Kidney 2

Description

Medicine related kidney questions
jimmy_sheehan318
Quiz by jimmy_sheehan318, updated more than 1 year ago
jimmy_sheehan318
Created by jimmy_sheehan318 about 9 years ago
19
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Resource summary

Question 1

Question
Sodium enters passively down the [blank_start]apical[blank_end] membrane down its concentration gradient. It is actively extruded across the basolateral membrane by the Na/K/ATPase pump. Na+ reabsorption is [blank_start]largest[blank_end] in the PCT, followed by the LOH, DCT and CD. In the PCT- [blank_start]Na/H[blank_end] exchanger at the apical membrane, at the basolateral membrane NA/K/ATPase and Na/HCO3 transporter. In the thick limb of the LOH [blank_start]Na/K/Cl[blank_end]- cotransporter (NKCC2)...which can be inhibited by [blank_start]frusemide[blank_end], leading to increased sodium in the DCT and therefore less water loss. Na transport in the DCT is via transcellular reabsorption (Na/Cl transporter NCC)--thiazide diuretics can inhibit this. In the cortical collecting duct, Na transport is mediated primarily by the principle cells. It crosses through ENAC's and can be inhibited by amiloride. [blank_start]Water[blank_end] reabsorption in the proximal tubule is linked to Na+ reabsorption.
Answer
  • apical
  • largest
  • least
  • Na/H
  • Na/Cl-
  • Na/K
  • Na/K/Cl
  • Na/HCO3
  • Na/Glucose
  • frusemide
  • thiazide
  • aldosterone
  • Water
  • chloride
  • glucose

Question 2

Question
[blank_start]Angiotensin 2[blank_end] binds to AT1 receptors of the proximal tubule. They also stimulate Na-H exchange in the TAL and ENAC's in the initial collecting tubules. All promote [blank_start]sodium[blank_end] reabsorption. Aldosterone stimulates sodium reabsorption by the initial tubule and CCT. It upregulates apical ENAC's and therefore Na+ permeability. ADH- overall effect is to produce urine which a [blank_start]high[blank_end] osmolality. In the TAL, ADH stimulates NKCC2 receptors and K+ channels. In the principle cells of the initial collecting tubule and CCT, ADH stimulates Na+ transport by increasing the number of open Na+ channels.
Answer
  • Angiotensin 2
  • Angiontensin 1
  • sodium
  • calcium
  • potassium
  • high
  • low

Question 3

Question
Most of the K is absorbed in the [blank_start]PCT[blank_end] as well. The [blank_start]principle[blank_end] cell is the Major Regulator of Potassium with [blank_start]90[blank_end]% of potassium being managed here. The Epithelial Na Channels gets us to dump all the potassium by an [blank_start]electrochemical[blank_end] gradient The [blank_start]more[blank_end] sodium delivered the more potassium dumped. In the proximal tubule K+ reabsorption occurs passively and is via solvent drag. In the TAL K+ is reabsorbed paracellularly and through the [blank_start]Na/K/Cl[blank_end]- contransporter. In the cortical collecting duct- K+ reabsorption by intercalated discs occurs through the apical K+ uptake mediated by the [blank_start]H-K[blank_end] Pump, followed by passively efflux across the basolateral membrane. In the cortical collecting ducts (principle cells), the K+ [blank_start]secretion[blank_end] occurs by active uptake across basolateral membrane, followed by passive diffusion through apical K+ channels.
Answer
  • PCT
  • principle
  • 90
  • electrochemical
  • more
  • Na/K/Cl
  • H-K
  • secretion

Question 4

Question
Stimulators of K+ excretion include?
Answer
  • Increased K+ intake
  • Increased pH
  • Aldosterone
  • ADH
  • Increased sodium delivery
  • Ameloride
  • Thiazides

Question 5

Question
Chloride is reabsorbed via the [blank_start]paracellular[blank_end] pathway early in the PCT via solvent drag, Later in the PCT at the apical memrane via Cl-base exchanger (Cl- out of lumen, Base in), following [blank_start]Na[blank_end]+ out of lumen. At the basolateral membrane via Cl- channels and K/Cl- cotransporter. In the thick ascending limb via [blank_start]Na/K/2Cl[blank_end]- cotransporter. In the [blank_start]collecting[blank_end] ducts via paracellular reabsorption, apically via Cl-HCO3- exchanger and Cl- channels basolateral membrane.
Answer
  • paracellular
  • transcellular
  • Na
  • Ca
  • K
  • Na/K/2Cl
  • Cl/HCO3-
  • collecting
  • distal

Question 6

Question
What are the two most important regulators of calcium?
Answer
  • Na and PTH
  • PTH and Vitamin D
  • TSH and Vitamin D
  • PTH and K

Question 7

Question
Most (80%) of the phosphate is reabsorbed at the PCT. Which factors increase phosphate reabsorption?
Answer
  • high plasma calcium
  • PTH
  • low plasma calcium
  • ADH

Question 8

Question
The pre-renal causes of AKI include?
Answer
  • Volume expansion
  • Volume depletion
  • GI losses
  • Glomerulonephritis
  • NSAID's
  • Cutaneous losses
  • Bladder Disease

Question 9

Question
Renal causes of AKI include?
Answer
  • Inflammatory glomerulonephritis
  • Acute tubular necrosis
  • Rhabdomyolysis
  • Extra-tubular obstruction
  • Acute Interstitial Nephritis
  • Nephrotoxicity

Question 10

Question
A serum creatinine level of 2-3 x the normal amount would place the person in which stage of kidney disease?
Answer
  • 1
  • 2
  • 3

Question 11

Question
Which of these is not a novel biomarker for acute kidney injury?
Answer
  • Urinary Neutrophil Gelatinase- Associated Lipocalin
  • Urinary IL-22
  • Urinary IL-18
  • Urinary Kidney-Injury molecule 1
  • Cystatin C

Question 12

Question
In the RIFLE classification of AKI. Describe the following components. R- (Risk) = 1.5 x increase in serum creatinine, GFR less 25% or urine output <[blank_start]0.5mL[blank_end]/kg per hour for 6 hours I- ([blank_start]Injury[blank_end]) = 2 x serum creatinine, GFR 50%, or urine output <0.5mL/kg for 12 hours F- (Failure) = 3 x SC, GFR 75% drop, urine output <0.5mL/kg 24 hours or [blank_start]anuria[blank_end] 12 hours L- (Loss) = complete loss of kidney function > [blank_start]4 weeks[blank_end] E- (ESRD) = > 3 months
Answer
  • 0.5mL
  • 1mL
  • Injury
  • Ischaemia
  • anuria
  • proteinuria
  • 4 weeks
  • 8 weeks
  • 12 weeks

Question 13

Question
Acute Tubular Necrosis is due to tubular injury and prolonged disturbances in blood flow. Which of these is not a common histological feature?
Answer
  • Loss of brush border
  • Cell detachment
  • Distal tubule casts
  • Areas of cellular regeneration
  • Low tubule calcium

Question 14

Question
The classic triad of Acute Interstitial Nephritis is: [blank_start]Fever[blank_end], Eosinophilia and [blank_start]Rash[blank_end]. It is most commonly caused by drugs such as [blank_start]flucloxacillin[blank_end], [blank_start]rifampin[blank_end] and NSAID's. It often [blank_start]resolves spontaneously[blank_end] after halting these.
Answer
  • Fever
  • Rash
  • rifampin
  • flucloxacillin
  • resolves spontaneously

Question 15

Question
Hyperkalemia is a common problem of AKI. The mainstay of treatments are -[blank_start]B2 agonist[blank_end] to drive K+ intracellularly -Resonium which exchanges K+ and Na+ in the large intestine reducing intake -Insulin and Glucose which drives K+ intracellularly -[blank_start]Calcium gluconate[blank_end] to correct myocardium potential
Answer
  • B2 agonist
  • Isotonic Saline
  • Digoxin
  • Lasix
  • Calcium gluconate
  • Sodium Hydrate
  • Calcium Phosphate

Question 16

Question
Which of these is not a role of the mesangium (the space between the capillaries of glomerulus)?
Answer
  • Provide structural support to glomerulus
  • Contractile components
  • Phagocytic function
  • Sequester iron
  • Proliferation and laying down of collagen

Question 17

Question
A thin layer of [blank_start]fenestrated[blank_end] endothelial cells with tight junctions surround the capillary lumen
Answer
  • fenestrated

Question 18

Question
Nephrotic Syndrome is characterised by:
Answer
  • Large amount of Red Blood Cells
  • Heavy protein > 3.5g/ day
  • Oedema
  • Hyperalbuminaemia
  • Hypoalbuminaemia
  • Lipids

Question 19

Question
NSAID's, ACE-Inhibitors and Diuretics can impair kidney function by?
Answer
  • Dilation of afferent arteriole
  • Constriction of afferent arteriole
  • Dilation of efferent arteriole
  • Constriction of efferent arteriole
  • Promoting increased perfusion via volume expansion
  • Promoting decreased perfusion via volume contraction
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