Body Fluid Compartments

Question 1

name the percentages of water gain

Answer 1

• Food 30%
• drink 60%
• Metabolism 10%

Question 2

name the percentage of water losses

Answer 2

• Urine 60%
• Faeces 4%
• Insensible losses 28%
• sweat 8%

Question 3

what is insensible losses of water

Answer 3

through SKIN Transepidermal diffusion & Lungs breath water

Question 4

what is rate of fluid movement in the digestive system

Answer 4

• ingested water (2 liters)
• liver and pancreatic secretions ( 2 liters)
• salivary gland secretions (1.5 liters)
• secretions by glands of the stomach and small intestines (3.5 liters).
• Small intestines absorbs ~ 8.5 liters
• Colon (400ml)
• feces (100 ml)

Question 5

what is the total body fluid

Answer 5

• total body fluid 42L which is 60% of body weigh

Question 6

what is the total intracellular fluid

Answer 6

• intracellular fluid 28L (40%) (in the cell

Question 7

what is the total extracellular fluid

Answer 7

• extracellular fluid 14L is (20%) (surrounds the cell)

Question 8

what does extracellular fluid split into

Answer 8

• plasma
• interstitial fluid
• other ECF

Question 9

how much does plasma make up of extracellular fluid

Answer 9

• plasma 3L

Question 10

how much does interstitial fluid make up of extracellular fluid

Answer 10

• interstitial fluid is10.5L

Question 11

what is the other extracellular fluid

Answer 11

• Other ECF is 0.5L this is lymph cerebrospinal fluid, eye humours, synovial fluid, serous fluid and GI secretions

Question 12

what is serous fluid made up of

Answer 12

• Serous fluid is peritoneal fluid and pleural fluid

Question 13

what ions are in intracellular fluid

Answer 13

• potassium and phosphate and protein anions is high

- sodium and chloride and bicarbonate is low

Question 14

what ions are in extracellular fluid

Answer 14

sodium, chloride and bicarbonate is high

- potassium is little

Question 15

what is water

Answer 15

• it is a universal solvent

Question 16

what dissolves in water and why

Answer 16

• More substances dissolve in water than in any other chemical, this is to do with the polarity of water molecules

Question 17

what are the major solutes that are contributing to osmolarity

Answer 17

• sodium
• chloride
• glucose
• urea

Question 18

how does penicillin use osmosis

Answer 18

• pencilling creates a semi permeable membrane
• this prevents bacteria from forming a wall therefore they cannot sustain osmosis, this means that water enters the bacteria and the bacteria just explodes

Question 19

describe osmotic diarrhoea

Answer 19

• this happens if glucose is not absorbed in the right place

Question 20

what are solutes

Answer 20

• these are molecules in solutions

Question 21

what are the 2 classification of solutes

Answer 21

electrolytes

non electrolytes

Question 22

what are electrolytes

Answer 22

inorganic salts (ie: Na+, K+, Cl-) , all acids and bases and some proteins

Question 23

what are non electrolytes

Answer 23

examples include glucose, lipids, creatinine, and urea

Question 24

out of electrolytes and non electrolytes what has the greater osmotic power

Answer 24

Electrolytes – these have greater osmotic power than non electrolytes therefore electrolytes have the greater power to shift fluids

Question 25

what is osmotic pressure

Answer 25

the process that controls the movement of solvents (water) across a membrane.
- Movement will occur when there are differences in osmotic pressure across a membrane.

Question 26

what side does water move towards

Answer 26

• water migrates towards the side containing a more concentrated solute

Question 27

define osmolarity

Answer 27

the measure of solute concentration expressed as the number of osmoles (Osm) of solute per litre (L) of solution = Osm/L or mOsm/L.

Question 28

define osmolality

Answer 28

is the measure of the osmoles (Osm) of solute per kilogram (Kg) of solvent = Osm/Kg or mOsm/Kg.

Question 29

what is used osmolality or osmolarity

Answer 29

osmolality

Question 30

why is it better to use omsmolaltiy

Answer 30

• Kg does not change with temperature or pressure as much as a volume would
• Osmolality is per unit mass: not affected by changes in temperature or pressure
• Osmolality is used in preference. However, at low concentrations very little difference in values.
• Osmolality is used in clinical laboratories to assess electrolyte and acid base disorders

Question 31

what is the normal range for plasma osmolality

Answer 31

• This is about 280-300 mOsm/Kg

Question 32

what is the membrane between the interstitial fluid and intracellular fluid

Answer 32

plasma membrane

Question 33

what is the membrane between the interstitial fluid and the plasma

Answer 33

capillary wall

Question 34

what is the membrane between the plasma and the changing environment

Answer 34

kidney
skin
lungs
gut epithelium

Question 35

what controls the balance between the plasma and interstitial fluid

Answer 35

• The balance between plasma and interstitial fluid is controlled by hydrostatic pressure(comes from the heart) and osmotic pressure (comes from protein that is made in the liver)

Question 36

what is the major solute within the body

Answer 36

sodium

Question 37

How does sodium influence water

Answer 37

• In the extracellular fluid mainly – it creates a pull on the water towards the blood vessels
• Sodium is the predominant extracellular cation and is a major determinant of plasma and ECF osmolality
• Where sodium goes water follows

Question 38

what happens if plasma and ECF sodium are in equilibrium

Answer 38

• if plasma volume is regulated then ECF volume will follow

Question 39

what happens if both plasma volume and osmolality are regulated

Answer 39

• this means then both total water and total sodium will be regulated

Question 40

how is the water system regulated

Answer 40

1. CNS
2. Hormones
3. Kidneys

Question 41

what parts in the brain allow for linkage between CNS and peripheral blood flow

Answer 41

• Subfornical organ
• Organum vasculosum of lamina terminalis
• These structures in the brain are characterized by extensive vasculature and lack of a normal blood brain barrier (BBB).
• They allow for the linkage between the central nervous system and peripheral blood flow

Question 42

How does the CNS help control water

Answer 42

• Increase in plasma osmolality – means there is a lot of solute but not enough water
• This triggers a dropin saliva and produces a dry mouth this is relayed to the hypothalamic thirst centre
• This is also relayed to the hypothalamic thirst centre by osmoreceptors in the hypothalamus
• Therefore, the person takes a drink
• Water moistens mouth, throat, stretches stomach, intestine
• Water is absorbed from the GI tract
• This decreases plasma osmolarity
• Or
• Plasma volume decreases
• This decreases blood pressure
• This triggers renin angiotensin mechanism
• Produces angiotensin II
• And ADH

Question 43

what is the main stimulus for thirst sensation

Answer 43

• an increase in plasma osmolality

Question 44

what percentages are needed to stimulate thirst sensation

Answer 44

• An increase in plasma osmolality of 1% - 2% (about 3 to 6 mOsm/Kg) or a decrease in plasma volume of 10% - 15% is required to stimulate the thirst sensation

Question 45

where is the thirst centre located and what is it monitored by

Answer 45

• The thirst centre is located in the anterior hypothalamus & monitored by osmoreceptor. It relays impulses to the cerebral cortex making thirst a conscious sensation.

Question 46

how is plasma volume regulated by the CNS

Answer 46

• Baroreceptors relayed to the hypothalamus
• Go to osmoreceptors
• Project into the pituitary gland
• Releases ADH from the posterior lobe of the pituitary

Question 47

what is the effect of ADH on urine production

Answer 47

• Low ADH levels produce dilute urine and reduced volume of body fluids
• High ADH levels produce concentrated urine

Question 48

water reabsorbed in the collecting duct is..

Answer 48

proportional to ADH release

Question 49

what are factors that can trigger ADH release

Answer 49

• prolonged fever
• excessive sweating
• vomititng
• diarrhoea
• severe blood loss
• traumatic burns

Question 50

what are the cellular targets of ADH

Answer 50

aquaporins

Question 51

what is the hormonal regulation of plasma osmolarity

Answer 51

• aldosterone

Question 52

how does hormonal regulation of plasma osmolarity take place

Answer 52

eleased from the adrenal cortex when there is reduced sodium or increased potassium

• Antiporter of sodium and potassium – go opposite directions to each other
• This is related to adrenal cortex
• Releases aldosterone
• Increases sodium absorption and potassium excretion
• Therefore water follows sodium

Question 53

what does aldosterone do to the cell

Answer 53

• Binds to the cell
• Effects transcription
• Says we need to make sodium potassium ATPase
• Produces sodium channel as well

Question 54

what is the hormonal regulation of high plasma volume

Answer 54

ANP

Question 55

How does ANP work

Answer 55

• Released from the cardiac atria when – there is increased blood volume (this stretches the atria)
• This produces effects which bring blood volume back towards normal including increased sodium excretion
• There is increased juxtaglomerular apparatus

Question 56

what are the 4 hormones that regulate osmolality and volume and what do they do

Answer 56

• Antidiuretic hormone (ADH) or vasopressin makes cells of collecting duct & distal tubule permeable to water.
• Angiotensin II and Aldosterone promote the urinary reabsorption of Na+ and Cl- (as well as water, by osmosis) when dehydrated.
• Atrial natriuretic peptide (ANP) promote excretion of Na+ and Cl- followed by water excretion to decrease blood volume.

Question 57

how much water is reabsorbed in the proximal tubule

Answer 57

• 80% of the water is reabsorbed in the proximal tubule – this is through active reabsorption of solutes

Question 58

what is variable reabsorption

Answer 58

• Variable reabsorption (collecting duct)– depending on individual water balance and status (aldosterone and ADH level) this is where the aquaporins are
• This is depending on relative presence or absence of aqauporins and Na+/H+ pumps in the kidneys (related to ADH/aldosterone levels)

Question 59

what is the normal value for urine osmolarity

Answer 59

• 24 hour urine osmolality should average between 500
and 800 mOsm/Kg
• Random urine osmolality should be 50 to 1400 mOsm/Kg
• After 12-14 hours of fluid intake restriction, urine osmolality should be greater than 800mOsm/Kg= Base for water deprivation test

Question 60

what are failures of body fluid balance

Answer 60

dehydration
water intoxication
oedema

Question 61

when does dehydration happen

Answer 61

If the water intake is insufficient to cover water loss over a long period of time, water is lost from the plasma and the ISF. This can lead to weight loss, fever and confusion.

Question 62

what is water intoxication

Answer 62

• this is when too much water is drunk too fast or complete blockage of urine production this leads to dilation of the body fluids

Question 63

how does water intoxication lead to death

Answer 63

• the sodium in ECF is reduced
• this causes osmotic shift of water into the cell
• this leads to cell swelling
• this is dangerous in the brain where swelling can cause convulsions, coma and death

Question 64

what are the 4 causes of oedema

Answer 64

1. increased capillary hydrostatic pressure
2. loss of plasma proteins - due to severe malnutrition
3. obstruction to lymphatic system
4. increased capillary permeability