Lecture 33: BODY WATER - DISTRIBUTION AND REGULATION

Question 1

What is TBW?

Answer 1

55-60% of body weight

Question 2

What is ECF?

Answer 2

1/3 of TBW

Question 3

What is ICF?

Answer 3

2/3 of TBW

Question 4

What is plasma?

Answer 4

1/5 of ECF

Question 5

What is interstitial fluid?

Answer 5

4/5 of ECF

Question 6

What is osmolarity based on?

Answer 6

The number of osmotically active ions or solutes (which attract water)

Question 7

What is the concentration of NaCl?

Answer 7

145mM = 145mM Na+ + 145mM Cl- = 290mosmol/L

Question 8

What can osmolarity be measure by?

Answer 8

Specific gravity

Question 9

What does iso-osmotic mean?

Answer 9

The same osmolarity

Question 10

What does hypo-osmotic mean?

Answer 10

Lower osmolarity

Question 11

What does hyper-osmotic mean?

Answer 11

Higher osmolarity

Question 12

What is tonicity based on?

Answer 12

The effect of a solution on cells

Question 13

What does an isotonic solution do?

Answer 13

Not change the water homeostasis between cells

Question 14

What is the concentration of sodium in the ECF?

Answer 14

145 mmol/L

Question 15

What is the concentration of sodium in the ICF?

Answer 15

15 mmol/L

Question 16

What is the concentration of potassium in the ECF?

Answer 16

4-5 mmol/L

Question 17

What is the concentration of potassium in the ICF?

Answer 17

150 mmol/L

Question 18

What is the osmolarity of the ECF?

Answer 18

275-295 mosmol/L

Question 19

What is the osmolarity of the ICF?

Answer 19

275-295 mosmol/L

Question 20

What remains relatively constant?

Answer 20

Total body water

Question 21

What must balance?

Answer 21

Intake and loss of water

Question 22

What is adjusted to maintain water balance?

Answer 22

Urine output (so the kidneys are the most important in water balance)

Question 23

Where does reabsorption of sodium occur?

Answer 23

PCT, thick ascending limb, DCT and collecting duct

Question 24

What amount of sodium is absorbed in the PCT?

Answer 24

67%

Question 25

What amount of sodium is absorbed in the thick ascending limb?

Answer 25

25%

Question 26

What amount of sodium is absorbed in the DCT?

Answer 26

5%

Question 27

What amount of sodium is absorbed in the collecting duct?

Answer 27

3%

Question 28

Where does reabsorption of water occur?

Answer 28

In the PCT, thin descending limb and collecting duct

Question 29

What is reabsorption of water in the PCT driven by?

Answer 29

Sodium reabsorption in order to make isosmotic solution

Question 30

What do transporters such as the sodium glucose transporter use?

Answer 30

The sodium gradient to reabsorb glucose

Question 31

What does SGLT do?

Answer 31

Sodium/glucose - cotransporter from the filtrate to the cell

Question 32

What are aquaporins?

Answer 32

Channels for water to get from filtrate into the cell and then into the blood

Question 33

What does a glucose transporter do?

Answer 33

Transport glucose from the cell to the blood

Question 34

What does Na+/K+ ATPase do?

Answer 34

Transport sodium into the blood from the cell

Question 35

What does the thick ascending limb do?

Answer 35

Reabsorbs sodium into the interstitial generating a high osmotic medullary gradient (HOMG)

Question 36

What is the thin descending limb like?

Answer 36

Leaky epithelium, facilitating water reabsorption via aquaporins (transcellular) and the paracellular pathway

Question 37

What is the thin descending limb permeable to?

Answer 37

Water and impermeable to solutes so it causes the solute concentration to increase (in urine)

Question 38

What is the thick ascending limb permeable to?

Answer 38

Impermeable to water and selectively permeable to na+ and cl- so solute concentration decreases (in urine)

Question 39

Where does obligatory reabsorption occur?

Answer 39

In the PCT and thin descending limb

Question 40

Is obligatory reabsorption regulated?

Answer 40

no

Question 41

What portion of water reabsorption does obligatory reabsorption account for?

Answer 41

92%

Question 42

Where does facultative reabsorption occur?

Answer 42

In the collecting duct

Question 43

What is the epithelia at facultative reabsorption?

Answer 43

Tight (so only transcellular)

Question 44

What is facultative reabsorption regulated by?

Answer 44

ADH

Question 45

What portion of water reabsorption does facultative reabsorption account for?

Answer 45

2-8%

Question 46

What does changing water content do?

Answer 46

Change osmolarity

Question 47

What happens to equalise?

Answer 47

Fluid shifts between ECF and ICF

Question 48

What also changes when water content changes?

Answer 48

Volume of compartments

Question 49

What happens when volume of compartments change?

Answer 49

Cell size changes, cell structure altered and cell functions become impaired

Question 50

What are red blood cells dependent on?

Answer 50

An isotonic environment

Question 51

What changes the function of red blood cells?

Answer 51

Hypertonic environment (shrivel) or hypotonic environment (burst)

Question 52

What do total body water changes alter?

Answer 52

Plasma (ECF) osmolarity

Question 53

What is change in plasma osmolarity detected by?

Answer 53

Osmoreceptors in the hypothalamus (brain)

Question 54

What do osmoreceptors stimulate?

Answer 54

Pituitary gland to secrete more/less ADH

Question 55

What does ADH do?

Answer 55

Alters the permeability of the renal collecting duct so that water is retained/excreted to balance the initial change in TBW

Question 56

What does the effect of ADH mean?

Answer 56

Plasma osmolarity and cell volume become stable

Question 57

What happens when dehydration (increased sodium levels) occurs?

Answer 57

Increased ADH secretion, thirst and water reabsorption, water into the ECF to decrease Na+ levels

Question 58

What happens when hyper hydration (decreased sodium levels) occurs?

Answer 58

Decreased ADH secretion, thirst suppressed and water loss, water decreases in ECF to increase sodium levels

Question 59

What happens without ADH (diuresis)?

Answer 59

Small amount of water reabsorption and a large volume of dilute urine is produced

Question 60

What happens with ADH (antidiuresis)?

Answer 60

Large amount of water reabsorption and a small volume of concentrated urine is produced

Question 61

What does ADH in the bloodstream do?

Answer 61

Finds its receptor in the basolateral side of collecting duct cells

Question 62

What does ADH do once bound to the receptor?

Answer 62

Via intracellular signalling cascades increases the number of aquaporins in the apical membrane increasing water permeability of the apical membrane of the collecting duct

Question 63

What can the macula densa cells do?

Answer 63

Sense changes in sodium reaching the distal tubule and therefore perfusion of the nephron; if it is too low this leads to a release of renin from juxtaglomerular cells

Question 64

what regulates changes in ECF volume?

Answer 64

ANP or aldosterone (renin-All-Aldosterone-System)

Question 65

What is the receptor when increased ECF volume by fluid gain (or fluid and Na+ gain)?

Answer 65

cardiac muscle cells

Question 66

What does the receptor stimulate when increased ECF volume by fluid gain (or fluid and Na+ gain)?

Answer 66

release of ANP

Question 67

What are the effectors when increased ECF volume by fluid gain (or fluid and Na+ gain)?

Answer 67

hypothalamus, kidney and blood vessels

Question 68

What is the response when increased ECF volume by fluid gain (or fluid and Na+ gain)?

Answer 68

Increased sodium lossed in urine and increased water lost inurine

Question 69

What is the result when increased ECF volume by fluid gain (or fluid and Na+ gain)?

Answer 69

Decreased ECF volume

Question 70

What are the receptors when decreased ECF volume by fluid loss (or fluid and Na+ loss)?

Answer 70

baroreceptors and kidneys

Question 71

What do kidneys stimulate when decreased ECF volume by fluid loss (or fluid and Na+ loss)?

Answer 71

RAAS - renin release leads to angiotensin ll activation and increased aldosterone release

Question 72

What do baroreceptors stimulate when decreased ECF volume by fluid loss (or fluid and Na+ loss)?

Answer 72

sympathetic activation
effectors - hypothalamus, heart and blood vessels
response - increased ADH release

Question 73

What is the response when decreased ECF volume by fluid loss (or fluid and Na+ loss)?

Answer 73

Decreased sodium lost in urine and decreased water lost in urine

Question 74

What is the result when decreased ECF volume by fluid loss (or fluid and Na+ loss)?

Answer 74

Increased ECF volume