B5-036 Renal Physiology I

Question 1

blood enters the glomerulus via

Answer 1

afferent arteriole

Question 2

blood exits the glomerulus via

Answer 2

efferent arteriole

Question 3

all the glomeruli are located in the

Answer 3

cortex

Question 4

3 layers of the glomerular filtration membrane

Answer 4

1. endothelial cells
2. basement membrane
3. podocytes

Question 5

space between podocytes

Answer 5

slit diaphragm

Question 6

• plasma without proteins
• only ions and small molecules

Answer 6

renal ultrafiltrate

Question 7

is albumin normally able to filter through the membrane?

Answer 7

no, too big

Question 8

the charge of albumin is […] than hemoglobin

Answer 8

more negative

this is why hemoglobin can filter and albumin cannot

Question 9

are positive or negative ions more favorable for filtration?

Answer 9

positive

basement membrane is negatively charged

Question 10

the basement membrane is […] charged

Answer 10

negatively

why positively charged ions filter better

Question 11

infection can cause loss of […] at the basal membrane

Answer 11

negative charge

causes leakage of proteins in the urine

Question 12

damage to the GBM will cause […] decreasing plasma oncotic pressure

Answer 12

hypoproteinemia

will cause edema

Question 13

what is beneficial about the biphasic curve of pressures along the nephron?

Answer 13

maintains high hydrostatic pressure for filtration

Question 14

hydrostatic pressure - oncontic pressure =

Answer 14

filtrating pressure

Question 15

sites of major resistance within nephron

2

Answer 15

afferent and efferent arterioles

Question 16

hydrostatic pressure > oncotic pressure in the glomerular capillaries, thus…

Answer 16

filtration

Question 17

oncotic pressure > hydrostatic pressure in peritubular capillaries, thus…

Answer 17

absorption

Question 18

describe forces involved in ultrafiltration

Answer 18

major force: hydrostatic pressure of glomerular capillary bed PGC

opposed by: hydrostatic pressure of tubule PBS
colloid osmotic pressure of blood (PGC)

Question 19

normal PUF=

Answer 19

10 mmHg

PUF= PGC - PBS - IIGC

Question 20

besides the pressure […] and […] of the GBM are important factors

Answer 20

surface area
permeability

together= KUF

Question 21

normal KUF=

Answer 21

12 ml/min/mmHg

Question 22

GFR=

equation and normal value

Answer 22

KUF x PUF

normal about 120

Question 23

main pressure that can be changed to regulate filtration

Answer 23

hydrostatic pressure

Question 24

increased pressure in glomerulus causes […] filtration

more or less

Answer 24

more

Question 25

obstruction of the renal arteries will […] hydrostatic pressure

Answer 25

decrease

cause low GFR

Question 26

obstruction of the ureter will […] the pressure in the glomerulus

Answer 26

increase

decreased GFR due to increased capsule pressure

Question 27

changes in resistance of afferent and efferent arterioles causes changes in

Answer 27

GFR

Question 28

describe the changes to pressures

afferent constriction
glomerular capillary pressure:
peritubular capillary pressure:
renal blood flow:

Answer 28

glomerular capillary pressure: decrease
peritubular capillary pressure: decrease
renal blood flow: decrease

Question 29

describe the changes to the pressures

afferent dilation
glomerular capillary pressure:
peritubular capillary pressure:
renal blood flow:

Answer 29

glomerular capillary pressure: increase
peritubular capillary pressure: increase
renal blood flow: increase

Question 30

describe the changes to the pressures

efferent constriction
glomerular capillary pressure:
peritubular capillary pressure:
renal blood flow:

Answer 30

glomerular capillary pressure: increase
peritubular capillary pressure: decrease
renal blood flow: decrease

Question 31

describe the changes in the pressures

efferent dilation
glomerular capillary pressure:
peritubular capillary pressure:
renal blood flow:

Answer 31

glomerular capillary pressure: decrease
peritubular capillary pressure: increase
renal blood flow: increase

Question 32

describe the changes in the pressures

afferent-efferent constriction
glomerular capillary pressure:
peritubular capillary pressure:
renal blood flow:

Answer 32

glomerular capillary pressure: no change
peritubular capillary pressure: decrease
renal blood flow: decrease

Question 33

describe the changes in the pressures

afferent-efferent dilation
glomerular capillary pressure:
peritubular capillary pressure:
renal blood flow:

Answer 33

glomerular capillary pressure: no change
peritubular capillary pressure: increase
renal blood flow: increase

Question 34

autoregulation of RBF and GFR is done via

2 mechanisms

Answer 34

• tubuloglomerular feedback
• myogenic response

Question 35

if you transplant a kidney, innervation is not maintained but […] is

Answer 35

autoregulation

Question 36

describe the myogenic response

Answer 36

• increase in blood pressure
• arteriolar smooth muscles stretch
• arteriolar muscle contraction
• increases resistance
• net result: little change in RBF

Question 37

describe the tubuloglomerular feedback mechanism

Answer 37

1. increase in GFR
2. increases tubular fluid flow rate
3. increases Na+ and Cl- delivery to macula densa
4. increases vasoconstrictor signals (adenosine)
5. causes afferent arteriolar constriction

Question 38

regulates GFR to prevent overloading of the tubules

Answer 38

tubuloglomerular feedback mechanism

Question 39

maintains pressure in the glomerulus

Answer 39

myogenic response

Question 40

maintance range for myogenic response and TGF

of arterial pressure

Answer 40

about 50-200

Question 41

the glomerular filtration barrier contains [….] charged glycoproteins

Answer 41

negatively

prevents the entry of negatively charged molecules (albumin)

FA pg. 605

Question 42

slit diaphragm prevents entry of molecules greater than

size

Answer 42

40 nm

FA pg 605

Question 43

how does angiotensin II lead to an increase in blood pressure?

3 mechanisms

Answer 43

• Na+ reabsorption in proximal tubules
• Na+ retention
• vasoconstriction

Question 44

the clearance of […] is most commonly used to measure GFR

Answer 44

creatinine

Question 45

the excretion of […] provides the most accurate measure of GFR

Answer 45

inulin

Question 46

GFR values differ with […] and […]

Answer 46

age and gender

depends greatly on muscle mass

Question 47

main parts of juxtaglomerular apparatus

Answer 47

• mesangial cells
• JG cells
• macula densa

Question 48

sense decreased NaCl in distal convoluted tubule and stimulate the release of renin

Answer 48

macula densa

Question 49

the GBM is […] charged and facillitates the filtrations of […] charged molecules

Answer 49

negative
positively

Question 50

can glucose filter through the glomerulus?

Answer 50

yes

Question 51

changes in the […] of the GBM lead to proteinuria

Answer 51

charge

Question 52

changes in the glomerular membrane effect its

Answer 52

KUF

Question 53

prevents increases in blood pressure from producing significant changes in RBF and GFR

Answer 53

autoregulation

Question 54

arterioles constrict in responce to stretch produced by increased hydrostatic pressure

Answer 54

myogenic response

Question 55

causes constriction of the glomerular afferent arterioles

Answer 55

tubuloglomerular feedback mechanism

Question 56

dilation of both the afferent and efferent glomerular arteries will increase

Answer 56

RBF

Question 57

constriction of the glomerular afferent and efferent arteriole will cause

Answer 57

decreased RBF and GFR

Question 58

constriction of the afferent arteriole alone will cause

Answer 58

decrease in RBF and GFR

Question 59

a post renal obstruction will cause the net glomerular ultrafiltrating pressure to

Answer 59

decrease

Question 60

how does autoregulation effect GFR and RBF?

Answer 60

remains constant

Question 61

an ACE inhibitor blocks the conversion of

Answer 61

angiotensin I to angiotensin II

decreases total aldosterone

Question 62

main physiological factor involved in the regulation of GFR

Answer 62

constriction of afferent and efferent arterioles

increases hydrostatic pressure

Question 63

the GBM is extremely negatively charged due to

Answer 63

heparin sulfates

Question 64

the lamina densa is made of type […] collagen

Answer 64

4

Question 65

spaces between podocytes

Answer 65

filtration slit

Question 66

bridge slits between podocytes

Answer 66

slit diaphragms

Question 67

slit diaphrams are made of

what protein

Answer 67

nephrin

Question 68

what electrolytes can get through the GBM?

Answer 68

• K+
• Na+
• Cl+
• Mg2+
• Ca2+
• H2O
• HCO3-

Question 69

what molecules can get through the glomerulus?

Answer 69

• glucose
• amino acids
• lipids
• urea
• creatinine
• vitamins

Question 70

phagocytose and remove trapped molecules from the slit diaphrams

Answer 70

mesangial cells

Question 71

produce renin

Answer 71

JG cells

Question 72

have baroreceptors and are important in the maintenance of blood pressure

Answer 72

JG cells

Question 73

any fluctuations in the […] or […] effect GFR

Answer 73

net filtration pressure (NFP)
filtration coefficient (KF)

Question 74

force that pushes plasma out of glomerular capsule into Bowman’s space

Answer 74

GHP

Question 75

what glomerular force is directly dependent on systolic bp?

Answer 75

GHP

increases as BP increases, decreases as BP decreases

Question 76

what force is exerted by plasma proteins (like albumin)?

Answer 76

colloid osmotic pressure (COP)

Question 77

how does multiple myeloma effect COP?

Answer 77

increases

increased plasma protein

Question 78

how does hypoproteinemia affect COP?

Answer 78

decreases

common cause: diarrhea

Question 79

which force pushes fluid back into the capillary bed as fluid is being filtered out?

pressure build up in Bowman’s

Answer 79

capsular hydrostatic pressure

Question 80

how do renal calculi effect CHP?

Answer 80

increases

Question 81

how does hydronephrosis effect CHP?

Answer 81

increases

Question 82

how does afferent arteriole constriction effect:
GFR:
RPF:
FF:

Answer 82

GFR: decreases
RPF: decreases
FF: -

Question 83

how does efferent arteriole constriction effect:
GFR:
RPF:
FF:

Answer 83

GFR: increases
RPF: decreases
FF: increases

Question 84

how does increased plasma protein concentration effect:
GFR:
RPF:
FF:

Answer 84

GFR: decreases
RPF: -
FF: decreases

Question 85

how does decreased plasma protein effect:
GFR:
RPF:
FF:

Answer 85

GFR: increased
RPF: -
FF: increased

Question 86

how does constriction of the ureter effect:
GFR:
RPF:
FF:

Answer 86

GFR: decreased
RPF: –
FF: decreased

Question 87

how does dehyration effect:
GFR:
RPF:
FF:

Answer 87

GFR: decreased
RPF: way decreased
FF: increased

Question 88

why does diabetic nephropathy decrease GFR?

Answer 88

protein deposits decrease glomerular surface area, decreasing GFR

Question 89

why does glomerulonephritis cause a high GFR?

Answer 89

makes basement membrane very porous –> higher GFR

lose more protein

Question 90

what two factors effect the filtration coefficient?

Answer 90

surface area
permeability of the glomerulus

Question 91

what factors effect the NFP?

3

Answer 91

glomerular hydrostatic pressure (GHP)
colloid osmotic pressure (COP)
capsular hydrostatic pressure (CHP)