Urinary System

Question 1

The urinary system regulates:

Answer 1

• plasma composition (ions)
• plasma volume + pressure
• plasma osmolarity
• plasma pH

Question 2

The urinary system indirectly regulates:

Answer 2

MAP through solute and water composition in plasma

Question 3

How does the urinary system regulate plasma pH?

Answer 3

through H+ ions and HCO3- with the lungs and blood buffering system

Question 4

The urinary system removes:

Answer 4

• metabolic waste

- foreign substances

Question 5

How does the urinary system remove metabolic waste?

Answer 5

• Removal of metabolic wastes from nutrient breakdown (urea, uric acid from proteins and nucleic acids)
• waste products entering the body ie. Food additives, drugs

Question 6

Name some other functions of the urinary system.

Answer 6

• secrete EPO and renin
• activate vitamin D3 to calcitriol
• gluconeogenesis

Question 7

The secretion of EPO does what?

Answer 7

• makes them endocrine organs

- EPO signals bone marrow to increase production of RBCs

Question 8

The secretion of renin does what?

Answer 8

renin involved with RAAS system that regulates MAP

Question 9

Vit D activation is necessary to:

Answer 9

regulate calcium in the blood

Question 10

What is gluconeogenesis?

Answer 10

creates glucose from non-carbohydrate intermediates (as necessary ie. CHO low)

Question 11

Describe the kidneys.

Answer 11

• paired
• bean shaped
• approximate size of fist: 115-170 g
• retroperitoneal
• from urine

Question 12

What do ureters do?

Answer 12

transport urine from kidneys to bladder

Question 13

What does the bladder do?

Answer 13

store urine

Question 14

What does the urethra do?

Answer 14

excrete urine from bladder to outside of body

Question 15

nephron =

Answer 15

functional unit

Question 16

Renal corpuscle consists of:

Answer 16

• glomerulus

- Bowman’s capsule

Question 17

glomerulus =

Answer 17

capillary network for filtration

Question 18

What does the Bowman’s capsule do?

Answer 18

• receives the filtrate

- inflow to renal tubules

Question 19

Renal tubules consists of:

Answer 19

• proximal tubule
• Loop of Henle
• distal convoluted tubule
• collecting duct

Question 20

What makes up the proximal tubule?

Answer 20

• proximal convoluted tubule

- proximal straight tubule

Question 21

What makes up the Loop of Henle?

Answer 21

• descending limb
• thin ascending limb
• thick ascending limb

Question 22

What makes up the distal convoluted tubule?

Answer 22

connecting tubule

Question 23

What are the 2 types of nephrons?

Answer 23

• cortical

- juxtamedullary

Question 24

Describe cortical nephrons.

Answer 24

• short loop of Henle

- most numerous, 80-85%

Question 25

Describe juxtamedullary nephrons.

Answer 25

• long loop of Henle extends into medulla

- responsible for the medullary osmotic gradient

Question 26

Which type of nephron produces urine?

Answer 26

both types

Question 27

Loop of Henle establishes conditions necessary to….

Answer 27

• concentrate urine

- minimizes water loss

Question 28

Juxtaglomerulus apparatus cell location:

Answer 28

• DCT

- afferent arteriole + some efferent

Question 29

Macula densa =

Answer 29

• secretes paracrines based on changes in fluid movement and sodium concentration past the cells
• impacts smooth muscle of afferent arteriole

Question 30

Juxtaglomerular cells (granulosa cells) =

Answer 30

• secrete renin (renin-angiotensin-aldosterone system (RAAS))
• located in the afferent arteriole + few in the efferent arteriole

Question 31

Renal arteries enter the kidney at the _____.

Answer 31

hilus

Question 32

Renal arteries receive ___% of cardiac output at rest.

Answer 32

20%

Question 33

Renal veins exit at ______.

Answer 33

hilus

Question 34

Peritubular capillaries associated with…

Answer 34

efferent arteriole of cortical nephrons

Question 35

Vasa recta (straight vessels) associated with…

Answer 35

efferent arterioles of the juxtamedullary nephrons

Question 36

Movement of protein-free plasma from _____ to _____ _____.

Answer 36

glomerulus to Bowman’s capsule

Question 37

Glomerular filtrate crosses 3 barriers to Bowman’s:

Answer 37

• capillary endothelial layer
• surrounding epithelial layer
• basement membrane

Question 38

Glomerular filtration is from ______ to ______ _____.

Answer 38

glomerulus to Bowman’s capsule

Question 39

Reabsorption if from _____ to _____ ______.

Answer 39

tubules to peritubular capillaries

Question 40

Secretion is from _____ _____ to ______.

Answer 40

peritubular capillaries to tubules

Question 41

Excretion is from ____ to ______.

Answer 41

tubules to out the body

Question 42

What do podocytes do?

Answer 42

provide gaps for movement of material

Question 43

Describe starling forces that favour filtration.

Answer 43

• glomerular capillary hydrostatic pressure

- Bowman’s capsule oncotic pressure

Question 44

Describe glomerular capillary hydrostatic pressure.

Answer 44

• 60 mm Hg

- high due to resistance of efferent arteriole

Question 45

Describe Bowman’s capsule oncotic pressure.

Answer 45

• 0 mm Hg

- low due to lack of protein in filtrate

Question 46

Describe starling forces that oppose filtration.

Answer 46

• Bowman’s capsule hydrostatic pressure

- glomerular oncotic pressure

Question 47

Describe Bownman’s capsule hydrostatic pressure.

Answer 47

• 15 mm Hg

- relatively high (compared to systemic capillaries) due to large volume of filtrate in closed space

Question 48

Describe glomerular oncotic pressure.

Answer 48

• 29 mm Hg

- higher than in systemic capillaries due to plasma proteins in smaller volume of plasma

Question 49

Name 3 ways for intrinsic regulation of GFR.

Answer 49

• myogenic regulation
• tubuloglomerular feedback
• mesangial cells

Question 50

Describe myogenic regulation.

Answer 50

• smooth muscle in wall of afferent arteriole

- contracts in response to stretch (from increases to MAP) to maintain GFR (vv. if MAP falls)

Question 51

Describe tubuloglomerular feedback.

Answer 51

• Macula densa cells secrete paracrine factors in response to an increase in flow of fluid past them
• smooth muscles of arterioles contract in response to these paracrinse

Question 52

Describe mesangial tubuloglomerular feedback.

Answer 52

reduced SA for filtration (reduces flow to some capillaries)

Question 53

Describe extrinsic tubuloglomerular feedback.

Answer 53

both afferent and efferent arterioles are constricted (decr. GFR, incr. MAP)

Question 54

Extrinsic control of GFR is influenced by _____. _____ changes accordingly

Answer 54

• MAP

- GFR

Question 55

Kidneys have the ability to deal with changes to MAP within ___ to _____ mm Hg. Beyond this range:

Answer 55

• 80-180 mm Hg

- beyond this range, GFR is altered (falls below “normal” or increases above “normal”)

Question 56

Reabsorption most occurs in ____ _____ and most is/is not regulated.

Answer 56

• proximal tubules

- not regulated

Question 57

Describe solute reabsorption.

Answer 57

• most occurs in PCT
• some occurs in DCT
• 100% glucose reabsorbed (most other ions and water as well)

Question 58

What can effect the rate of transport?

Answer 58

• can occur with carriers

- if carriers saturated, some solute is excreted

Question 59

When solute is transported across epithelium by carrier proteins, _______ can occur when solute concentration rises

Answer 59

saturation of carriers

Question 60

What is renal threshold?

Answer 60

plasma concentration at which spillover into urine occurs

Question 61

Name 5 secreted substances.

Answer 61

• potassium
• hydrogen ions
• choline
• creatinine
• penicillin

Question 62

______ reabsorption in the proximal tubules.

Answer 62

non-regulated

Question 63

______ reabsorption and secretion in the distal tubules and collecting ducts.

Answer 63

regulated

Question 64

Water conservation in the ________ because it:

Answer 64

• loop of Henle

- concentrates urine

Question 65

____ _____ is the mass reabsorber.

Answer 65

• proximal tubule

Question 66

Proximal tubule reabsorbes ____% sodium and water.

Answer 66

70%

Question 67

Proximal tubule reabsorbes ____% glucose.

Answer 67

100%

Question 68

_____ ____ in the proximal tubule provides for large surface area.

Answer 68

brush border

Question 69

____ ____ _____ in the proximal tubule allow paracellular transport.

Answer 69

leaky tight junctions

Question 70

____ increases surface area.

Answer 70

villi

Question 71

What drive active transport?

Answer 71

many mitochondria

Question 72

In the distal tubule, transport is regulated across ______.

Answer 72

epithelium

Question 73

____ _____ limit paracellular transport.

Answer 73

tight junctions

Question 74

There are ____ mitochondria in the distal tubule.

Answer 74

fewer

Question 75

What does aldosterone do?

Answer 75

Na+ reabsorption

Question 76

What does ANP do?

Answer 76

opposes Na+ reabsorption

Question 77

What does ADH do?

Answer 77

water retention/reabsorption

Question 78

Amount of substance excreted =

Answer 78

amount filtered + amount secreted - amount reabsorbed

Question 79

Amount excreted depends on 3 factors:

Answer 79

• filtered load
• secretion rate
• reabsorption rate

Question 80

If amount of solute excreted per minute is less than filtered load:

Answer 80

solute was reabsorbed

Question 81

If amount of solute excreted per minute is greater than filtered load:

Answer 81

solute was secreted

Question 82

Micturition =

Answer 82

urination

Question 83

Urine formed in ____ ____.

Answer 83

renal tubules

Question 84

Fluid drains into ____ _____ and into _____.

Answer 84

• renal pelvis

- ureter

Question 85

Ureters lead to ______.

Answer 85

bladder

Question 86

_____ stores urine until it is excreted.

Answer 86

bladder

Question 87

Describe what happens in terms of blood flow and the urinary system when we exercise.

Answer 87

• 25% below resting
• blood flow to kidneys reduced in favour of active muscles
• primary factor is to offset vasodilation in muscles
• more Na+ reabsorbed

Question 88

Describe the intensity effect.

Answer 88

• proteinuria (RBCs and WBCs)

- hydration can offset this

Question 89

Describe the reduction in BP with training.

Answer 89

decreased circulating NE (due to decreased sympathetic activity) with training

Question 90

Gluconeogenesis at the kidneys increases by ____% following exercise.

Answer 90

• 50%

- lactic acid is converted to glucose

Question 91

Recovery from dehydration and changes in electrolytes from exercise, particularly:

Answer 91

heavy intensity, long duration persists for hours/days following