First Aid Renal Physiology

Question 1

Ureters pass under what structures?

Answer 1

Uterine artery (female) or vas deferens (males)

Question 2

Potassium inside the cell?

Answer 2

High (HIKIN’ = HIgh K Intracellular)

Question 3

60-40-20 rule

Answer 3

60% of body is water, 40% of body is ICF, 20% of body is ECF

Question 4

How do you measure plasma volume?

Answer 4

radiolabeled albumin

Question 5

How do you measure extracellular volume?

Answer 5

inulin

Question 6

what is the osmalarity of plasma?

Answer 6

290

Question 7

responsible for filtration of plasma according to size and net charge

Answer 7

glomerular filtration barrier

Question 8

what is the size barrier of glomerular filtration?

Answer 8

fenestrated capillary endothelium

Question 9

what is the negative charge barrier of glomerular filtration?

Answer 9

fused basement membrane with heparin sulfate

Question 10

what does the epithelial layer of glomerular filtration barrier consist of?

Answer 10

podocyte foot processes

Question 11

The charge barrier is lost in XXXX, resulting in albuminuria, hyporoteinuria, generalized edema, and hyperlipidemia

Answer 11

nephrotic syndrome

Question 12

how do you calculate clearance?

Answer 12

(urine concentration x urine flow rate)/plasma concentration

Question 13

when clearance is greater than GFR?

Answer 13

net secretion

Question 14

when clearance is less than GFR?

Answer 14

net reabsorbtion

Question 15

inulin clearance can be used to calculate GFR because it is

Answer 15

freely filtered and neither reabsorbed nor secreted

Question 16

normal GFR =

Answer 16

100 ml/min

Question 17

creatinine clearance slightly overestimates GFR because it is

Answer 17

moderately secreted by the renal tubules

Question 18

ERPF can be estimated using PAH clearance because

Answer 18

it is both filtered and actively secreted in the proximal tubule (all PAH entering the kidney is excreted)

Question 19

RBF =

Answer 19

RPF/(1-HCt)

Question 20

EFPF underestimates true RPF by

Answer 20

~10%

Question 21

FF =

Answer 21

GRF/RPF

Question 22

What dilates afferent arterioles?

Answer 22

Prostaglandins

Question 23

Prostaglandins dilate afferent arterioles –>

Answer 23

increased RPF, increased GFR, and no change in FF

Question 24

NSAID effect on kidney

Answer 24

block prostaglandins –> constrict afferent artery –> decreased RPF, decreased GFR, and no change in FF

Question 25

Angiotensin II preferentially constricts efferent arteriole –>

Answer 25

decreased RPF, increased GFR, increased FF

Question 26

ACE inhibitors preferential vasodilates efferent arteriole –>

Answer 26

increased RPF, decreased GFR, decreased FF

Question 27

what is the effect on RBF, GFR, and FF with increased plasma protein concentration

Answer 27

NC
Decreased
Decreased

Question 28

what is the effect on RBF, GFR, and FF with decreased plasma protein concentration?

Answer 28

NC
Increased
Increased

Question 29

what is the effect on RBF, GFR, and FF with ureter constriction?

Answer 29

NC
Decreased
Decreased

Question 30

filtered load =

Answer 30

GFR x Plasma concentration

Question 31

Excretion rate =

Answer 31

urine flow x urine concentration

Question 32

reabsorption =

Answer 32

filtered - excreted

Question 33

secretion =

Answer 33

excreted - filtered

Question 34

Glucose at a normal plasma level is completely reabsorbed in PCT by

Answer 34

Na_/glucose cotransport

Question 35

glucose threshold

Answer 35

160

Question 36

glucose Tm

Answer 36

350

Question 37

Normal pregnancy reduces absorption of what in the PCT?

Answer 37

amino acids and glucose

Question 38

amino acid clearance

Answer 38

sodium dependent transporters in PCT

Question 39

deficiency of neutral amino acid (tryptophan) transporter; results in pellagra

Answer 39

Hartup’s disease

Question 40

PCT reabsorbs all glucose & AA, and most (5 things)

Answer 40

bicarb
sodium
chloride
phosphate
water

Question 41

PCT absorption does what to tonicity?

Answer 41

isotonic

Question 42

generated and secreted by PCT to act as a buffer for secreted H+

Answer 42

Ammonia

Question 43

Inhibits Na+/phosphate cotransport –> phosphate excretion

Answer 43

PTH

Question 44

PTH –> decreased phosphate by

Answer 44

increased excretion by decreasing reabsorption in PCT

Question 45

ATII stimulates NA+/H+ exchange –>

Answer 45

increased sodium, water, and bicarb reabsorption, permitting contraction alkalosis

Question 46

what percent of Na+ is reabsorbed in the PCT?

Answer 46

65-80%

Question 47

thin descending loop of Henle is impermeable to

Answer 47

sodium (concentrating sdemgnet0

Question 48

actively reabsorbs sodium, potassium, and chloride

Answer 48

TAL

Question 49

TAL indirectly induces the paracellular reabsorption of [2 things] through (+) lumen potential generation by K+ backleak

Answer 49

magnesium and calcium

Question 50

what percent of sodium is reabsorbed in the TAL

Answer 50

10-20%

Question 51

what drugs work at the PCT?

Answer 51

ACE inhibitors,

Carbonic anhydrase inhibitors

Question 52

what drugs work at the TAL?

Answer 52

loop diuretics

Question 53

TAL is impermeable to

Answer 53

water

Question 54

actively reabsorbs sodium and potassium –> makes urine hypotonic

Answer 54

early DCT

Question 55

what drugs work at the early DCT?

Answer 55

thiazide

Question 56

Effect of PTH on early DCT?

Answer 56

increases calcium/sodium exchange –> increased calcium reabsorption

Question 57

what percent of sodium is reabsorbed in the early DCT?

Answer 57

5-10%

Question 58

what drugs work on the collecting tubule?

Answer 58

K+ sparing diuretics (amiloride, triamterene, spirolactone, eplerenone)

Question 59

Collecting tubules reabsorb Na+ in exchange for secreting

Answer 59

K+ and H+

Question 60

regulates collecting tubule reabsorption of Na+ in exchange for K+ and H+ secretion

Answer 60

aldosterone

Question 61

acts on mineralocorticoid receptor in collecting tuble–> insertion of Na+ channel on luminal side

Answer 61

aldosterone

Question 62

acts at V2 receptor in principal cell in collecting tubule

Answer 62

ADH

Question 63

ADH –> insertion of

Answer 63

aquaporin H2 channels on luminal side of principal cell in collecting tubule

Question 64

percent of Na+ reabsorbed in collecting tubule

Answer 64

3-5%

Question 65

TF/P > 1 when

Answer 65

solute is reabsorbed less quickly than water

Question 66

TF/P = 1 when

Answer 66

solute and water are reabsorbed at the same rate

Question 67

TF/P <1 when

Answer 67

solute is reabsorbed more quickly than water

Question 68

tubulan inulin increases in concentration along the PCT as a result of

Answer 68

water reabsorption

Question 69

Renin responds to three things

Answer 69

decreased BP, decreased Na+ delivery, increased sympathetic tone

Question 70

JG cells secrete renin in response to

Answer 70

low BP

Question 71

macula densa tells JG cells to secrete renin in response to

Answer 71

low Na+ (Cl-) delivery

Question 72

what receptors tell JG cells to secrete renin in response to increased sympathetic tone?

Answer 72

beta-1

Question 73

AT II has six effects

Answer 73

1. vasoconstriction of vascular smooth muscle
2. vasoconstriction of efferent arteriole
3. ldosterone
4. ADH
5. Increased proximal tubule Na+/H+ activity
6. Stimulates hypothalamus

Question 74

What is the rationale of AT II preferential constriction of efferent arteriole

Answer 74

increase FF to preserve GFR in low-volume sttes

Question 75

aldosterone is produced by

Answer 75

adrenal gland

Question 76

aldosterone effects

Answer 76

1. increased Na+ and Na+K+ pump insertion in principal cells

2. enhanced K+ and H_ excretion

Question 77

aldosterone –> enhanced K+ secretion where?

Answer 77

principal cell K+ channels

Question 78

aldosterone –> inc H+ secretion where

Answer 78

intercalated cell H+ channels

Question 79

net effect of aldosterone

Answer 79

creats favorable Na+ gradient for Na+ and H20 reabsorption

Question 80

what produces ADH?

Answer 80

posterior pituitary

Question 81

ADH –> increased H2O channel insertion in

Answer 81

principal cells

Question 82

net effect of ADH

Answer 82

increased H2O reabsorption

Question 83

affects baroreceptor function; limits reflex bradycardia; helps maintain blood volume and BP

Answer 83

angiotensin II

Question 84

angiotensinogen is produced by the

Answer 84

liver

Question 85

angiotensinogen –> angiotensin I

Answer 85

Renin

Question 86

angiotensin I –> angiotensin II

Answer 86

ACE

Question 87

ACE inhibits

Answer 87

bradykinin

Question 88

ACE is produced by the

Answer 88

lungs

Question 89

Released from atria in response to increased volume; may act as a check on RAA system; relaxes vascular smooth muscle via cGMP, causing increased GFR and decreased renin

Answer 89

ANP

Question 90

primarily regulates osmolarity but also responds to low blood volume, which takes precedence over osmolarity

Answer 90

ADH

Question 91

primarily regulates blood volume;

Answer 91

Aldosterone

Question 92

in low-volume states, what acts to protect blood volume

Answer 92

BOTH aldosterone and ADH

Question 93

beta blocker effect on kidney

Answer 93

inhibit beta-1 receptors of the JGA, causing decreased renin release

Question 94

released by interstitial cells in the peritubular capillary bed in response to hypoxia

Answer 94

EPO

Question 95

what cells produce epo

Answer 95

renal peritubular intersitial cells

Question 96

what cells convert 25-OH vitamin D to its active form

Answer 96

proximal tubule cells

Question 97

what enzyme converts vitamin D to its active form?

Answer 97

1alpha hydroxylase

Question 98

what stimulates 1-alpha-hydroylase production?

Answer 98

PTH

Question 99

secreted by JG cells in response to decreased renal arterial pressure and increased renal sympathetic discharge (beta1 effect)

Answer 99

renin

Question 100

paracrine secretion vasodilates the afferent arterioles to increase GFR

Answer 100

prostaglandins

Question 101

NSAIDs can cause acute renal failure by inhibiting the renal production of

Answer 101

prostaglandins

Question 102

4 kidney endocrine functions

Answer 102

1. epo
2. 1,25-(OH)2 vitamin D
3. Renin
4. Prostaglandins

Question 103

6 hormones act on kidney

Answer 103

ANP, PTH, Renin, AT II, Aldosterone, ADH

Question 104

Secreted in response to increased atrial pressure.

Answer 104

Atrial natriuretic peptide (ANP)

Question 105

Causes increased GFR and increased sodium filtration with no compensatory Na+ reabsorption in distal nephron –> Na+ loss and volume loss

Answer 105

ANP

Question 106

PTH is secreted in response to three things

Answer 106

decreased plasma calcium
increased plasma phosphate
decreased plasma 1.25-(OH)2 vitamin D

Question 107

PTH causes increased calcium reabsorption where?

Answer 107

DCT

Question 108

PTH causes decreased phosphate reabsorption where?

Answer 108

PCT?

Question 109

PTH has 4 effects:

Answer 109

increased calcium reabsorption (DCT)
decreased phosphate reabsorption (PCT)
increased 1,25-(OH)2 vitamin D production
increased calcium and phosphate absorption from gut

Question 110

Angiotensin II is synthesized in response to:

Answer 110

decreased BP

Question 111

Renin is synthesized in response to:

Answer 111

decreased blood volume

Question 112

Aldosterone is synthesize in response to:

Answer 112

decreased blood volume (via AT II)

increased [K+]

Question 113

Aldosterone causes three effects

Answer 113

1. Increased sodium reabsorption
2. Increased K+ secretion
3. Increased H+ secretion

Question 114

Causes efferent arteriole constriction (–> inc GFR and FF) but with compensatory Na+ reabsorption in proximal and distal nephron

Answer 114

AT II

Question 115

Preservation of renal function in low-volume state (increased FF) with simultaneous NA+ reabsorption (both proximal and distal) to decreased additional volume loss

Answer 115

AT II

Question 116

Secreted in response to increased plasma osmolarity and decreased blood volume

Answer 116

ADH

Question 117

Binds to receptors on principal cells –> increased number of water channel channels –> increased H2O reabsorption

Answer 117

ADH