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Flashcards in Refresher of M1 Renal Physiology Deck (36)
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1
Q

What are some functions of the kidney? (7)

A
  1. Excretion of metabolic waste products
  2. Water and Electrolyte balance
  3. Regulation of body fluid osmolality and electrolyte concentrations
  4. Regulation of arterial pressure
  5. Regulation of acid-base balance
  6. Secretion, metabolism, and excretion of hormones
  7. Gluconeogenesis
2
Q

The central physiologic role of the kidneys is to control the ______ and ________ of the body fluids

A

Volume; composition

3
Q

Intracellular fluid = __ of total body water

Extracellular fluid = __ of total body water

A

2/3

1/3

4
Q

The average 70 kg man will have ____ liters of total body water

____ liters will be in th ECF and ____ will be in the ICF

A

42 liters

ECF: 14 Liters

ICF: 28 Liters

5
Q

What is osmolarity?

A

The concentration of osmotically active particles in total solution expressed in terms of mOsm/liter of water

6
Q

What is the average osmolarity of the ECF and ICF?

A

280-300 mOsm/liter

7
Q

What are the units of osmolality?

When does osmolality = osmolarity?

A

Osmolality: mOsm/kg of solvent (water)

In relatively dilute solutions such as those found in the body, osmolality = osmolarity

8
Q

Describe the changes in volume and osmolarity upon adding solutions of…

Isotonic NaCl

Hypotonic NaCl

Hypertonic NaCl

A
  • Isotonic NaCl
    • Volume of extracellular compartment increases
    • No change in osmolarity
  • Hypotonic NaCl:
    • Volume of extracellular and intracellular compartments increase
    • Osmolarity decreases in both comparments
  • Hypertonic NaCl:
    • Extracellular volume increases, intracellular volume decreases
    • Osmolarity increases in both
9
Q

What four kidney processes determine the composition of urine?

A
  1. Filtration
  2. Reabsorption
  3. Secretion
  4. Excretion
10
Q

What is the glomerular filtrate?

What is filtered and excluded from this filtrate?

A

The glomerular filtrate is an ultrafiltrate of plasma formed by the net effect of Starling Forces to move (filter) fluid out of the glomerular capillaries and into Bowman’s space

Most large proteins, substances bound to protein, and cellular elements are excluded from glomerular filtrate

11
Q

What are the physical forces causing filtration by glomerular capillaries and what are their average values?

A

Glomerular hydrostatic pressure (60 mmHg)

Glomerular Colloid Osmotic Pressure (32 mmHg)

Bowman’s capsule pressure (18 mmHg)

12
Q

Normal values for…

Renal plasma flow:

Glomerular Filtration Rate:

Efferent Plasma Flow:

A

Renal plasma flow: 700 ml/min

Glomerular Filtration Rate: 125 ml/min

Efferent Plasma Flow: 575 ml/min

13
Q

GFR = Kf x [(PGC + πBS) - (πGC + PBS)]

What do these terms mean?

A
  • Kf = ultrafiltration coefficient (product of hydraulic permeability)
  • PGC = Glomerular Capillary Hydrostatic Pressure
  • πGC = Glomerular Capillary Oncotic Pressure
  • PBS = Bowman’s Space Hydrostatic Pressure
  • πBS = Bowman’s Space Oncotic Pressure
14
Q

Which of the following is more associated with a change in urine output?

Renal blood flow

Arterial Pressure

Glomerular Filtration Rate

A

Arterial Pressure

15
Q

What is the myogenic autoregulation mechanism?

A

Intrinsic property of blood vessels

Stretch of vascular smooth muscle, as experienced during an increase in arterial pressure, elicits a contraction which elevates vascular resistance and maintain blood flow (and GFR) constant

16
Q

How does tubuloglomerular feedback affect GFR and RBF autoregulation?

A

In response to an elevation of perfusion pressure, increased fluid is filtered leading to increased delivery of NaCl to the macula densa. This increased delivery elicits an increase in vascular resistance

17
Q

Angiotensin II preferentially constricts the _______ arteriole

A

efferent

18
Q

How do the following hormones affect GFR?

Norepinephrine/Epinephrine:

Endothelin:

Angiotensin II:

Endothelial Derived Nitric Oxide:

Prostaglandins:

A

Norepinephrine/Epinephrine: Decrease

Endothelin: Decrease

Angiotensin II: Decrease or no change

Endothelial Derived Nitric Oxide: Increase

Prostaglandins: Increase

19
Q

What are the 3 layers that make up the filtration barrier?

A

Capillary wall (fenestrated)

Basement membrane

Podocytes

20
Q

What is the main determinant of filtration barrier permeability?

A

Podocytes

21
Q

What types of selection are associated with the filtration barrier?

A

Size-selection: more permeable to small molecules

Charge selective: more permeable to positively charged molecules

22
Q

What are the components of the podocyte foot process contractile system which are linked to the slit diaphragm

A

Nephrin (N) and P-cadherin (P-C)

23
Q

What is the function of the thin descending loop of henle?

A

Reabsorption of water secondary to cortical-medullary osmotic gradient

24
Q

What is the function of the thin ascending loop of Henle?

A
  • Impermeable to water
  • Passive reabsorption of sodium, dilution of tubular fluid
  • Permeable to urea, urea is secreted
25
Q

What are the transport characteristics of the thick ascending loop of Henle?

A
  • Reabsorbs 25% of filtered Na+ by the Na+/K+/2Cl- transport
  • Lumen positive potential drives paracellular reabsorption of sodium, potassium, magnesium and calcium
  • Impermeable to water, dilutes tubular fluid
26
Q

Loop diuretics block the ________ transporter in the _____ _____ loop of henle

A

Na+/2Cl-/K+ transporter; thick ascending

27
Q

Transport characteristics of the early distal tubule?

A
  • Reabsorbs Na+, Cl-, Ca++ and Mg++
  • Not permeable to water
  • Thiazide-sensitive segment
28
Q

Thiazide diuretics block ____ transport in the _____ ______ tubule

A

NaCl; early distal

29
Q

What are the transport characteristics of the principal cells of the late distal tubule and cortical collecting duct?

A
  • Reabsorbs Na+ and secretes K+
  • Regulated by aldosterone
  • Water permeability regulated by ADH
30
Q

Na+ and K+ transport in the principal cells of the late distal tubule and cortical collecting duct are blocked by which drugs?

What is the name of the sodium channel on the apical membrane of the principal cells?

A
  • Aldosterone antagonists
    • Spironolactone
    • Eplerenone
  • Na+ channel blockers
    • Amiloride
    • Triamterene

The channel is called the ENaC (epithelial sodium channel)

31
Q

What are the transport characteristics of the medullary collecting duct?

A
  • Reabsorbs Na+
  • ADH stimulated water reabsorption
  • Urea reabsorption in medullary CD
32
Q

How does aldosterone act on tubular reabsorption?

A

It acts in principal cells of the late distal tubule and collecting duct

Increases Na+ reabsorption, increases K+ secretion

33
Q

How does Angiotensin II affect tubular reabsorption?

A
  • Acts primarily in the proximal tubule
  • Increases Na+ and water reabsorption, increases H+ secretion
34
Q

How does ADH affect tubular reabsorption?

A
  • Acts in principal cells of late distal tubule and collecting duct, inner medullary collecting duct
  • Increases water reabsorption (aquaporins)
35
Q

How does ANP affect tubular reabsorption?

A
  • Acts in the distal tubule and collecting duct
  • Decreases Na+ reabsorption
36
Q

How does Parathyroid hormone (PTH) affect tubular reabsorption?

A
  • In proximal tubule decreases PO4 reabsorption
  • In thick ascending loop of Henle and distal tubule increases Ca++ reabsorption