glomerular filtration

Question 1

GFR

• ___ml/min
• ___ L/day

Answer 1

125

180

Question 2

plasma volume is filtered __ times per day

Answer 2

60

Question 3

glomerular filtrate composition is about the same as ___, except for the absence of large ___

Answer 3

plasma

large proteins

Question 4

filtration factor = ___/____ ___ ____

Answer 4

GFR/ renal plasma flow

Question 5

filtration factor = ___ or ___%

Answer 5

.2

20%

Question 6

3 parts to the capillary filtration barrier

Answer 6

capillary endothelium
basement membrane
epithelium of glomerular capsule

Question 7

capillary filtration barrier is ____ and repels ____

Answer 7

electronegative

proteins

Question 8

mesangial cells: when contracted

- ___ surface area for filtration

Answer 8

decrease

Question 9

mesangial cells: when relaxed

- ___ surface area for filtration

Answer 9

increase

Question 10

polycationic dextran

- ___ charge

Answer 10

positive

Question 11

polyanionic dextran

- ___ charged

Answer 11

negatively

Question 12

____: presence of protein in the urine

Answer 12

proteinuria

Question 13

early detection of renal disease in at risk patients (4)

Answer 13

hypertension
diabetes
pregnancy
annual check up

Question 14

____: urine excretion of >30 but <150 mg albumin per day

Answer 14

microalbuminemia

Question 15

3 causes of microalbuminuria

Answer 15

early diabetes
hypertension
glomerular hyperfiltration

Question 16

prognostic value: diabetic patients with microalbuminuria are ___-___ fold more likely to develop persistent proteinuria

Answer 16

10-20

Question 17

filtration occurs due to a ___ gradient

Answer 17

pressure

Question 18

glomerular capillary filtration occurs rapidly due to the increased number of ___

Answer 18

fenestrations

Question 19

glomerular hydrostatic pressure and filtration are directly related to ___ ___

Answer 19

blood pressure

Question 20

increase afferent arteriole resistance –> __ GFR

Answer 20

decreased

Question 21

increase in efferent arteriole reistance –> ___ GFR

Answer 21

increase

Question 22

GFR = ___ml/min

Answer 22

125

Question 23

net filtration pressure = ___mmHg

Answer 23

10

Question 24

filtration coefficient (Kf) = \_\_\_ml/min per mmHg OR
\_\_\_\_ml/min per mmHg/100 gm

Answer 24

12. 5

4. 2

Question 25

Kf (filtration coefficient) = ___ ___ x ___ ___

Answer 25

hydraulic conductivity

surface area

Question 26

Kf cannot be measure directly but can be estimated by dividing ___ by ___

Answer 26

GFR

NFR

Question 27

3 diseases that can reduce Kf and GFR

Answer 27

chronic hypertension
obesity/diabetes mellitus
glomerulonephritis

Question 28

bowmans capsule hydrostatic pressure (Pb) normally changes as a ___ of GFR

Answer 28

function

Question 29

2 tubular obstructions that effect Pb (bowman’s capsule hydrostatic pressure)

Answer 29

kidneys stones

tubular necrosis

Question 30

urinary tract obstruction that effects Pb

Answer 30

prostate hypertrophy/cancer

Question 31

GFR =

Answer 31

glomerular filtration rate

Question 32

Kf=

Answer 32

filtration coefficient

Question 33

Pg =

Answer 33

glomerular hydrostatic pressure

Question 34

Pc=

Answer 34

capsular hydrostatic pressure

Question 35

πg =

Answer 35

glomerular oncotic pressure

Question 36

πc =

Answer 36

capsular oncotic pressure

Question 37

___: osmotic pressure caused by protein

Answer 37

oncotic

Question 38

why is the capsular oncotic pressure practically 0?

Answer 38

NO PROTEINS

Question 39

increase arterial plasma oncotic pressure –> ___ glomerular capillary oncotic pressure –> ____ GFR

Answer 39

increase

decrease

Question 40

increase the filtration factor (FF) –> ____ glomerular capillary oncotic pressure

Answer 40

INCREASE

Question 41

filtration factor = ___/___ ___ ___

Answer 41

GFR

renal plasma flow

Question 42

filtration is favored at the ___ end of the glomerulus

Answer 42

afferent

Question 43

reabsorption is favored on the ___ end of the glomerulus

Answer 43

efferent

Question 44

___ ___ pressure is the determinant of GFR most subject to physiologic control

Answer 44

glomerular hydrostatic pressure

Question 45

3 factors that influence glomerular hydrostatic pressure

Answer 45

arterial pressure
afferent arteriolar resistance
efferent arteriolar resistance

Question 46

increase in afferent arteriolar resistance –> ___ GFR and ___ renal blood flow

Answer 46

decrease

decrease

Question 47

increase in efferent arteriolar resistance –> ___ GFR and ___ renal blood flow

Answer 47

increase

decrease

Question 48

increase the filtration coefficient –> ___ GFR

Answer 48

increase

Question 49

increase hydrostatic pressure of bowmans capsule –> ___ GFR

Answer 49

decrease

Question 50

increase glomerular oncotic pressure –> ___ GFR

Answer 50

decrease

Question 51

increase arterial oncotic pressure –> ___ glomerular oncotic pressure –> ___ GFR

Answer 51

increase

decrease

Question 52

increase filtration factor –> ___ glomerular oncotic pressure –> ___ GFR

Answer 52

increase

Decrease

Question 53

increase glomerular hydrostatic pressure –> ___ GFR

Answer 53

increase

Question 54

increase afferent arteriolar resistance –> ____ glomerular hydrostatic pressure –> ___ GFR

Answer 54

decrease

decrease

Question 55

increase efferent arteriolar resistance –> ___ glomerular hydrostatic pressure –> ___ GFR

Answer 55

increase

increase

Question 56

Renal Blood Flow (RBF) = ____ _____ / ____

Answer 56

(difference in) pressure / resistance

Question 57

difference in pressure is the difference between renal ___ pressure and renal ___ pressure

Answer 57

artery

vein

Question 58

high blood flow is needed for ___ GFR

Answer 58

high

Question 59

oxygen and nutrients delivered to kidney normally greatly exceeds their ___ needs

Answer 59

metabolic

Question 60

a large fraction of renal oxygen consumption is related to renal tubular ___ reabsorption

Answer 60

sodium

Question 61

control of renal blood flow and GFR through ___ or ___

Answer 61

neurohormonal

local

Question 62

SP/catecholamines
- greatly increase resistance of \_\_\_\_ arterioles
- increase resistance in \_\_\_\_ arterioles
LEADS TO
- \_\_\_ GFR 
- greatly \_\_\_\_ RBF

Answer 62

afferent
efferent
decrease
decrease

Question 63

low levels of angiotensin II
- \_\_\_ efferent arteriolar resistance
LEADS TO
- \_\_\_\_ GFR
- \_\_ RBF

Answer 63

increase
increase
decrease

Question 64

high levels of angiotensin II
- \_\_\_ efferent arteriolar resistance
LEADS TO
- \_\_\_\_ GFR
- \_\_ RBF

Answer 64

increase
decrease
decrease

Question 65

NSAIDS

• anit-_____
• activates ___ ___

Answer 65

prostaglandins

renal failure

Question 66

prostaglandins
- greatly \_\_\_ afferent arteriole resistance
- \_\_\_ efferent arteriolar resistance
LEADS TO
- \_\_\_ GFR 
- greatly \_\_\_ RBFs

Answer 66

decrease
Decrease
increase
increase

Question 67

prostaglandins counteract ____

Answer 67

catecholamines

Question 68

blockade of prostaglandin synthesis –> ___ GFR

Answer 68

decrease

Question 69

endothelial derived nitric oxide
- greatly \_\_\_ afferent arteriolar resistance
- \_\_\_ efferent arteriolar resistance
LEADS TO
- \_\_ GFR
- greatly \_\_\_ RBF

Answer 69

decrease
decrease
increase
increase

Question 70

endothelial derived Nitric oxide protects against excessive ____

Answer 70

vasoconstriction

Question 71

endothelin
- greatly \_\_\_ afferent arteriolar resistance
- \_\_\_ efferent arteriolar resistance
 LEADS TO 
- \_\_\_ GFR
- greatly \_\_\_ RBF

Answer 71

increase
increase
decrease
decrease

Question 72

hepatorenal syndrome - decreased renal function in cirrhosis because of the replacement of liver cells by ___

Answer 72

tissues

Question 73

renal sodium avidity –> ___

Answer 73

ascites

Question 74

renal vasoconstriction –> ___ ___

Answer 74

hepatorenal syndrome

Question 75

myogenic mechanism
- increase arterial pressure –> ___ stretch of blood vessel –> ___ cell calcium entry –> ___ intracellular calcium –> ___ vascular resistance –> ___ blood flow and GFR –> stimulates ___ arterial pressure ect

Answer 75

increase
increase
increase
increase
stimulates
inhibits

Question 76

macula densa feedback
- decreased GFR –> ___ distal NaCl delivery –> ___ macula densa NaCl reabsorption –> ___ afferent arteriolar resistance –> ___ GFR

Answer 76

decrease
decrease
decrease
increase

Question 77

macula densa feedback
- increase proximal NaCl reabsorption –> ___ distal Nacl delivery –> ___ macula densa NaCl reabsorption –> ___ afferent arteriolar —> ___ GFR

Answer 77

decrease
decrease
decrease
increase

Question 78

angiotensin II
- decrease GFR –> ___ macula densa NaCl –> ___ renin –> ___ angII –> ___ blood pressure OR ___ efferent arteriolar resistance –> __ GFR

Answer 78

decrease
increase
increase
increase
increase
increase

Question 79

fever and pyrogens ___ GFR

Answer 79

increase

Question 80

glucorticoids ___ GFR

Answer 80

increase

Question 81

aging ___ GFR by 10%/decade

Answer 81

decreases

Question 82

hyperglycemia ___ GFR

Answer 82

increase

Question 83

dietary proteins

• high proteins ___ GFR
• low proteins ___ GFR

Answer 83

increase

decrease

Question 84

___: rate at which substances are removed from the plasma

Answer 84

clearance

Question 85

___ ___: volume of plasma completely cleared of a substance per minute by the kidneys

Answer 85

renal clearance

Question 86

glucose and albumin are completely ___

Answer 86

reabsorbed

Question 87

___ is the best way to measure GFR

Answer 87

inulin