Criado por Hannah Tribe
mais de 10 anos atrás
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Questão | Responda |
In which foods can potassium be found? | Leafy vegetables, most fruit and fruit juice, potatoes |
Where is concentration of potassium highest, intra or extra cellularly? | Intracellularly |
What is meant by acute regulation of K+? | The distribution of K+ between intracellular and extracellular compartments. |
What is meant by chronic regulation of K+? | The kidneys adjusting excretion and reabsorption of K+. |
What are the 3 functions of K+? | 1. Determines the osmolality of intracellular fluid and therefore also the fluid volume 2. Determines RMP 3. Affects vascular resistance |
How is the intracellular K+ mostly maintained? | By Na+/K+ ATPase pumps in the membranes of cells. |
Name 3 hormones that help regulate K+. | 1. Insulin 2. Aldosterone 3. Adrenaline |
Which equation is used to calculate the membrane potential based on intra and extra cellular concentrations of an ion? | The Nernst Equation |
What is the boundary for hyperkalaemia? | plasma concentration K+ > 5.5mM |
What is the boundary for hypokalaemia? | Plasma concentration K+ < 3.5mM |
What is particularly affected by changes in plasma K+ concentration? | Firing of action potentials |
How is this changed in hyperkalaemia? | There is easier depolarisation as RMP is less negative, so it is easier to reach threshold. |
How is it changed in hypokalaemia? | Membranes are harder to depolarise, as RMP is more negative and therefore further away from threshold (hyperpolarised). |
Where can this be particularly dangerous? | In cardiac tissue, as the depolarisation/repolarisation pattern in the membrane potentials is what gives the normal cardiac rhythm on an ECG. |
What can cause hypokalaemia? (4) | 1. Long-term use of diuretics without KCl compensation 2. Hyperaldosteronism 3. Prolonged vomiting causing Na+ loss and therefore aldosterone causing K+ excretion 4. Profuse diarrhoea |
What is the hormonal effect of hypokalaemia? | Decreased release of insulin, aldosterone and adrenaline |
What causes hyperkalaemia? (3) | 1. Insufficient renal excretion 2. Increased release from damaged cells (chemotherapy, prolonged exercise, severe burns etc.) 3. Addison's disease |
When does hyperkalaemia become particularly dangerous? | Plasma K+ concentration > 7mM causes asystolic cardiac arrest |
What can be given to stimulate K+ influx back into cells in this case? | Insulin to stimulate Na+/K+ ATP ase pumps |
What should also be given and why? | Glucose to prevent hypoglycaemia |
In treatments for CVD, what are the associated risks? | 1. Risk of hyperkalaemia when drugs such as beta blockers and ACE inhibitors are used (decrease activity of Na+/K+ ATPase pumps, prevent secretion of aldosterone) 2. Risk of hypokalaemia when loop diuretics used (increases K+ excretion) |
In the kidneys, ___ and ____ are filtered freely, then ___________. The ________ of this in the __ __ __ is always more or less constant. | Na+ and K+, reabsorbed, fraction, PCT |
What mechanisms allow K+ transport in the PCT? (3) | 1. Na+/K+ ATPase pumps in the basolateral membrane, 2. K+ channels in the basolateral membrane, 3. Passive flow paracellularly between tight junctions. |
What mechanisms allow transport of K+ in the thick ascending limb of the Loop of Henle? (3) | 1. Na+/K+ ATPase pumps on the basolateral surface 2. K+ channels on the basolateral surface 3. Na+/K+ symporter on the apical surface |
What mechanisms allow transport of K+ in the DCT? (3) | 1. Na+/K+ ATPase pumps on the basolateral surface 2. K+ channels on both the basolateral and the apical surfaces 3. Possibly a Cl-/K+ symporter on the apical surface |
How is secretion of K+ back into the tubule encouraged in the DCT? | ENaCs (epithelial Na+ channels) cause influx of Na+ so encourage efflux of K+ through K+ channels on the apical surface. |
What are the effects of aldosterone on K+ secretion? | 1. Increases activity of Na+/K+ ATPase pumps (intracellular concentration of K+ rises so increases concentration gradient) 2. Increases number of ENaCs so increases electrochemical gradient 3. Increases permeability of the apical membrane to K+ |
What stimulates secretion of aldosterone? | Increased plasma concentration of K+ |
What else can enhance K+ secretion? | Faster flow rate in the tubular lumen, as this removes the K+ more quickly and maintains a high concentration gradient. |
What is thought to be the mechanism in place in severe hypokalaemia? | Reabsorption of K+ by the alpha-intercalated cells of the collecting ducts by a K+/H+ ATP antiporter. |
What effect does the plasma pH have on K+? | In alkalosis, Na+/K+ATPase pumps work faster so can lead to hypokalaemia. In acidosis, these pumps slow down so K+ shifts to extracellular compartment and leads to hyperkalaemia. |
How does Addison's disease cause imbalance of Na+/K+? | Deficiency of aldosterone, so K+ shifts out of cells (resulting in hyperkalaemia) |
What is Conn's syndrome? | Hyperaldosteronism due to adenoma in adrenal cortex secreting aldosterone uncontrollably. |
How does this disrupt K+ balance? | Too much aldosterone causes increased Na+ reabsorption and K+ excretion, resulting in hypokalaemia and hypernatraemia (leading to hypertension). |
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