Frage 1
Frage
What proportion of body weight is extracellular or intracellular fluid?
Antworten
-
Extracellular: 20%
Intracellular: 40%
-
Extracellular: 40%
Intracellular: 20%
-
Extracellular: 30%
Intracellular: 30%
-
Extracellular: 10%
Intracellular: 50%
-
Extracellular: 50%
Intracellular: 10%
Frage 2
Frage
Which factors affect fluid movement between compartments across endothelium barriers?
These are found between intravascular and extravascular components (i.e. extracellular fluid).
Frage 3
Frage
What factors affect fluid movement between compartments across cell membranes?
These are found between extracellular and intracellular compartments.
Frage 4
Frage
What happens to the body fluid compartments when only water is given to the patient?
Antworten
-
Number of sodium particles: no change in all compartments
Volume: increases slightly in all compartments
Concentration: decreases slightly in all compartments
-
Number of sodium particles: increase in the intravascular and interstitial compartment, but NOT the intracellular compartment
Volume: increases in the intravascular and interstitial compartments; decreases in the intracellular compartment
Concentration: increases in the intracellular compartment; no change in the intravascular and interstitial compartment
-
Number of sodium particles: increases in the intravascular and interstitial compartment; no change in the intracellular compartment
Volume: increases in intravascular/interstitial compartment; no change in the intracellular compartment
Concentration: decreases slightly in all compartments
-
Number of sodium particles: increases in the intracellular compartment; no change in the intravascular and interstitial compartments
Volume: increases in the intracellular compartment; no change in the intravascular and interstitial compartments
Concentration: decreases slightly in all compartments
-
Number of sodium particles: increases in the intracellular compartment; no change in the intravascular and interstitial compartments
Volume: increases in the intracellular compartment; no change in the intravascular and interstitial compartments
Concentration: increases in the intracellular compartment; no change in the intravascular and interstitial compartments
Frage 5
Frage
What happens to the body fluid compartments when the patient is given only sodium?
Antworten
-
Number of sodium particles: no change in all compartments
Volume: increases slightly in all compartments
Concentration: decreases slightly in all compartments
-
Number of sodium particles: increase in the intravascular and interstitial compartment, but NOT the intracellular compartment
Volume: increases in the intravascular and interstitial compartments; decreases in the intracellular compartment
-
Number of sodium particles: increases in the intravascular and interstitial compartment; no change in the intracellular compartment
Volume: increases in intravascular/interstitial compartment; no change in the intracellular compartment
-
Number of sodium particles: increases in the intracellular compartment; no change in the intravascular and interstitial compartments
Volume: increases in the intracellular compartment; no change in the intravascular and interstitial compartments
Concentration: decreases slightly in all compartments
Frage 6
Frage
What happens to the body fluid compartments when the patient is given sodium AND water, i.e. isotonic saline infusion?
Antworten
-
Number of sodium particles: no change in all compartments
Volume: increases slightly in all compartments
Concentration: decreases slightly in all compartments
-
Number of sodium particles: increase in the intravascular and interstitial compartment, but NOT the intracellular compartment
Volume: increases in the intravascular and interstitial compartments; decreases in the intracellular compartment
-
Number of sodium particles: increases in the intravascular and interstitial compartment; no change in the intracellular compartment
Volume: increases in intravascular/interstitial compartment; no change in the intracellular compartment
Concentration: no change in all compartments
Frage 7
Frage
What are the 3 features of the glomerular filtration barrier?
Antworten
-
Specialised capillary endothelium
-
Collagen based glomerular basement membrane
-
Podocytes
-
Membrane channels for specific substances
-
Active transporters for specific substances
Frage 8
Frage
What is the normal GFR?
Antworten
-
100 ml/min
-
60 ml/min
-
90 ml/min
-
30 ml/min
-
120 ml/min
Frage 9
Frage
Which part of the nephron contains tight junctions between cells?
Frage 10
Frage
How much of the Na/Cl is absorbed in the PCT?
Frage 11
Frage
What is the most accurate description of the process of tubular secretion?
Antworten
-
Secretion of substances made in the tubular cells to aid reabsorption purposes (similar to Gi system)
-
Secretion of substances from the blood capillaries through tubular cells to the filtrate for excretion
-
Secretion of substances made in the tubular cells for excretion of waste
Frage 12
Frage
Describe ADH action.
1. ADH binds to [blank_start]V2 receptors[blank_end] ([blank_start]G protein coupled[blank_end] receptors) on the basolateral side of collecting duct cells
2. This causes a [blank_start]conformational change[blank_end] in the receptor, leading to the alpha subunit activating adenine cyclase
3. This stimulates [blank_start]cAMP[blank_end] production
4. This stimulates [blank_start]PKA[blank_end] production
5. This causes [blank_start]increased[blank_end] expression of [blank_start]aquaporins[blank_end] in the cell membrane, allowing more [blank_start]water reabsorption[blank_end]
Antworten
-
V2 receptors
-
G protein coupled
-
conformational change
-
cAMP
-
PKA
-
increased
-
aquaporins
-
water reabsorption
Frage 13
Frage
What are the 3 effects of ADH?
Frage 14
Frage
What membrane transporters are found in the collecting duct?
1. [blank_start]ENaC[blank_end] (function: [blank_start]reabsorption[blank_end] of Na+)
2. [blank_start]K+ channel[blank_end] (function: [blank_start]excretion[blank_end] of K+)
3. [blank_start]H+ channel[blank_end] (function: [blank_start]excretion[blank_end] of H+)
Antworten
-
ENaC
-
K+ channel
-
H+ channel
-
reabsorption
-
excretion
-
excretion
Frage 15
Frage
What is the function of the macula densa?
Antworten
-
Senses tubular flow
-
Secretes adenosine
-
Secretes renin
Frage 16
Frage
Change in kidney function in reduced tubular flow due to decreased blood flow:
1. Sensed by the [blank_start]macula densa[blank_end]
2. [blank_start]Granular (mesangial) cells[blank_end] produce [blank_start]renin[blank_end]
3. Renin stimulates the renin-angiotensin system: results in the production [blank_start]angiotensin II[blank_end]
4. [blank_start]Angiotensin II[blank_end] causes [blank_start]vasoconstriction[blank_end] of the efferent arteriole
---This [blank_start]increases[blank_end] pressure in the glomerulus
---This [blank_start]increases[blank_end] hyperfiltration and thus tubular flow
5. [blank_start]Angiotensin II[blank_end] also stimulates [blank_start]aldosterone[blank_end] secretion
---This increases sodium retention via [blank_start]ENaC[blank_end]
Frage 17
Frage
Change in kidney function in increased tubular flow due to increased blood flow:
1. Sensed by the [blank_start]macula densa[blank_end]
2. Macula densa produces [blank_start]adenosine[blank_end]
3. [blank_start]Adenosine[blank_end] causes [blank_start]afferent arteriolar constriction[blank_end]
4. This [blank_start]decreases[blank_end] blood flow to the kidney
Frage 18
Frage
Describe renal excretion of drugs via glomerular filtration protein binding.
1. Some drugs can enter the tubules via [blank_start]glomerular filtration[blank_end], e.g. if they are:
---[blank_start]Small molecules[blank_end]
---[blank_start]Not bound[blank_end] to plasma proteins
2. These drugs can then be [blank_start]excreted[blank_end] in the urine
---NOTE: this cannot happen to large drugs (e.g. [blank_start]heparin[blank_end]) or those bound to plasma proteins
Antworten
-
glomerular filtration
-
Small molecules
-
Not bound
-
excreted
-
heparin
Frage 19
Frage
Describe renal excretion of drugs via tubular secretion independent of protein binding.
1. [blank_start]Active transport[blank_end] of drugs into the tubule from the [blank_start]capillary[blank_end]
2. There are 2 routes of tubular secretion:
---[blank_start]Basic carriers[blank_end]
------Carry [blank_start]basic drugs[blank_end] (i.e. alkaline), e.g.
--------->[blank_start]Amiloride[blank_end]
--------->[blank_start]Dopamine[blank_end]
--------->[blank_start]Histamine[blank_end]
---[blank_start]Acidic carriers[blank_end]
------Carry [blank_start]acidic drugs[blank_end], e.g.
--------->[blank_start]Frusemide[blank_end] (loop diuretic)
--------->[blank_start]Penicillin[blank_end]
--------->[blank_start]Indomethacin[blank_end] (NSAID)
3. Drugs are excreted in the urine very rapidly after secretion into the tubules
4. To prolong therapeutic effect:
---Agents can be prescribed to [blank_start]block[blank_end] tubular reabsorption
Antworten
-
Active transport
-
capillary
-
Basic carriers
-
basic drugs
-
Amiloride
-
Dopamine
-
Histamine
-
Acidic carriers
-
acidic drugs
-
Frusemide
-
Penicillin
-
Indomethacin
-
block
Frage 20
Frage
Describe reabsorption dependent manipulability of drugs in the kidney.
1. After entering the tubules (either through [blank_start]reabsorption[blank_end] or [blank_start]secretion[blank_end]), drugs are either:
---[blank_start]Excreted[blank_end] in the urine
---[blank_start]Reabsorbed[blank_end] into the blood
2. Drugs are [blank_start]passively reabsorbed[blank_end] into the bloodstream together with [blank_start]water[blank_end]
Antworten
-
reabsorption
-
secretion
-
Excreted
-
Reabsorbed
-
passively reabsorbed
-
water
Frage 21
Frage
Which of these drugs are excreted by the kidneys without first being metabolised, i.e. are largely unchanged?
Antworten
-
Aminoglycosides
-
Atenolol
-
Bendroflumethiazide
-
Frusemide
-
Penicillin
-
Heparin
-
Thyroxine
-
Indomethacin
-
Aspirin
-
Analgesics
Frage 22
Frage
How can you measure creatinine clearance, used as a measure of kidney function?
1. [blank_start]Formal clearance[blank_end] (via 24 hour urine collection)
2. [blank_start]Isotope renogram[blank_end]
3. [blank_start]isohexol clearance[blank_end]
4. [blank_start]Inulin clearance[blank_end]
5. [blank_start]Formulae[blank_end] (which take into account factors which change creatinine clearance, e.g. age, sex)
Antworten
-
Formal clearance
-
Isotope renogram
-
isohexol clearance
-
Inulin clearance
-
Formulae
Frage 23
Frage
How do the kidneys excrete drugs?
1. [blank_start]Glomerular filtration protein binding[blank_end]
2. [blank_start]Tubular secretion[blank_end] independent of protein binding
3. [blank_start]Reabsorption dependent manipulability[blank_end]
Frage 24
Frage
What are the effects of impaired kidney function on drug metabolism/clearance?
1. Altered pharmacokinetics:
---[blank_start]Decreased drug elimination[blank_end]
---[blank_start]Decreased drug absorption[blank_end]
---[blank_start]Altered drug metabolism[blank_end]
---[blank_start]Altered drug distribution[blank_end]
2. Altered drug effects
---[blank_start]Increased sensitivity to drugs[blank_end]
---[blank_start]Decreased sensitivity to drugs[blank_end]
3. Worsening of existing renal impairment
---[blank_start]Impairment of renal function[blank_end]
---[blank_start]Increased fluid retention[blank_end]
---[blank_start]Uraemia and renal failure[blank_end]
4. [blank_start]Enhancement of adverse effects[blank_end]
5. [blank_start]Decreased clearance[blank_end]
Antworten
-
Decreased drug elimination
-
Decreased drug absorption
-
Altered drug metabolism
-
Altered drug distribution
-
Increased sensitivity to drugs
-
Decreased sensitivity to drugs
-
Impairment of renal function
-
Increased fluid retention
-
Uraemia and renal failure
-
Enhancement of adverse effects
-
Decreased clearance
Frage 25
Frage
What are the 5 main effects of impaired renal function on drug metabolism?
1. [blank_start]Altered pharmacokinetics[blank_end]
2. [blank_start]Altered drug effects[blank_end]
3. [blank_start]Worsening of existing renal impairment[blank_end]
4. [blank_start]Enhancement of adverse effects[blank_end]
5. [blank_start]Decreased clearance[blank_end]
Frage 26
Frage
Which factors affect the effects of renal impairment on drug metabolism?
1. [blank_start]Extent of renal decompensation[blank_end]
2. [blank_start]Extent of renal elimination of drugs[blank_end]
3. [blank_start]Therapeutic index of drugs[blank_end]
Antworten
-
Extent of renal decompensation
-
Extent of renal elimination of drugs
-
Therapeutic index of drugs
Frage 27
Frage
What are the different types of nephrotoxicity?
1. [blank_start]Acute tubular necrosis[blank_end]/[blank_start]direct nephrotoxicity[blank_end]
2. [blank_start]Drug-related glomerulonephritis[blank_end]
3. [blank_start]Interstitial nephritis[blank_end]
4. [blank_start]Nephrogenic diabetes insipidus[blank_end]
Frage 28
Frage
How do ACE inhibitors cause nephrotoxicity?
1. Normally, if the sensed volume is reduced, [blank_start]angiotensin II[blank_end] causes [blank_start]vasoconstriction[blank_end] of the [blank_start]efferent arteriole[blank_end] to maintain glomerular filtration pressure and GFR
2. [blank_start]ACE inhibits[blank_end] prevent the action of [blank_start]angiotensin II[blank_end]
3. Therefore there is no vasoconstriction of the efferent arteriole
4. Therefore, glomerular filtration pressure and GFR [blank_start]decreases[blank_end]
---This causes kidney function impairment, i.e. nephrotoxicity
Antworten
-
angiotensin II
-
vasoconstriction
-
efferent arteriole
-
ACE inhibitors
-
angiotensin II
-
decreases
Frage 29
Frage
How do NSAIDs cause nephrotoxicity?
1. Normally, in reduced sensed volume, [blank_start]prostaglandins[blank_end] cause [blank_start]vasodilation[blank_end] of [blank_start]afferent arterioles[blank_end] in the nephron (while angiotensin II causes vasoconstriction of efferent arterioles) to maintain GFR
2. NSAIDs [blank_start]inhibit[blank_end] the action of prostaglandins
3. Therefore, there is [blank_start]no vasodilation[blank_end] of afferent arterioles
4. Therefore, glomerular filtration pressure and GFR [blank_start]decreases[blank_end]
---This causes kidney function impairment, i.e. nephrotoxicity
Antworten
-
prostaglandins
-
vasodilation
-
afferent arterioles
-
inhibit
-
no vasodilation
-
decreases
Frage 30
Frage
How does gentamicin cause nephrotoxicity?
1. [blank_start]High peaks[blank_end] are needed for antibacterial activity, but this creates [blank_start]prolonged trough levels[blank_end]
2. [blank_start]Prolonged trough levels[blank_end] cause [blank_start]toxic side effects[blank_end], which affect the [blank_start]PCT[blank_end]
3. Development of kidney failure depends on:
---[blank_start]Underlying kidney disease[blank_end]
---[blank_start]Hydration[blank_end]
---[blank_start]Age[blank_end]
---[blank_start]Cumulative dose[blank_end]
Frage 31
Frage
In what condition would you always AVOID giving ACE inhibitors and NSAIDs?
Antworten
-
Renal impairment with reduced blood flow to the kidneys
-
Renal impairment with severe haematuria
-
Renal impairment with severe proteinuria
-
Chronic renal failure
Frage 32
Frage
What are hydrostatic forces, and where are they greatest?
Antworten
-
Pressure in blood vessels created by the heartbeat
Function: allows transport of fluid OUT of capillaries
Largest in: arteries
-
Gradient in blood vessels created by solute concentrations
Function: allows transport of fluid OUT of capillaries
Largest in: arteries
-
Pressure in blood vessels created by the heartbeat
Function: allows transport of fluid INTO capillaries
Largest in: arteries
-
Pressure in blood vessels created by the heartbeat
Function: allows transport of fluid OUT of capillaries
Largest in: veins
-
Gradient in blood vessels created by solute concentrations
Function: allows transport of fluid INTO capillaries
Largest in: veins
Frage 33
Frage
What are the 3 factors which affect the extracellular fluid volume/composition?
1. [blank_start]Salt intake[blank_end]
2. [blank_start]Water intake[blank_end]
3. [blank_start]Salt/water losses[blank_end]
Antworten
-
Salt intake
-
Water intake
-
Salt/water losses
Frage 34
Frage
What are the features of the tubular epithelium in the proximal convoluted tubule?
1. [blank_start]Tight junctions[blank_end]
2. [blank_start]Aquaporin I[blank_end]
3. [blank_start]Na+ cotransporters[blank_end]
Antworten
-
Tight junctions
-
Aquaporin I
-
Na+ cotransporters
Frage 35
Frage
What are the features of the tubular epithelium in the thin descending loop of Henle?
1. [blank_start]Loose junctions[blank_end]
2. [blank_start]Aquaporin I[blank_end]
Antworten
-
Loose junctions
-
Aquaporin I
Frage 36
Frage
What are the features of the tubular epithelium in the thick ascending limb of the loop of Henle?
1. [blank_start]Impermeable to water[blank_end]
2. [blank_start]Na+/K+/2Cl- channel[blank_end] ([blank_start]NKCC channel[blank_end])
Antworten
-
Impermeable to water
-
Na+/K+/2Cl- channel
-
NKCC channel
Frage 37
Frage
What are the features of the tubular epithelium in the collecting duct?
1. [blank_start]Aquaporin II, III, IV[blank_end]
2. [blank_start]ENaC[blank_end] ([blank_start]epithelial Na channel[blank_end])
Antworten
-
Aquaporin II, III, IV
-
ENaC
-
epithelial Na channel
Frage 38
Frage
Which part of the nephron is completely impermeable to water?
Frage 39
Frage
What stimulates ADH secretion?
Antworten
-
Increased serum osmolality
-
Decreased volume
-
Increased volume
-
Decreased filtrate osmolality
-
Increased filtrate osmolality
-
High H+ levels in the collecting duct
Frage 40
Frage
Which structure is responsible for sensing decreased volume, and consequently stimulating ADH production?
Antworten
-
Juxtaglomerular cells
-
Macula densa
-
Osmoreceptors in the hypothalamus
-
Baroreceptors in the glomerulus
-
Intercalated cells in the collecting duct
Frage 41
Frage
Which structure is responsible for sensing increased serum osmolality, and consequently stimulating ADH production?
Frage 42
Frage
Describe the counter-current exchange multiplier.
1. [blank_start]Na+[blank_end] and [blank_start]other electrolytes[blank_end] are transported out of the [blank_start]thick ascending loop of Henle[blank_end] (via [blank_start]Na+/K+/2Cl- channel[blank_end])
a. The [blank_start]ascending loop[blank_end] is impermeable to water, so this stays in the lumen
b. This creates a [blank_start]very high[blank_end] concentration of electrolytes in the [blank_start]interstitium[blank_end] and [blank_start]capillaries[blank_end]
2. The [blank_start]vasa recta[blank_end] around the loop of Henle flow in the [blank_start]opposite[blank_end] direction to the nephron, so the high concentration of electrolytes is moved to surround the [blank_start]thin descending loop of Henle[blank_end]
3. The [blank_start]large concentration gradient[blank_end] creates a [blank_start]large osmotic gradient[blank_end] around the [blank_start]thin descending loop of Henle[blank_end]
a. This allows for the reabsorption of large amounts of [blank_start]water[blank_end] from the descending loop
4. This also creates a [blank_start]very concentrated[blank_end] filtrate in the descending loop, which then moves on to the ascending loop – this increases reabsorption of electrolytes along the concentration gradient in the ascending loop
Antworten
-
Na+
-
other electrolytes
-
thick ascending loop of Henle
-
Na+/K+/2Cl- channel
-
ascending loop
-
very high
-
interstitium
-
capillaries
-
vasa recta
-
opposite
-
thin descending loop of Henle
-
large concentration gradient
-
large osmotic gradient
-
thin descending loop of Henle
-
water
-
very concentrated
Frage 43
Frage
Describe the renin-angiotensin-aldosterone system (RAAS).
1. [blank_start]Renin[blank_end] is secreted by the [blank_start]juxtaglomerular cells[blank_end] in the kidney, stimulated by:
a. Increased [blank_start]sympathetic innervation[blank_end]
b. Decreased [blank_start]afferent arteriole pressure[blank_end]
c. [blank_start]Hyperkalaemia[blank_end]
d. [blank_start]Decreased Na+/Cl-[blank_end] levels in the DCT (sensed by the [blank_start]macula densa[blank_end])
2. [blank_start]Renin[blank_end] stimulates conversion of [blank_start]angiotensinogen[blank_end] into [blank_start]angiotensin I[blank_end]
3. [blank_start]Angiotensin I[blank_end] is converted to [blank_start]angiotensin II[blank_end] by [blank_start]angiotensin converting enzyme (ACE)[blank_end]
4. Effects of [blank_start]angiotensin II[blank_end]:
a. [blank_start]Vasoconstriction[blank_end] (via AII/AT1 receptors)
b. Stimulates [blank_start]sodium reabsorption[blank_end] in the nephron
c. Stimulates [blank_start]aldosterone[blank_end] secretion from the adrenal cortex
d. Stimulates [blank_start]ADH[blank_end] secretion from the posterior pituitary gland
e. Stimulates [blank_start]thirst centres[blank_end] in the brain
f. Enhances [blank_start]sympathetic[blank_end] adrenergic innervation
g. Stimulates cardiac and vascular hypertrophy
Frage 44
Frage
How does aldosterone increase sodium and fluid retention?
1. [blank_start]Increased expression of ENaC[blank_end] (via preformed vesicles)
2. [blank_start]Increased stability of ENaC[blank_end]
3. [blank_start]Increased activity of Na+/K+ ATPase[blank_end]
Antworten
-
Increased expression of ENaC
-
Increased stability of ENaC
-
Increased activity of Na+/K+ ATPase
Frage 45
Frage
What is the juxtaglomerular apparatus made of?
1. [blank_start]Macula densa[blank_end] (in the DCT)
2. [blank_start]Juxtaglomerular cells[blank_end] (around the afferent arteriole)
3. [blank_start]Mesangial cells[blank_end] (in the glomerulus)
Antworten
-
Macula densa
-
Juxtaglomerular cells
-
Mesangial cells