Fluid Management

Question 1

What is meant by insensible losses? How does this compare to sensible fluid losses?

Answer 1

Water loses through skin and lungs.

Sensible fluid losses are through urine, sweat and faeces

Question 2

State the amount of fluid in the 3 different compartments

Answer 2

Intracellular =25L
Extracellular = 15L
-Interstitial = 12L
-Plasma volume =3L

Question 3

What is the main cation in intracellular and extracellular fluid?

Answer 3

Intracellular -K+

Extracellular -Na+

Question 4

How much sodium and potassium is needed per day?

Answer 4

1-1.5mM/kg of Na

0.7-1mM/kg of k

Question 5

What questions would you want to ask in a history to assess fluid balance of a patient ?

Answer 5

• are they thirsty? When did they last drink and how much?
• have they been profusely sweating ?
• Diarrhoea/ vomiting?
• urine frequency and colour
• diuretic medication
• past medical history of diabetes or chronic kidney disease
• confirm absence of hypervolaemia e.g. Swollen limbs, orthopnoea

Question 6

What would you check when examining someone for their fluid balance status ?

Answer 6

• capillary refill time
• heart rate and blood pressure
• Dry mucous membranes ( mouth)
• dry axilla

Then ensure absence of hypervolaemia e.g. Raised JVP, basal lung crepitus, peripheral oedema

check weight - any fluctuations in short term can be due to fluid. check urine output/fluid balance. check U&Es

Question 7

State some signs of dehydration

Answer 7

Low blood pressure , high heart rate
Reduced capillary refil
Sicken eyes
Dry mouth
Reduced skin turgidity
Reduced ocular pressure

Question 8

Why does the urea: creatinine ratio increase when dehydrated

Answer 8

Hypoperfusion of kidneys leads to less creatinine and urea being filtered and thus their levels rise
However urea is also further recycled to help conserve water and thus the urea levels rise more than creatinine

Question 9

What could blood tests show if someone was hypovolaemic?

Answer 9

Hypernatremia 
Raised Hb , haemocrit 
Raised urea:creatinine ratio
Raised lactate 
High osmolality

Question 10

How is osmolality calculated

Answer 10

2(Na + K) + urea + glucose

Question 11

What are the 3 reasons a patient may need fluids?

Answer 11

Routine maintainence
Resuscitation
Replacement and redistribution

Question 12

What fluid and how much is given in fluid resuscitation?

Answer 12

500ml 0.9% NaCl or Hartmann over 15 mins (repeat until 2000ml given)

Question 13

What ions need replacing in someone with a) vomiting and b) diarrhoea?

Answer 13

Vomiting - Na, H, K

Diarrhoea- Na, HCO3, K

Question 14

What are the 3 types of fluids

Answer 14

Crystalloids
Colloids
Blood

Question 15

How does 0.9% saline compare to hartmans?

Answer 15

both crystalloids
both contain Na and Cl
Hartmans also contains K and Ca - so don’t give hartmnas if hyperkalaemia

both their osmolarity is similar to ECF.

neither distribute to ICF

Question 16

how much of hartmans and 0.9% saline stays within vasculature?

Answer 16

1/4, the rest will leave into the interstitium.
therefore if used in resuscitation need to bear this in mind i.e. 100ml blood loss requires 400ml 0.9%/hartmans to replace.

Question 17

how can crystalloid fluids be categorised?

Answer 17

hypotonic, isotonic and hyper tonic.

Question 18

what is hartmanns also known as?

Answer 18

compound sodium lactate

Question 19

name 3 important crystalloid fluids

Answer 19

0.9% saline
Hartmans
5% dextrose

Question 20

how does 5% dextrose compare to other crystalloids?

Answer 20

the dextrose is rapidly metabolised by the liver and thus this fluid is similar to giving pure water (hypotonic). Therefore a lot will move into the interstitium (1/12 stays in vessels)

distributes to all 3 compartments

Question 21

what is 5% dextrose used for?

Answer 21

Because only 1/12 remains in vasculature it is not good for resuscitation.
however good for dehydration, hypernatriaemia or hyperosmolarity

Question 22

what are colloids? explain the theory behind their distribution

Answer 22

large insoluble molecules e.g. albumin and starches

They preserve high colloid osmotic pressure. Therefore remain mainly in the blood

Question 23

what are the risks associated with colloids?

Answer 23

anaphylaxis
coagulopathy
more likely to cause volume overload
can interfere with Xmatching so take blood for Xmatch before giving colloid

Question 24

name an example of a colloid fluid

Answer 24

gelatin based: gelufusine
starch based
human albumin solution (HAS)

Question 25

when are colloids mainly indicated compared to crystalloids?

Answer 25

crystalloids for resuscitation and maintainence

colloids only used in resusitation

Question 26

what is required for maintenance?

Answer 26

water: 25-30ml/kg/day (or use 4:2:1 rule)
(however can also say you would bare this in mind but titrate the fluid according to the patients vital signs (urine output, blood pressure, heart rate)
na, Cl and K: 1mM/kg/day
50-100g/day of glucose

Question 27

when should resuscitation not occur?

Answer 27

when the cause for dehydration etc is hypervolaemia because otherwise the fluid will just worsen the oedema etc

Question 28

what should be considered when prescribing which fluid?

Answer 28

why they need it ? maintain, resus, replace
latest U&E results
co-morbidities esp heart failure and renal failure - risk of volume overload
age - someone who is 20 is unlikely to have heart/kidney failure so larger window for how much fluid they can take.

Question 29

what is the difference between hypovolaemia and dehydration?

Answer 29

dehydration - loss of water and thus become hypernatraemic

hypovolaemia - loss of both water and sodium. can become haemodynamiccaly unstable.

dehydration can lead to hypovolaemia

Question 30

what is the problem with long term administration of fluids?

Answer 30

the patient can become hypernatraemic and hyperchloriaemic. Therefore need to keep monitoring U&Es

Question 31

when should hartmans be avoided?

Answer 31

if at risk of hyperkalaemia
e.g. k+ sparring drugs or renal compromise
post op because K is released by damaged cells

Question 32

what in the heart hypo and hyperkalaemia lead to?

Answer 32

hypokalaemia - ventricular fibrillation

hyperkalaemia - asystole

Question 33

how is oliguria defined?

Answer 33

less than 400ml/day or <20ml/hr

Question 34

how is anuria defined?

Answer 34

<100ml/day

Question 35

what is the normal urine output of an adult?

Answer 35

60ml/hr

Question 36

what causes post op oliguria?

Answer 36

dehydration

surgery leads to release of aldosterone, cortisol and ADH which all retain fluid

Question 37

what are third space losses?

Answer 37

sequestration of fluid in a space that is not involved in dynamic fluid exchange
this occurs with cell injury e.g. in surgery

Question 38

what is the 4:2:1 rule for how much fluid someone requires?

Answer 38

1st 10kg - 4ml/kg/hr
2nd 10kg - 2ml/kg/hr
the rest - 1ml/kg/hr

therefore for 70kg man: 40 + 20 + 50 = 110ml/hr

Question 39

what does hartmans contain?

Answer 39

Na (131mM), K (5mM), Cl, ca and HCO3

Question 40

what does 0.9% saline contain?

Answer 40

Na (154), Cl (154)

308 osmolality

Question 41

what does 5% dextrose contain?

Answer 41

50 g/L glucose

Question 42

what defines whether a fluid is iso, hypo or hypertonic?

Answer 42

iso - 240-340
hypo <240
hyper >340

Question 43

which type of fluid is most commonly hypertonic?

Answer 43

colloids - therefore they can help to reduce oedema.

Question 44

who can give blood?

Answer 44

must be:

• fit and health
• between 17 and 66
• > 50kg
• no risk of having HIV
• never done IV drug use
• never had hepatitis
• not men who have sex with men
• not currently ill

Question 45

what is contained within beriplex? Cryoprecipitate? Fresh frozen plasma?

Answer 45

beriplex: factor 2, 9 and 10 (sometimes 7) a.k.a. prothrombin complex
cryoprecipitate: fibrinogen, von willebrand, fibronectin, factor VIII and XIII
FFP - all clotting factors but less concentrated

Question 46

what is the advantage of using blood products over a blood transfusion?

Answer 46

more tailored to individuals needs and avoids issues with blood transfusion

Question 47

when is FFP used rather than cryoprecipitate and vice versa?

Answer 47

cryoprecipitate when individual needs a certain type of clotting factor because this will be higher conc
FFP if they need all factors generally or factors that aren’t in cryoprecipitate

Question 48

how can the need for blood transfusion during surgery be minimised?

Answer 48

correct any anaemias before hand.

Question 49

what defines a massive blood transfusion?

Answer 49

replacement of more than one unit / >50% of blood in 4 hours.

Question 50

list 7 complications related to blood transfusion.

Answer 50

clotting problems - dilution of clotting factors with RBC
electrolyte distrubances - hyperK due to haemolysis
haemolytic anaemia - due to Ab and antigen reaction
infections - early and sepsis or late (HIV, Hep)
mild allergy
anaphylaxis
iron overload - late complication from bronze diabetes, liver damage and cardiomegaly

Question 51

what is an acute haemolytic reaction that follows blood transfusion?
how is this treated?

Answer 51

someone with A blood type will have Ab against B and thus if transfused with B. the Ab will attack B resulting in haemolysis.
this presents as urticaria, fever, back and flank pain and haemoglobinuria.

stop transfusion, resuscitate, O2

Question 52

why does the O2 carrying capacity of blood reduce as blood gets older?

Answer 52

less 2,3 BPG so O2 binds Hb more tightly so less readily releaed

Question 53

what is plasmalyte?

Answer 53

a crystalloid solution
contains acetate and gluconate
also sodium and chloride (but less so than 0.9% saline)

Question 54

which fluids minimise the risk of acidosis?

Answer 54

Hartmans and plasmalyte because less Cl content

Question 55

how do the pH of different crystalloid solutions compare?

Answer 55

plasmalyte is exactly same as serum with pH of 7.4
Hartmans is the second least acidic

glucose and 0.9% saline are acidic

Question 56

what is the advantage of using a balanced electrolyte solution (hartmans/plasmalyte) over 0.9% saline?

Answer 56

with 0.9% saline there is an increased risk of

- hyperchloraemic acidosis: this can especially be a problem when there is hypovolaemia and lack of perfusion and thus already some increase in lactate.     - some risk of hypernatraemia (with balanced electrolytes, less Na so less likely)

still only small amount of K so can still add K to give correct amounts

Question 57

what is the maximum rate of K infusion and why?

Answer 57

10mM/hour

otherwise arrhythmias

Question 58

Give examples of 3rd space losses?

Answer 58

absess
pancreatitis
ileostomy
peritonitis
obstruction - fluid drawn in

Question 59

how does the urine: plasma osmolality compare in pre-renal and renal failure?

Answer 59

pre-renal can still concentrate well so >1.5: 1 urine to plasma

renal: failure to conc so <1.1: 1 urine to plasma

Question 60

other than vomiting and diarrhoea how else may fluids be lost?

Answer 60

NGT
drains
high out put stoma
tachypnoea
fever

Question 61

other than a fluid challenge how else can we increase the Central venous pressure if it has dropped?

Answer 61

leg raising

Question 62

in what way is hartmans an alkalising solution?

Answer 62

contains lactate which is a conjugate base
metabolised by liver (cori cycle ) to give HCO3

however be careful because if you measure the blood lactate after giving hartmans it can be high and make you think its endogenous lactate which is a sign of acidosis

Question 63

what fluid changes occur post op?

Answer 63

increase release of ADH, cortisol and aldosterone due to stress response - retain water and sodium, loose K+

K+ released from damaged tissues.