elandix G vor mehr als 11 Jahre
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Zusammenfassung der Ressource

Oxygen Transport
  1. Composition of Alveolar Air At Rest

    Anmerkungen:

    • Average: Oxygen: 100mmhg Carbon dioxide: 40mmHg Water Vapour: 47mmHg Nitrogen: 573mmHg
    1. Venous And Arterial Blood Gas Tension

      Anmerkungen:

      • Blood composition changes as it passes thru the lungs, gas exchange at the alveoli. Blood coming from Pulmonary Artery: Oxygen: 40mmHg Carbon Dioxide: 47mmHg Blood coming from lungs into pulmonary vein: Oxygen: 100mmHg Carbon Dioxide: 40 mmHg Arterial blood:Blood from pulmonary arteries with bronchial veins and left ventricle.Oxygen: 95mmHgCarbon Dioxide: 40 mmHg
      1. Blood Oxygen Transport

        Anmerkungen:

        • Dissolved and carried in blood in 2 forms: Dissolved Combined with haemoglobin
        1. Haemoglobin

          Anmerkungen:

          • Molecular weight of 64450KDs, 4 subunits which also consists of a haem molecule connected in a polypeptide chain. 2 alpha chains (141aa) and 2 beta chains (146 aa) The haem molecule consists of a porphyrin derivatiive and one atom of Ferrous Fe2+.
          1. Quarternary Structure

            Anmerkungen:

            • Quarterany structure aids in loading of the oxygen molecules. Available in 2 states Tense and Relaxed. It is also allosteric. I.e when one molecule binds, it enables the other molecules to bind to them easier.
        2. Oxygen capacity, saturation and content

          Anmerkungen:

          • 3 terms to remember: Oxygen Capacity: Amt of o2 which can combined with Hb. at normal its 15g/100ml. Oxygen Saturation: Percentage of available binding sites for Hb to attach. Saturation Formula: O2 with Hb/O capacity X 100 Oxygen Content: Amt of molecular oxygen that is released after destroying binding power of Hb.
          1. Equation to determine O2 content

            Anmerkungen:

            • (1.34 X Hb X Sat/100)+ 0.003 X Partial Pressure Oxygen Saturation is 97.5% for normal Hb 1.34 is constant for Hb 0.003 is the solution constant for Oxygen
          2. Hb-O2 equilibrium curve

            Anmerkungen:

            • Important factors that shift the curve to the right. increase in H conc i.e pH decreases Increases in temperature Increases in carbon dioxide conc increase in 2,3 diphosphoglycerate (2,3 DPG) notable points Partial pressure of oxygen vs % Saturation 0 vs 0 20 vs 35 27 vs 50 40 vs 75 100 vs 97.5 Flat upper portion shows the o2 loading of the lungs The steep lower portion shows the o2 diffusion into the tissues.
            1. Bohr Effect

              Anmerkungen:

              • Shift the OEC due to the change in blood pH and Co2. hydrogen ions bind to the histidine residues on Hb and hence initiates conformational changes and it decreases affinity towards oxygen This leads to enhanced oxygenation of blood in the lungs and release of oxygen in tissues.
              1. 2,3 DPC

                Anmerkungen:

                • Produced by glycolysis of RBC binds to deoxyHB therefore decrease affinity of oxygen binding.
              2. Haemoglobin vs Myoglobin

                Anmerkungen:

                • Different type, oxygen storage in muscle.  Binds to one oxygen
                1. CO poisoning

                  Anmerkungen:

                  • CO has higher affinity to Hb. Forms carboxylhaemoglobin. Symptoms of patient will be hypoxic. But no cyanosis. COHb will be cherry red in color.
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