Glomerular Filtration and Renal Blood Flow

Question 1

How does a high protein diet affect TGF?

Answer 1

enhances NaCl resorption before macula densa –> increased renin –> if persists for a long time, can desensitise TGF

Question 2

What occurs if you constrict the afferent arteriole?

Answer 2

Puf and GFR decrease

Question 3

What is creatinine useful for?

Answer 3

long-term monitoring of kindy function

freely filtered at the glomerulus, but a small amount is also secreted = not ideal marker, but easy to measure clinically

Question 4

When does GFR = Clearance rate?

Answer 4

1. substance must be freely filterable in the glomeruli
2. substance must be neither reabsorbed nor secreted by tubules
3. must not be made, broken down, or accumulated by the kidney
4. must be physiologically inert (not toxic, doesn’t affect renal fxn)

Question 5

What happens when there is decreased perfusion pressure?

Answer 5

macula densa –> JG –> secrete renin –> Angiotensin II –> efferent arteriolar vasoconstriction

also results in afferent dilation through NO

Question 6

How does tubuloglomerular feedback work?

Answer 6

macula densa cells sense NaCl –> send signal to juxtaglomerular/granular cells to produce renin –> can also signal mesangial cells to contract

Question 7

What is nephrin?

Answer 7

one of the proteins found in the filtration slit diaphragm

Question 8

What is the effect of sympathetic stimulation on the kidneys?

Answer 8

constrict arterioles –> decrease RBF/GFR

activate alpha-1 receptors on afferent arterioles

Question 9

How does the macula densa signaling work if there is too much NaCl?

Answer 9

NaCl will activate NKCC transporter a lot –> increased ATP/adenosine –> thru calcium signaling, will vasoconstrict afferent arterioles –> decreased GFR –> less salt coming in

Question 10

What receptor is on tubular epithelial cells that, when stimulated, increases Na resorption?

Answer 10

alpha-1

note: acts on Na-K ATPase

Question 11

How do P_uf and π_gc change from afferent to efferent arterioles?

Answer 11

π_gc increases and Puf decreases

Question 12

What arterioles does antiotensin preferentially act on?

Answer 12

efferent arterioles

Question 13

What receptor is used for renin release?

Answer 13

beta-1 adrenoceptor

Question 14

How does vascular hydrostatic pressure change from the renal artery to peritubular capillary?

Answer 14

high in renal A

decreases a lot across afferent a

stays relatively high in glomerular capillary

decreases a lot across efferent a

low in peritubular c

Question 15

What happens if there is increased renal perfussion pressure?

Answer 15

macula densa signaled –> adenosine –> vasoconstriction of afferent arteriole

(similar to when it senses too much NaCl)

Question 16

What are the intrinsic renal hemodynamics control mechanisms?

Answer 16

autoregulation

tubuloglomerular feedback

Question 17

What are the 3 physical factors contributing to GFR?

Answer 17

hydraulic conductivity = permeability/porosity of the fenestrated endothelium

surface area for filtration

capillary ultrafiltration pressure

Question 18

What is the autoregulatory range?

What happens outside this range?

Answer 18

10-170 mmHg is the range at which autoregulatory mechanisms are effective to maintain stable renal blood flow

below range –> blood flow will still decrease

above range –> blood flow will still increase

Question 19

What is PAH used for?

Answer 19

estimates renal plasma flow

freely filtered and also secreted –> amount of PAH in plasma of renal arter is abt equal to the amount excreted in urine

must be administered by continuous IV fusion

Question 20

What is the main thing altering P_uf?

Answer 20

changing glomerular capillary pressure (Pgc)

Question 21

What cells release renin?

Answer 21

granular cells

Question 22

What does glomerulartubular balance do?

Answer 22

higher GFR –> more plasma water filtered –> higher oncotic pressure in efferent arteriole

increased GFR –> more water and sodium reabsorbed back into arterioles

Question 23

If RBF decreases due to hemorrhage, what must happen to maintain normal FF?

Answer 23

GFR must increase

FF = GFR/RBF

Question 24

What happens if you damage the filtration barrier so that the negative charges on the barrier are removed?

Answer 24

increased filtration of anions

Question 25

How are plasma creatinine levels and GFR related?

Answer 25

inversely proportional

(the more creatinine still in the blood, the less is being filtered)

Question 26

What is the filtration slit diaphragm?

Answer 26

complex of molecular barriers btw podocyte arms that acts to filter molecules as they pass through the filtration slit

Question 27

What happens if you constrict the efferent arteriole?

Answer 27

GFR and Puf increase

Question 28

What does a low BUN:Cr ratio indicate?

Answer 28

intrarenal problem

renal diseases reduce BUN reabsorption therefore decreasing plasma levels

Question 29

What are the 3 layers of the glomerular filtration barrier?

Answer 29

capillary endothelium = fenestrae glomerular

basement membrane

podocyte epithelium = filtration slits

Question 30

What does a high BUN/Cr ratio indicate?

Answer 30

>20:1

pre-renal problem

BUN reabsorption is increased

Question 31

What receptor is used to constrict afferent arterioles?

Answer 31

alpha-1 receptors

Question 32

What are the 2 main substances listed that follow the GFR = C_x rule?

Answer 32

inulin

creatinine (not perfect though)

Question 33

As filtration fraction increases, what happens to the oncotic pressure of efferent arteriole?

Answer 33

oncotic pressure increases bc more fluid is pulled out of blood therefore it is more concentrated

Question 34

What are the extrinsic control mechanisms of renal hemodynamics?

Answer 34

sympathetic nerves

hormones

composition of blood

Question 35

What is the biogel made of and where is it located?

Answer 35

on capillary endothelium

made of glycocalyx = hyaluronan, and heparan sulfate

biogel = negatively charged, so other negatively charged molecules are repelled

Question 36

What is the myogenic reflex?

Answer 36

increased pressure in blood vessels –> local reflex btw vascular smooth muscle cells –> afferent constriction and efferent dilation via calcium signaling

Question 37

What is the estimated normal filtration fraction?

Answer 37

~20% = GFR/RBF

Question 38

What are the relative filterabilities of neutral, anionic, and cationic molecules?

Answer 38

anionic = least filterable

neutral = middle

cationic = most filterable

Question 39

What is special about inulin?

Answer 39

amount excreted in urine = amount filtered

GFR = Cx

Bc inulin isn’t reabsorbed or secreted

Question 40

What size molecules are freely filtered?

What size molecules are not filtered at all?

Answer 40

< 20 A = Free

> 42 A = not filtered

Question 41

What is a normal BUN:Cr ratio?

Answer 41

10-20:1

Question 42

Where are there more alpha-1 receptors?

Answer 42

on afferent arteriole

(more than efferent - bc want to decrease filtration if you are fighting/flighting)