Renal Blood Flow and Glomerular Filtration (Rao)

Question 1

Explain how renal failure can lead to death.

Answer 1

• Loss of the ability to balance water and Na
• Edema
• inc work load of heart
• heart failure and pulmonary edema
• adicemia
• hyperkalemia
• death

Question 2

What is ESRD?

Answer 2

end stage renal disease = little or no kidney function = cannot survive without hemodialysis or kidney transplantation

Question 3

Urine from a calyx flows into __(structure)___

Answer 3

the renal pelvis

Question 4

The kidney vasculature is ___% of body mass but receives ___% of total cardiac output

Answer 4

less than 5% but receives greater than 20%

Question 5

What named blood vessels does bblood travel through as it travels from the renal artery to the renal vein?

Answer 5

renal artery-> interlobar a -> arcuate a -> radial a -> afferent arteriole -> glomerular capillary beds -> efferent arteriole -> peritubular capillary bed -> renal vein

Question 6

the __(blood vessel)___ forms the glomerular capillary bed and the __(blood vessel)__ forma the peritubular capillary bed

Answer 6

afferent arteriole -> glomeriular capillary bed

efferent arteriole -> peritubular capillary bed

Question 7

What is the vasa recta?

Answer 7

blood supply to the medullary region (plays a role in concentration of urine)

Question 8

Describe the pressure profiles (hydrostatic) of the renal vasculature.

Answer 8

there are 3 drops in pressure that maintain a high hydrostatic pressure in the glomerular capillary beds (needed for filtration)

• afferent arteriole (90 -61 mmHg)
• efferent arteriole (59-29 mmHg)
• peritubular capillaires (25-6 mmHg)

dropping the HP slowly allows for more filtration (high capillary HP is needed for filtration)

*normally HP drops (from 90 to 25 mmHg) very quickly when blood travels from artery to vein, but due to the control of the smooth muscle in the renal vasculature, this drop can be slowed down = necessary for filtration to occur

Question 9

T or F: High hydrostatic pressure and high oncotic pressure (in glomerular capillaires) drives glomerular filtration.

Answer 9

F: high hydrostatic and low oncotic

Question 10

What is there an increase in oncotic pressure in the glomerular capillaries compared to the afferent arteriole?

Answer 10

because almost everything is being filtered out of the blood–leaving protein behind (bc it is too larger to be filtered)

Bc protein is pretty much the only thing left, it inc in conc in the blood which inc oncotic pressure

Question 11

What are the 3 processes of urine formation?

Answer 11

1. glomerular filtration
2. tubular reabs
3. tubular secretion

Question 12

What is an example of a substance that is…

freely filtered, partially reabs, but not secreted

Answer 12

urea

Question 13

What is an example of a substance that is…

freely filtered and completely reabs

Answer 13

glc, amino acids, and organic acids

Question 14

What is an example of a substance that is…

freely filtered, no reabs, but secreted

Answer 14

creatinine

Question 15

Describe the composition of glomerular filtrate

Answer 15

• NO cells or large proteins
• low levels of some small molecules bound to proteins (calcium and fatty acids)
• more antions than cations due to Gibbs Donnan effect

Question 16

What is the average GFR of a healthy person?

Answer 16

130 mL/min

180 L/day

Question 17

T or F: glomerular filtration increases with age and renal disease

Answer 17

F: decreases

Question 18

What is the avg filtration fraction of a healthy indiv?

Answer 18

20%

Question 19

What effect does a urethral obstruction have on GRF and FF?

Answer 19

decreases both GFR and FF

Question 20

What effect does renal artery stenosis have on GFR and FF?

Answer 20

decreases GFR and inc FF (dec renal plasma flow)

Question 21

What are the filtration barriers in glomerulus?

Answer 21

1. capillary endothelium
2. basement membrane
3. epithelium or podocyte monolayer

Question 22

What solute properties determine filterability?

Answer 22

size and charge

small and + charge filtered more

Question 23

What are the determinants of GFR?

Answer 23

GFR = Kf x Net filtration pressure

net filtration pressure = forces that favor filtration - forces that oppose filtration
= (HPgc - HPbs) - OPgc

Question 24

What is Kf?

Answer 24

filtration coefficient = hydraulic conductivity X surface area of glomerular capillary
= 0.08 nL/s/mmHg

hydraulic conductivity = ease at while fluid can flow thru the pores

Question 25

How does Kf value change with diabetes?

Answer 25

Kf is determined by hydraulic conductivity (ease at while fluid can flow thru the pores). With DM, the basement membrane thickens and capillaries are damaged… both reduce the hydraulic conductivity and reduce the Kf

Question 26

What effect does inc resistance in the afferent arteriole have on GFR and RPF?

Answer 26

reduces GFR and RPF

Question 27

What effect does inc resistance in the efferent arteriole have on GFR and RPF?

Answer 27

inc GFR and dec RPF

Question 28

What effect does dec resistance in the efferent arteriole have on GFR and RPF?

Answer 28

dec GFP and inc RPF

Question 29

What effect does dec resistance in the afferent arteriole have on GFR and RPF?

Answer 29

inc GFR and inc RPF

Question 30

What is a measure of the resistance of a nephron and the rate of urine flow?

Answer 30

HP of bowman’s space

Question 31

What are some conditions that would inc HP bowmans space?

Answer 31

kidney stone, hypertrophic prostate, tumor

Question 32

What effect does an inc HP bowman’s space have on GFR?

Answer 32

decreases it

Question 33

Why do men with enlarged prostates pee all the time?

Answer 33

by emptying their bladder frequently the HP of bowman’s space decrease and GFR can increase (compensation for inc HP with hypertrophy)

Question 34

What is the relationship between renal plasma flow, oncotic pressure, and GFR?

Answer 34

If RPF decreases, oncontic pressure inc, and GFR will decrease

Question 35

What would happen if GFR was not autoregualted and BP increased?

Answer 35

GFR would increase -> urine output would increase -> blood volume would be depleted

Question 36

What changes in order to auto regulate GFR?

Answer 36

afferent arteriolar resistance via…

1) myogenic mechanism
2) tubuloglomerular feedback

Question 37

What does the juxtaglomerular complex sense in order to autoregulate GFR? Why?

Answer 37

NaCl conc (as a sensor for GFR change)

Inc Cl- at macula densa = GFR has inc -> tells aff art to inc resistance and dec the GFR

dec Cl- at macula densa = GFR as dec –> tells aff arteriole to dec resistance –> GFR will inc

Question 38

When there is an inc in Cl- at the macula densa, what happens?

Answer 38

the JG apparatus releases ATP and ara c metabolites –> [Ca2+] inc –> smooth muscle contraction -> dec GFR

Question 39

When there is an inc in Cl- at the macula densa, what happens?

Answer 39

renin is secreted from JG cells which decreases [Ca2+] -> ang I -> ang II -> constricts arterioles and leads to aldosterone secretion -> Na+ retention and H2O retention -> inc BP -> inc GFR

Question 40

T or F: renal bood vessels are richly innervated by sympathetic nerve fibers

Answer 40

T

Question 41

What hormones and/or substances secreted by endothelial cell will cause the arterioles to constrict? What affect do they have on GFR?

Answer 41

adrenaline, endothelin-1

decrease GFR

Question 42

What hormones and/or substances secreted by endothelial cell will cause the arterioles to decrease vascular tone? What affect do they have on GFR?

Answer 42

NO and prostaglandins

Question 43

What are the 2 general causes of proteinuria?

Answer 43

glomerular barrier failure

abnormal circulating protein

Question 44

What type of barrier breakdown will result in albumin and cells filtered into the urine?

Answer 44

visible barrier breakdown/large pore

Question 45

What type of barrier breakdown will result in albumin but not cells filtered into the urine?

Answer 45

invisible barrier breakdown/loss of selectivity

Question 46

When there is an abnormal circulating protein in the urine, it is usually small, medium, or large in size?

Answer 46

medium

Question 47

What causes an abnormally circulating protein to be found in the blood in the first place?

Answer 47

breakdown of tissue or turmor cell production