Unit 4: Renal Physiology Pt3--Kidneys

Question 1

What is the measure of renal function?

Answer 1

Glomerular Filtration rate (GFR)

Question 2

What is the GFR equal to the clearance of?

Answer 2

• inulin
• serum creatinine
• blood urea nitrogen (BUN)

Question 3

What is the normal GFR?

What must it be at to be considered Kidney (renal) Failure?

Answer 3

greater than 90 ml/min

GFR less than 15 ml/min

Question 4

What does Renal Clearance describe?

Answer 4

rate at which substance are removed from the plasma

volume of plasma completely cleared of a substance by the kidneys per unit of time

Question 5

What is the equation for Clearance of the kidney?

Answer 5

Clearance = (urine conc. of substance X) / (plasma conc. of substance X) x urine flow rate

Question 6

What can urine flow rate vary from?

Answer 6

0 to 600 mL/min

if at 0 it means NOT cleared

Question 7

What is the renal clearance proportional to? What is it inversely proportional to?

Answer 7

proportional–> to urine conc of susbtance X ( increase urine conc. of substance X; will increase clearance)

inversely proportional to –> plasma conc. of substance X

Question 8

What three pieces of information do we need in order to calculate renal clearance?

Answer 8

• urine conc. of substance X (mg/mL)
• plasma conc. of substance X (mg/mL)
• urine flow rate (mL/min)

Question 9

What does the clearance of inulin equal to? How is this possible?

Answer 9

equal to GFR rate

it is a fructose polymer and is FREELY filtered–> is not reabsorbed or secreted

Question 10

What has the highest clearances through the kidneys? What is it equal to?

Answer 10

PAH (para-aminohippuric acid)

organic acid that is BOTH filtered and secreted

clearance of PAH = effective renal plasma flow

Question 11

What can be used to estimate GFR in clinical practice? Why is it only an estimate?

Answer 11

Creatinine –> not perfect substance, b/c some creatinine is secreted by proximal tubule

10% error– which is cancelled by method that overestimates plasma creatine by 10%

Question 12

What is the equation for Clearance Ratios?

Answer 12

= Clearance of X / Clearance of inulin

Question 13

What does it mean if the Clearance ratio equals 1?

Answer 13

the clearance of x = clearance of inulin

therefore = GFR

Question 14

What does it mean if the Clearance Ratio is greater than 1? What is an example of this?

Answer 14

the clearance of x > clearance of inulin

therefore substance x is BOTH filtered and secreted

Ex: PAH

Question 15

What does it mean if the Clearance Ratio is less than 1? What are examples?

Answer 15

the clearance of x < clearance of inulin

Two Possibilities:

1. Substance x is not filtered (Ex: albumen)
2. Substance x is filtered and subsequently reabsorbed (Ex: glucose)

Question 16

What fraction of resting CO do the kidneys receive?

Answer 16

1/4 of resting CO

= 125 ml/min

(180 L/day)

Question 17

What are the four ways Regulation of Renal Blood Flow (RBF) occurs?

Answer 17

1. SNS and circulating catecholamines
2. Angiotensin II
3. Prostaglandins (PGE2 and PG12)
4. Dopamine

Question 18

What are the afferent and efferent arterioles innervated by? Which one has more alpha1 receptors? What will stimulation do?

Answer 18

both innervated by SNS

Afferent Arterioles have more alpha1 receptors–> SNS stimulation will decrease GFR and RBF

Question 19

What effect does stimulation of SNS have on kidneys?

Answer 19

decrease GFR and RBF

stimulate release or renin from juxtaglomerular cells

Question 20

What type of cells is renin released from?

Answer 20

juxtaglomerular cells

Question 21

What is a potent vasoconstrictor of BOTH Afferent Arterioles and Efferent Arterioles in the kidney?

Answer 21

Angiotensin II

Question 22

Are Afferent Arterioles or Efferent Arterioles more sensitive to Angiotensin II? What effect will low and high levels of Angiotensin II have?

Answer 22

Efferent arterioles are more sensitive

Low Levels–> increase GFR by constricting Efferent Arterioles

High Levels–> decrease GFR by constricting BOTH Afferent and Efferent Arterioles

overall will decrease RBF

Question 23

What is produced locally that will vasodilate both Afferent and Efferent Arterioles?

Answer 23

Prostaglandins

Question 24

What activates Prostaglandins? Why?

Answer 24

activated by hemorrhage (will vasodilate AA and EE)–> to attenuate(reduce effect of) constrictor effects of angiotensin II and SNS to prevent renal failure

Question 25

What will inhibit Prostaglandin synthesis and what effect can this have?

Answer 25

NSAIDs (non steroidal anti-inflammatory drugs)–> can interfere w/ protective effects of PGs on renal function following hemorrhage

OH NO!

Question 26

Where is dopamine produced in the kidneys?

Answer 26

produced by Proximal Tubule

Question 27

What effect will low levels of Dopamine have on different arterioles in the body?

Answer 27

• dilates renal arterioles and cerebral, cardiac, splanchnic arterioles
• constricts skeletal muscle and cutaneous arterioles

Question 28

What effect will dopamine have on the kidneys?

Answer 28

• dilate arterioles and therefore increase RBF

- inhibits renin secretion (so won’t increase BP and protects brain and heart from high BP)

Question 29

Will a low or high does of dopamine aid in treatment of hemorrhage?

Answer 29

low does of dopamine–> protective (vasodilatory) effect on brain, heart, and kidney

Question 30

T/F. RBF and GFR vary easily over a wide range of perfusion pressures

Answer 30

False– they are kept constant over a wide range of perfusion pressures (80-200 mmHg)

Question 31

How do we accomplish keeping RBF and GFR constant over a wide range of perfusion pressures?

Answer 31

by varying resistance of arterioles –> primarily the afferent arterioles

Question 32

Where does most autoregulation of RBF and GFR take place?

Answer 32

in the afferent arterioles

Question 33

What two Hypothesis are there for autoregulation of the kidney?

Answer 33

1. Myogenic Hypothesis

2. Tubuloglomerular Feedback

Question 34

What does the Myogenic Hypothesis involve?

Answer 34

increase arterial blood pressure–> stretches blood vessels–> which causes reflex constriction

–> stretch activated Ca++ channels in Afferent Arterioles

Question 35

What does the Tubuloglomerular Feedback involve?

Answer 35

increase in RBF will increase GFR which is increasing delivery of solute and water to macula densa of Juxaglomerular apparatus (maybe sensing solute?)

this increases resistance of Afferent Arterioles by release of a local constrictor

Question 36

How is the GFR and the RBF effected by vasoconstriction of the Afferent Arterioles?

What about for the Efferent Arterioles?

Answer 36

AA constriction–> will decrease GFR and decrease RBF

EE constriction–> will increase GFR and decrease RBF

Question 37

What does Excretion equal?

Answer 37

Excretion = filtration - reabsorption + secretion

Question 38

How does one Measure the renal plasma flow using the Fick Principle? Is this practical?

Answer 38

RPF = (PAH conc. in urine) / (PAH conc. in Renal Artery) - (PAH conc. in Renal Vein) x urine flow rate

NOT practical to pick up conc. in renal arteries and veins

Question 39

How does one measure the Effective renal plasma flow?

Answer 39

Effective RPF = clearance of PAH

Effective RPF = (PAH conc. in urine) / (PAH conc. in plasma) x urine flow rate

~w/in 10%
~ PAH in renal vein is nearly 0 (but not )

Question 40

Once we have RPF, how do we find RBF?

Answer 40

RBF = RPF / (1- Hct)

Question 41

What are the layers of the Glomerular Capillary?

Answer 41

1. Endothelim
2. Basement Membrane
3. Epithelium

Question 42

What layer of the Glomerular Capillary has pores where plasma proteins can pass and RBC’s cannot?

Answer 42

Endothelium

Question 43

What are the 3 layers of the Basement Membrane of the Glomerular capillary?

Answer 43

1. lamina rara interna
2. lamina densa
3. lamina rara extera–> fused with epithelia

Question 44

What part of the Glomerular filtration prevents plasma protein filtration?*

Answer 44

Basement Membrane

it is the most significant barrier

Question 45

What layer of the Glomerular capillary has filtration slits called fenestrations?

Answer 45

Epithelium

Question 46

Does the Glomerular Capillary have a negative or positive charge on it? Why is this important?

Answer 46

Negatively charge glycoproteins–> on endothelium, BM, and epithelium

provides additional layer of protection from larger MW proteins at physiologic pH that carry a net neg. charge

Question 47

Of the following Dextran’s which is most filterable and which is least filterable?

1. Cationic
2. Neutral
3. Anionic

Answer 47

1. Cationic–> MOST filterable (b/c gets attracted)
2. neutral
3. Anionic–> LEAST filterable (b/c gets repelled)

Question 48

What is the hydrostatic P in glomerular capillaries? How does this P change along the cap length? How?

Answer 48

= 45 mmHg

NO decrease in P along cap lenght–> due to constriction of Efferent Arterioles–> this keeps pressure high and promotes filtration

Question 49

What will the Net filtration P at the END of the Glomerular Capillaries equal?

Answer 49

Net filtration P = 0 mm Hg

therefore no filtration occurs normally at end of glomerular capillaries