Melissa Denker
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Undergraduate MBChB Year 2 Test sobre REPRO/NEPHRO BLOCK: Week 3 - Kidneys, creado por Melissa Denker el 05/12/2015.

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Melissa Denker
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REPRO/NEPHRO BLOCK: Week 3 - Kidneys

Pregunta 1 de 45

1

What proportion of body weight is extracellular or intracellular fluid?

Selecciona una de las siguientes respuestas posibles:

  • Extracellular: 20%
    Intracellular: 40%

  • Extracellular: 40%
    Intracellular: 20%

  • Extracellular: 30%
    Intracellular: 30%

  • Extracellular: 10%
    Intracellular: 50%

  • Extracellular: 50%
    Intracellular: 10%

Explicación

Pregunta 2 de 45

1

Which factors affect fluid movement between compartments across endothelium barriers?

These are found between intravascular and extravascular components (i.e. extracellular fluid).

Selecciona una o más de las siguientes respuestas posibles:

  • Osmotic forces

  • Hydrostatic forces

  • Electrolyte concentrations

  • Availability of transport channels

Explicación

Pregunta 3 de 45

1

What factors affect fluid movement between compartments across cell membranes?

These are found between extracellular and intracellular compartments.

Selecciona una de las siguientes respuestas posibles:

  • Hydrostatic pressure

  • Osmotic pressure

  • Availability of transport proteins

  • Electrolyte concentrations

Explicación

Pregunta 4 de 45

1

What happens to the body fluid compartments when only water is given to the patient?

Selecciona una de las siguientes respuestas posibles:

  • 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

Explicación

Pregunta 5 de 45

1

What happens to the body fluid compartments when the patient is given only sodium?

Selecciona una de las siguientes respuestas posibles:

  • 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

Explicación

Pregunta 6 de 45

1

What happens to the body fluid compartments when the patient is given sodium AND water, i.e. isotonic saline infusion?

Selecciona una de las siguientes respuestas posibles:

  • 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

Explicación

Pregunta 7 de 45

1

What are the 3 features of the glomerular filtration barrier?

Selecciona una o más de las siguientes respuestas posibles:

  • Specialised capillary endothelium

  • Collagen based glomerular basement membrane

  • Podocytes

  • Membrane channels for specific substances

  • Active transporters for specific substances

Explicación

Pregunta 8 de 45

1

What is the normal GFR?

Selecciona una de las siguientes respuestas posibles:

  • 100 ml/min

  • 60 ml/min

  • 90 ml/min

  • 30 ml/min

  • 120 ml/min

Explicación

Pregunta 9 de 45

1

Which part of the nephron contains tight junctions between cells?

Selecciona una de las siguientes respuestas posibles:

  • PCT

  • Thin descending loop of Henle

  • Thick ascending loop of Henle

  • DCT

  • Glomerulus

Explicación

Pregunta 10 de 45

1

How much of the Na/Cl is absorbed in the PCT?

Selecciona una de las siguientes respuestas posibles:

  • 50%

  • 60%

  • 70%

  • 80%

Explicación

Pregunta 11 de 45

1

What is the most accurate description of the process of tubular secretion?

Selecciona una de las siguientes respuestas posibles:

  • 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

Explicación

Pregunta 12 de 45

1

Rellena los espacios en blanco para completar el texto.

Describe ADH action.
1. ADH binds to ( receptors) on the basolateral side of collecting duct cells
2. This causes a in the receptor, leading to the alpha subunit activating adenine cyclase
3. This stimulates production
4. This stimulates production
5. This causes expression of in the cell membrane, allowing more

Explicación

Pregunta 13 de 45

1

What are the 3 effects of ADH?

Selecciona una o más de las siguientes respuestas posibles:

  • Stimulates thirst

  • Vasodilation

  • Increased expression of aquaporins

  • Decreased expression of aquaporins

  • Vasoconstriction

  • Inhibits thirst

Explicación

Pregunta 14 de 45

1

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What membrane transporters are found in the collecting duct?
1. (function: of Na+)
2. (function: of K+)
3. (function: of H+)

Explicación

Pregunta 15 de 45

1

What is the function of the macula densa?

Selecciona una o más de las siguientes respuestas posibles:

  • Senses tubular flow

  • Secretes adenosine

  • Secretes renin

Explicación

Pregunta 16 de 45

1

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Change in kidney function in reduced tubular flow due to decreased blood flow:
1. Sensed by the
2. produce
3. Renin stimulates the renin-angiotensin system: results in the production
4. causes of the efferent arteriole
---This pressure in the glomerulus
---This hyperfiltration and thus tubular flow
5. also stimulates secretion
---This increases sodium retention via

Explicación

Pregunta 17 de 45

1

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Change in kidney function in increased tubular flow due to increased blood flow:
1. Sensed by the
2. Macula densa produces
3. causes
4. This blood flow to the kidney

Explicación

Pregunta 18 de 45

1

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Describe renal excretion of drugs via glomerular filtration protein binding.
1. Some drugs can enter the tubules via , e.g. if they are:
---
--- to plasma proteins
2. These drugs can then be in the urine
---NOTE: this cannot happen to large drugs (e.g. ) or those bound to plasma proteins

Explicación

Pregunta 19 de 45

1

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Describe renal excretion of drugs via tubular secretion independent of protein binding.
1. of drugs into the tubule from the
2. There are 2 routes of tubular secretion:
---
------Carry (i.e. alkaline), e.g.
--------->
--------->
--------->
---
------Carry , e.g.
---------> (loop diuretic)
--------->
---------> (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 tubular reabsorption

Explicación

Pregunta 20 de 45

1

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Describe reabsorption dependent manipulability of drugs in the kidney.
1. After entering the tubules (either through or ), drugs are either:
--- in the urine
--- into the blood
2. Drugs are into the bloodstream together with

Explicación

Pregunta 21 de 45

1

Which of these drugs are excreted by the kidneys without first being metabolised, i.e. are largely unchanged?

Selecciona una o más de las siguientes respuestas posibles:

  • Aminoglycosides

  • Atenolol

  • Bendroflumethiazide

  • Frusemide

  • Penicillin

  • Heparin

  • Thyroxine

  • Indomethacin

  • Aspirin

  • Analgesics

Explicación

Pregunta 22 de 45

1

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How can you measure creatinine clearance, used as a measure of kidney function?
1. (via 24 hour urine collection)
2.
3.
4.
5. (which take into account factors which change creatinine clearance, e.g. age, sex)

Explicación

Pregunta 23 de 45

1

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How do the kidneys excrete drugs?
1.
2. independent of protein binding
3.

Explicación

Pregunta 24 de 45

1

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What are the effects of impaired kidney function on drug metabolism/clearance?
1. Altered pharmacokinetics:
---
---
---
---
2. Altered drug effects
---
---
3. Worsening of existing renal impairment
---
---
---
4.
5.

Explicación

Pregunta 25 de 45

1

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What are the 5 main effects of impaired renal function on drug metabolism?
1.
2.
3.
4.
5.

Explicación

Pregunta 26 de 45

1

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Which factors affect the effects of renal impairment on drug metabolism?
1.
2.
3.

Explicación

Pregunta 27 de 45

1

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What are the different types of nephrotoxicity?
1. /
2.
3.
4.

Explicación

Pregunta 28 de 45

1

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How do ACE inhibitors cause nephrotoxicity?
1. Normally, if the sensed volume is reduced, causes of the to maintain glomerular filtration pressure and GFR
2. prevent the action of
3. Therefore there is no vasoconstriction of the efferent arteriole
4. Therefore, glomerular filtration pressure and GFR
---This causes kidney function impairment, i.e. nephrotoxicity

Explicación

Pregunta 29 de 45

1

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How do NSAIDs cause nephrotoxicity?
1. Normally, in reduced sensed volume, cause of in the nephron (while angiotensin II causes vasoconstriction of efferent arterioles) to maintain GFR
2. NSAIDs the action of prostaglandins
3. Therefore, there is of afferent arterioles
4. Therefore, glomerular filtration pressure and GFR
---This causes kidney function impairment, i.e. nephrotoxicity

Explicación

Pregunta 30 de 45

1

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How does gentamicin cause nephrotoxicity?
1. are needed for antibacterial activity, but this creates
2. cause , which affect the
3. Development of kidney failure depends on:
---
---
---
---

Explicación

Pregunta 31 de 45

1

In what condition would you always AVOID giving ACE inhibitors and NSAIDs?

Selecciona una de las siguientes respuestas posibles:

  • Renal impairment with reduced blood flow to the kidneys

  • Renal impairment with severe haematuria

  • Renal impairment with severe proteinuria

  • Chronic renal failure

Explicación

Pregunta 32 de 45

1

What are hydrostatic forces, and where are they greatest?

Selecciona una de las siguientes respuestas posibles:

  • 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

Explicación

Pregunta 33 de 45

1

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What are the 3 factors which affect the extracellular fluid volume/composition?

1.
2.
3.

Explicación

Pregunta 34 de 45

1

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What are the features of the tubular epithelium in the proximal convoluted tubule?

1.
2.
3.

Explicación

Pregunta 35 de 45

1

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What are the features of the tubular epithelium in the thin descending loop of Henle?

1.
2.

Explicación

Pregunta 36 de 45

1

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What are the features of the tubular epithelium in the thick ascending limb of the loop of Henle?

1.
2. ()

Explicación

Pregunta 37 de 45

1

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What are the features of the tubular epithelium in the collecting duct?

1.
2. ()

Explicación

Pregunta 38 de 45

1

Which part of the nephron is completely impermeable to water?

Selecciona una de las siguientes respuestas posibles:

  • PCT

  • Thin descending loop of Henle

  • Thick ascending loop of Henle

  • DCT

  • Collecting duct

Explicación

Pregunta 39 de 45

1

What stimulates ADH secretion?

Selecciona una o más de las siguientes respuestas posibles:

  • Increased serum osmolality

  • Decreased volume

  • Increased volume

  • Decreased filtrate osmolality

  • Increased filtrate osmolality

  • High H+ levels in the collecting duct

Explicación

Pregunta 40 de 45

1

Which structure is responsible for sensing decreased volume, and consequently stimulating ADH production?

Selecciona una de las siguientes respuestas posibles:

  • Juxtaglomerular cells

  • Macula densa

  • Osmoreceptors in the hypothalamus

  • Baroreceptors in the glomerulus

  • Intercalated cells in the collecting duct

Explicación

Pregunta 41 de 45

1

Which structure is responsible for sensing increased serum osmolality, and consequently stimulating ADH production?

Selecciona una de las siguientes respuestas posibles:

  • Osmoreceptors in the hypothalamus

  • Juxtaglomerular cells

  • Macula densa

  • Glomerulus

  • Intercalated cells in the collecting duct

Explicación

Pregunta 42 de 45

1

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Describe the counter-current exchange multiplier.

1. and are transported out of the (via )
a. The is impermeable to water, so this stays in the lumen
b. This creates a concentration of electrolytes in the and

2. The around the loop of Henle flow in the direction to the nephron, so the high concentration of electrolytes is moved to surround the

3. The creates a around the
a. This allows for the reabsorption of large amounts of from the descending loop

4. This also creates a 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

Explicación

Pregunta 43 de 45

1

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Describe the renin-angiotensin-aldosterone system (RAAS).

1. is secreted by the in the kidney, stimulated by:
a. Increased
b. Decreased
c.
d. levels in the DCT (sensed by the )

2. stimulates conversion of into

3. is converted to by

4. Effects of :
a. (via AII/AT1 receptors)
b. Stimulates in the nephron
c. Stimulates secretion from the adrenal cortex
d. Stimulates secretion from the posterior pituitary gland
e. Stimulates in the brain
f. Enhances adrenergic innervation
g. Stimulates cardiac and vascular hypertrophy

Explicación

Pregunta 44 de 45

1

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How does aldosterone increase sodium and fluid retention?

1. (via preformed vesicles)
2.
3.

Explicación

Pregunta 45 de 45

1

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What is the juxtaglomerular apparatus made of?

1. (in the DCT)
2. (around the afferent arteriole)
3. (in the glomerulus)

Explicación