acid/base Flashcards
renal acid/base regulation
acidosis = increased H+ secretion from nephron and therefore reabsorption of HCO3-
alkalosis = reduced secretion of H+ from nephron and reduced reabsorption of HCO3-
difference between stimuli of O2 and CO2 to ventilate
PaO2 is a nonlinear stimulus to ventilation
PaCO2 is a linear, potent stimulus to ventilation
respiratory regulation and receptors
- arterial Pco2 and pH are sensed by chemoreceptors in brain and aortic and carotid bodies
- increased Pco2 and reduced pH stimulate ventilatory drive and vice versa (central receptors)
- hypoxia also acts as a potent stimulus for ventilatory drive (peripheral chemoreceptors)
bicarbonate reabsorption by the kidney
- directly related to PaCO2
- inversely related to plasma levels of plasma (K+) and (Cl-)
- increased by increased plasma levels of adrenal corticosteroids e.g. cushing’s disease
give the arterial blood samples for metabolic alkalosis with respiratory compensation
high pH
high Pco2
high HCO3-
+ve BE
give the arterial blood samples for metabolic acidosis with respiratory compensation
low pH
low Pco2
low HCO3-
-ve BE
give the arterial blood samples for mixed respiratory acidosis and metabolic acidosis
low pH
high Pco2
low HCO3-
-ve BE
alveolar gas equation and what it shows
PAO2 = 150 - (PACO2 / 0.8) + 2
larger A-a gradient due to impaired diffusion
how do you differentiate metabolic acidosis causes
- in acidosis with mixed acid, protons are buffered by HCO3-
- where anion of fixed acid generated is Cl (diarrhoea, renal dysfunction)
AG = Na - (↑↑Cl + ↓↓HCO3-) = normal - where anion of fixed acid generated is not Cl (DKA, lactic acidosis)
AG = Na — (Cl + ↓↓HCO3-) = ↑AG
when is HCO3 excreted by the kidney
when plasma bicarbonate is >24mmols/L
