Pharmacology

Question 1

name 6 classes of drugs which act on the kidney

Answer 1

diuretics
vasopressin receptor agonists/antagonists
SGLT2 (sodium-glucose co-transporter 2 inhibitors)
uricosuric drugs (promote excretion of uric acid)
drugs for renal failure
drugs altering pH of urine

Question 2

what do diuretics do?

Answer 2

increase urine flow, normally by inhibiting reabsorption o electrolytes (sodium) in nephron
enhance excretion of salt and water in conditions where increased volume of ECF (e.g oedema/tissue swelling)

Question 3

what causes oedema?

Answer 3

imbalance between rate of secretion and absorption of interstitial fluid
- hydrostatic pressure in capillary (Pc)
hydrostatic pressure in interstitial fluid (Pi)
- oncotic pressure of plasma (Mp)
- oncotic pressure of interstitial fluid (Mi)

Question 4

calculation for formation of interstitial fluid?

Answer 4

(Pc-Pi) - (Mp - Mi)

Question 5

name 3 disease states which can increase Pc or decrease Mp

Answer 5

nephrotic syndrome
congestive heart failure
hepatic cirrhosis with ascites

Question 6

what causes nephrotic syndrome?

Answer 6

disorder of glomerular filtration allowing for large proteins (mainly albumin) to appear in urine

Question 7

is protein in the urine always abnormal?

Answer 7

no

small proteins can occur in urine after heavy exercise

Question 8

how does decreased plasma oncotic pressure cause oedema/

Answer 8

decreased Mp > increased formation of interstitial fluid > reduced blood volume and CO > activation of the RAAS > aldosterone and angiotensin II cause Na+ and H2O retention > only salt and water added back, not protein so protein concentration in the blood is diluted > reduces plasma oncotic pressure even further and increases Pc > oedema

Question 9

how does heart failure cause oedema?

Answer 9

reduced CO > renal hypoperfusion > activation of RAAS > blood volume expands and protein conc decreases > increased Pc and decreased Mp > oedema

Question 10

how does cirrhosis cause ascites?

Answer 10

increased pressure at portal vein + decreased albumin production > loss of fluid into peritoneal cavity > oedema/ascites > RAAS activated

Question 11

how do diuretics work (diagram)?

Answer 11

..

Question 12

how is Na+ reabsorbed in the proximal tubule and what blocks this?

Answer 12

Na+/H+ exchange
blocked by carbonic anhydrase inhibitors (diuretics)
- site of 70% of sodium reabsorption

Question 13

how is Na+ reabsorbed in the thick ascending limb of loop of henle and what blocks this?

Answer 13

triple co-transporter - Na+/K+/2Cl-

blocked by loop diuretics

Question 14

how is sodium reabsorbed in the early distal tubule?

Answer 14

Na+/H+ exchange
- blocked by CA inhibitors
Na+/Cl- (mainly)
- blocked by thiazide diuretics

Question 15

how is Na+ reabsorbed in the collecting tubule and duct?

Answer 15

Na+/K+ exchange

- blocked by potassium sparing diuretics

Question 16

what type of diuretic can cause hypokalaemia?

Answer 16

any which increases reabsorption of Na+ in distal tubule (apart from potassium sparing ones)

Question 17

a small inhibition of reuptake of NaCl can cause a large increase in Na+ excretion, true or false?

Answer 17

true

- as so much sodium is filtered

Question 18

where do most diuretics act?

Answer 18

apical membrane of tubular cells

- therefore must enter the filtrate to act on these cells

Question 19

how can diuretics enter the filtrate?

Answer 19

glomerular filtration (cant enter glomerular filtration if bound to large plasma proteins)
organic anion transporter (transport acidic drugs - thiazides and loops)
organic cation transporter (transport basic drugs - triamterene and amiloride)

Question 20

secretion of diuretic into the filtrate allows what?

Answer 20

concentrate the diuretic in the filtrate (urine)

gives pharmacological selectiveness of the drug (makes sure it only works in renal system)

Question 21

describe the organic anion transporter

Answer 21

basolateral and apical transport processes
basolateral
- anions enter cell against conc gradient in exchange for α-KG via OAT channels
- α-KG enters cell against conc gradient via NaDC3 transporter
apical membrane
- once in the cell, anion crosses to the lumen via multidrug resistance proteins 2 and 4 and BCRP via primary active transport
- anion crosses from the lumen via OAT4 channel in exchange for α-KG

Question 22

name drugs which use anion transporter

Answer 22

diuretics
simvastatin
penicillin
NSAIDs
endogenous urate

Question 23

how do diuretics increase acute gout risk?

Answer 23

impair ability to secrete urate out of the blood and into the urine (organic anion transporter)

Question 24

describe organic cation transporter

Answer 24

basolateral membrane
- organic cations enter cell via OCT2 channel driven by -ve potential, against conc gradient
apical membrane
- cation enters the lumen in rate limiting manner via electroneutral multidrug and toxin extrusion transporters (MATES) an active transport via MDR1

Question 25

what drugs use organic cation transporter?

Answer 25

diuretics 
atropine
metformin
morphine
procainamide
catecholamines

Question 26

…

Answer 26

blocks triple transporter > low intracellular Na+ > drives reabsorption of Na+

Question 27

…

Answer 27

…

Question 28

what are the 2 principle loop diuretics and how do they work in general terms?

Answer 28

furosemide
bumetanide
inhibit the triple transporter by binding to the Cl- site and thus

Question 29

what is the impact of inhibiting the triple transporter?

Answer 29

decrease tonicity of medulla interstitium
prevent dilution of filtrate in thick ascending limb
increase load of Na+ delivered to distal nephron causing K+ loss
increased excretion of calcium and magnesium
causes 15-25% of filtered Na+ to be excreted

Question 30

what additional action of loop diuretics can be helpful in acute pulmonary oedema before the diuretic action kicks in?

Answer 30

venodilator action

Question 31

which loop is better in heart failure?

Answer 31

bumetonide

Question 32

pharmacokinetics of loop diuretics?

Answer 32

absorbed by GI tract (subject to variation in CHF)
bind to plasma protein
enter nephron via OAT

Question 33

indications for loop diuretics?

Answer 33

reduce salt and water overload associated with cardiac/renal failure, cirrhosis or nephrotic syndrome
to increase urine volume in AKI
treat hypertension
to reduce acute hypercalcaemia

Question 34

how may nephrotic syndrome affect loop diuretic action?

Answer 34

reduce effectiveness

drug binds to high amount of protein in urine

Question 35

contraindications for loop diuretics?

Answer 35

severe hypovolaemia or dehydration

use with caution in hypokalaemia/hyponatraemia, hepatic encephalopathy and gout

Question 36

side effects of loop diuretics?

Answer 36

low electrolyte states (including metabolic alkalosis due to H+ secretion)
hypovolaemia/hypotension
hyperuricaemia (gout)
dose-related hearing loss

Question 37

where is the triple transporter found in the nephron?

Answer 37

thick ascending limb of loop of henle

Question 38

what do thiazide diuretics block?

Answer 38

sodium chloride co-transporter

Question 39

principle thiazide and thiazide-like diuretics?

Answer 39

bendroflumethiazide
thiazide like
- chlortalidone
- indapamide
- metolazone

Question 40

what do thiazide like diuretics do?

Answer 40

inhibit Na+/Cl- co-transporter by binding to Cl- site and therefore
- prevent dilution of filtrate/urine in early distal tubule
- increase load of Na+ delivered to collecting tubule causing K+ loss
- increased reabsorption of calcium
causes up to 5% of filtered Na+ to be secreted (modest diuresis)

Question 41

additional action of thiazides?

Answer 41

vasodilator action

- benefit in hypertension

Question 42

pharmacokinetics of thiazides?

Answer 42

well absorbed from GI tract

enter nephron via OAT mechanism

Question 43

indications for thiazides?

Answer 43

mild heart failure
hypertension (indapamide or chlotalidone)
severe resistant oedema
renal stone disease (reduced Ca2+ excretion discourages Ca2+ stone formation- less calcium in urine so less likely to precipitate out)
nephrogenic diabetes (reduced ADH response in collecting ducts)

Question 44

contraindications for thiazides?

Answer 44

hypokalaemia

use with caution - hyponatraemia, gout

Question 45

side effects of thiazides?

Answer 45

hypokalaemia
metabolic alkalosis
hypovolaemia/hypotension
hypomagnesia (not hypocalcaemia)
hyperuricaemia (gout)
erectile dysfunction
impaired glucose tolerance

Question 46

which diuretic is best to use in elderly person with osteoporosis and why?

Answer 46

thiazide

- don’t cause loss of calcium

Question 47

function of aldosterone?

Answer 47

acts via cytoplasmic receptors to increase reabsorption of Na+ in the late distal and collecting tubule via increasing ENac (sodium) channel and Na+/K+ ATPase

Question 48

how does aldosterone affect potassium?

Answer 48

increased Na+ reabsorption = increased K+ excretion

Question 49

how does Na+ reabsorption cause K+ excretion?

Answer 49

charge separation makes lumen more -ve and depolarizes the luminal/basolateral membrane
this causes an increased driving force of K+ across the luminal membrane leading to enhanced secretion of K+ (Sgk1 increases ROMK K+ channel numbers in apical membrane)
secreted K+ is washed away by increased urinary flow rate that also indirectly activates the ROMK channel leading to development of hypokalaemia

Question 50

name 4 potassium diuretics?

Answer 50

amiloride
triamterene
spironolactone
eplerenone

Question 51

how do amiloride and triamterene work?

Answer 51

enter nephron via organic cation transport system in proximal tubule and block apical sodium channels in collecting tubules and decrease Na+ reabsorption

Question 52

how does spironolactone and eplerenone work?

Answer 52

enter cell via basolateral membrane and compete with aldosterone for binding to intracellular cytoplasmic receptors preventing the actions of steroid described previously

• increase Na+ excretion
• decrease K+ excretion

Question 53

indications for potassium sparing diuretics?

Answer 53

given in conjunction with other agents that cause potassium loss (as they cause hyperkalaemia)
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Question 54

contraindications of potassium sparing diuretics?

Answer 54

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