Fluid Balance

Question 1

What is the average percetange of total body weight of body water content of an adult male?

Answer 1

60% body water

Question 2

What is the average body water percentage in a female adult?

Answer 2

approx 50%

Question 3

What is the total body water of a 70 kg man?

Answer 3

40 L

Question 4

What proportion of total body water is found in the intracellular compartment?

Answer 4

2/3rd

Question 5

What volume of TBW is found in the intracellular compartment in a 70 kg man?

Answer 5

25 L

Question 6

What volume of TBW is found in the extracellular fluid in a 70 kg man?

Answer 6

15L (1/3rd)

Question 7

What volume of TBW is found in plasma of a 70 kg man?

Answer 7

3L

Question 8

What proportion of TBW is found in the ECF?

Answer 8

1/3rd

Question 9

What are the major electrolyte characteristics of ECF?

Answer 9

• Major cation: Na+
• Major anion: Cl–

Question 10

What are the major electrolytes in ICF?

Answer 10

• Low Na+ and Cl–
• Major cation: K+
• Major anion: PO₄^2–

Question 11

What is the average fluid intake per day?

Answer 11

2500 ml

Question 12

What makes up total fluid intake in terms of sources of intake?

Answer 12

• Metabolism - 10%
• Foods - 30%
• Beverages - 60%

Question 13

What makes up fluid output in terms of sources of fluid output?

Answer 13

• Faeces - 4%
• Sweat - 8%
• Insensible loss - 28%
• Urine - 60%

Question 14

What happens to cells if someone becomes dehydrated?

Answer 14

Water moves out of cells to balance the now more concentrated ECF, causing cells to shrink

Question 15

What are features of dehydration?

Answer 15

• Decreased urine output
• Decreased skin turgor
• Dry mouth
• Dry, flushed skin

Question 16

If you gave 1 L water with 5% glucose, how would it distribute between compartments?

Answer 16

Distributed evenly between compartments

Question 17

If you gave 1L of 0.9% saline, how would it distribute between compartments?

Answer 17

Would stay in the ECF, due to sodium being kept out of the cells

Question 18

If you were to give 1L colloid, how would fluid be distributed between the different compartments?

Answer 18

Would stay in the vascular space

Question 19

What are colloid solutions?

Answer 19

Solutions which contain larger insoluble molecules, such as gelatin; blood itself is a colloid. Colloids tend to remain in the vascular space

Question 20

What is a crysalloid solution?

Answer 20

Aqueous solutions of mineral salts or other water-soluble molecules.

Question 21

Which fluid type is more effective as a resus fluid?

Answer 21

Colloid - but associated with other complications so not often used

Question 22

What are the 5 R’s of fluid management?

Answer 22

• Resusciation
• Replacement
• Redistribution
• Routine maintenance
• Reassessment

Question 23

How would you manage someone if you thought they required resus fluids?

Answer 23

500 mls crystalloid, then reassess using ABCDE

Question 24

What is hypotonic hydration?

Answer 24

Water intoxication

Tonicity of the water is less than ICF, meaning that fluid shifts into the cell, causing the cells to swell.

Question 25

What can be consequences of hypotonic hydration?

Answer 25

• Cerebral oedema
• Nausea
• Vomiting
• Muscular cramping

Question 26

What is oedema?

Answer 26

Accumulation of interstitial fluid

Question 27

What is the physiology behind the development of oedema?

Answer 27

Due to anything that increases flow of fluid out of the blood or hinders its return

• ­Blood pressure
• Capillary permeability - usually inflammation
• Incompetent venous valves
• Localized blood vessel blockage
• Congestive heart failure
• Hypertension
• Blood volume
• Hypoalbuminaemia
• Blocked lymph vessels

Question 28

What is the electrolyte composition of 0.9% saline?

Answer 28

• Na+ 154 mmol/L
• Cl- 154 mmol/L

Question 29

What is the electrolyte composition of saline 0.18%/Glucose 4%?

Answer 29

• Na+ 31 mmol/L
• Cl- 31 mmol/L
• Glucose - 40g/l

Question 30

What is the electrolyte composition of Hartmann’s solution?

Answer 30

• Na+ 131 mmol/L
• Cl- 112 mmol/L
• K+ 5 mmol/L
• HCO3- 29 mmol/L
• Ca2+ 4 mmol/L

Question 31

If you had given someone 2 L of resus fluid, and they were still shocked, what would you do?

Answer 31

Seek expert advice

Question 32

If someone, after being given an initial bolus of 500 ml resus fluid, was still shocked, what would you do?

Answer 32

Give another 250-500ml, then reassess

Question 33

How would you asses whether someone needs fluid resuscitation?

Answer 33

Assess volume status based on examination, trends and context

• BP
• PR
• RR
• Cold peripheries

Question 34

What clinical indicators might indicate that someone is in need of fluid resus?

Answer 34

• BP <100mmHg
• HR >90
• Cap refill > 2s
• Cold peripheries
• RR >20
• Positive leg raise test

Question 35

If someone did not require fluid resus, how would you assess whether they needed IV maintenance fluids prescribed?

Answer 35

Calculate fluid and electrolyte requirements, then determine if they can maintain this orally

Question 36

If someone did not need fluid resus, however required fluids and was deemed to be unable to mainatin fluid and electrolyte balance orally, what would your next step be?

Answer 36

Assess fluid and electrolyte needs, Based on:

• History - previous intake, abnormal losses, co-morbidities
• Clinical exam - Pulse, BP, Cap refill, JVP, post. hypotension, oedema
• Clinical monitoring - NEWS, fluid balance, weight
• Bloods - FBC, U+E’s, Creatinine, Urea

Question 37

How would you determine whether you needed to give replacement fluids or routine mainatenance fluids?

Answer 37

Determine if complex fluid or electrolyte replacement or abnormal distribution issues:

• Abnormal losses
• Ongoing losses
• Existing deficits or excesses

Question 38

What are the normal daily fluid requirments of an adult?

Answer 38

1-1.25mls/kg/hr

or

25-30 mls/kg/24hr

Question 39

What is the daily electrolyte requirements for and adult?

Answer 39

• Na^{<strong>+</strong>} - 1-2 mmol/kg/day
• K⁺ - 1 mmol/kg/day
• Cl^- - 1 mmol/kg/day

Question 40

What are daily glucose requirements for adults?

Answer 40

50-100 g/day

Question 41

What do you need to check for when thinking about replacement fluids?

Answer 41

Check for

• Dehydration
• Hypo/hyperkalaemia
• Fluid overload

If any present, add or subtract deficits or excesses from daily maintenance

Question 42

If there are no current existing abnormal fluid +/- electrolyte deficits or excesses, what would you want to assess for before prescribing fluids?

Answer 42

Check if there are any ongoing/predicted abnormal fluid or electrolyte losses

Question 43

What are sources of abnormal fluid or electrolyte loss?

Answer 43

• Vomiting
• Biliary drainage
• High/low ileal stoma loss
• Diarrhoea/colostomy loss
• Ongoing blood loss
• Sweating/fever/dehydration
• Pancreatic/jejunal fistula/stoma
• Urinary loss

Question 44

What are complex issues with fluid replacement that need expert advice?

Answer 44

• Gross oedema
• Severe sepsis
• Hypo/hypernatraemia
• Renal/liver/cardiac impairment

Question 45

If someone did have ongoing abnormal fluid or electrolyte losses, how would you manage that?

Answer 45

Prescribe routine maintenance plus additional fluid and electrolyte to replace measured abnromal ongoing losses

Question 46

What are 3rd space losses?

Answer 46

Tissue oedema - It is unseen and occurs with any tissue damage be it trauma, elective surgery or serious illness. Third space loss is not lost but redistributed.

Question 47

What is the difference between shock and dehydration?

Answer 47

Shock refers to intravascular loss, whereas dehydration is loss of TBW:

• Loss of 20mls/kg from you intravascular space is >25% loss of circulating fluid volume.
• Loss of 20mls/kg from your total body water represents about 3% of your total body water

Question 48

What is the definition of shock?

Answer 48

Failure of delivery of oxygen (and nutrients) to vital organs. Leads to rapid onset of tissue hypoxia and acidosis

Question 49

How would you calculate fluids for someone who is obese?

Answer 49

Base calculations on ideal body weight

Question 50

What should you do if patients have received IV fluids containing chloride concentrations greater than 120 mmol/l?

Answer 50

Monitor their serum chloride concentration daily

Question 51

When would you consider givign blood as a resus fluid?

Answer 51

Only if ongoing losses and Hb less than 100 or if ongoing tissue ischamia, eg angina. Otherwise consider if Hb less than 80

Question 52

When would you consider calling for help if someone was being given resus fluids?

Answer 52

>40 ml/kg

Question 53

Describe the steps you would take to determining what fluid to prescribe an individual fluids?

Answer 53

1. Do they need resus fluids?
2. What are their fluid and electrolyte needs?
3. Can they eat/drink?
4. Does the patient have electrolyte excess/deficit?
5. Does the patient have ongoing loss?
6. Does the patient have redistribution/complex issues?

Question 54

What fluids are best for using in a resus situation?

Answer 54

• NaCl 0.9%
• Hartmann’s solution - more appropriate if vomiting etc.

Question 55

What are examples of maintence fluid regimens?

Answer 55

• Sodium chloride 0.9% (Normal saline)
• Hartmann’s solution
• Sodium chloride 0.18% / Glucose 4%
• 5% Dextrose

Question 56

What fluids are only used as maintenance fluid regimens?

Answer 56

Both hypotonic

• Sodium chloride 0.18% / Glucose 4%
• 5% Dextrose

Question 57

Why is it important to consider the spplementation of glucose in maintence fluid regimens?

Answer 57

To try to prevent hypoglycaemic ketosis

Question 58

How would you calculate the electrolyte requirements of an individual for 24 hrs?

Answer 58

Na²⁺/K⁺ requirement = Weight x 1 mmol (+/- deficit excess from losses/gains)

Question 59

How would you estimate electrolyte losses for particular fluid types - e.g. diarrhoea, vomiting etc.?

Answer 59

Use guidelines for average losses based on loss type e.g. vomit, urinary etc.

Question 60

What is the maximum volume of fluid you should give to a 70kg man in one day?

Answer 60

70kg x 30ml = 2100 mls/day

Divide by 24 to get hourly rate

Question 61

How much sodium would you give a 70kg man in one day who had no ongoing/abnormal losses or complex issues?

Answer 61

70kg x 1 mmol/kg = 70 mmol sodium/day

Question 62

What test could you use to assess fluid responsiveness in a patient?

Answer 62

Passive leg raising - It is best undertaken with the patient initially semi-recumbent and then tilting the entire bed through 45°. Alternatively it can be done by lying the patient flat and passively raising their legs to greater than 45°.

• If, at 30–90 seconds, the are signs of haemodynamic improvementt - indicates volume replacement may be required.
• Patient condition deteriorates (in particular breathlessness) - indicates that the patient may be fluid overloaded

Question 63

Is Hartmann’s good as a maintenance fluid?

Answer 63

No - over a 24 hour period you would give 3 times as much sodium and not enough potassium as required

Question 64

What metabolic complication can occur when using saline as an IV fluid?

Answer 64

Hyperchloraemic metabolic acidosis

Question 65

What effect can too saline have on the kidneys?

Answer 65

Cause renal vasoconstriction

Question 66

Why is a dextrose-saline solution good for using as maintenance fluids?

Answer 66

If given at correct rate for patients weight - contains approximately correct amount of sodium for 24 hours

Question 67

How would you calculate overall fluid requirements?

Answer 67

Maintenance fluids + replacement of fluid losses

Question 68

Under what circumstances would you consider giving maintenance fluids instead of encouraging oral/ng fluid intake?

Answer 68

Only if the patient can’t drink enough

Question 69

When calculating maintenance fluids, what 3 things would you tant to calculate in terms of quantity given before calulating rate of administration?

Answer 69

24 hour requirements for:

• Water - 1-1.25 ml/kg/hr or 25-30ml/kg/24hrs
• Sodium - 1 mmol/kg/24hrs
• Potassium - 1mmol/kg/24hrs

Question 70

Calculate the following requirements in 24 hours for a 70kg patient:

• H2O
• K+
• Na2+
• Glucose

Answer 70

• Water (25-30ml/kg/24hrs) = 1680 - 2100 ml/24hrs
• K+ (1 mmol/kg/24hrs) = 70 mmol/24hrs
• Na2+ (1mmol/kg/24hrs) = 70 mmol/24hrs
• 50-100g/L glucose

https://pathways.nice.org.uk/pathways/intravenous-fluid-therapy-in-hospital#path=view%3A/pathways/intravenous-fluid-therapy-in-hospital/intravenous-fluid-therapy-in-adults-in-hospital.xml&content=view-node%3Anodes-routine-maintenance

Question 71

Why do individuals need 50-100g/day of glucose?

Answer 71

To avoid starvation ketosis

Question 72

When prescribing fluids to rail or elderly individuals or those with renal failure, what range for water replacement should you use?

Answer 72

20-25ml/kg/24hrs

https://pathways.nice.org.uk/pathways/intravenous-fluid-therapy-in-hospital#path=view%3A/pathways/intravenous-fluid-therapy-in-hospital/intravenous-fluid-therapy-in-adults-in-hospital.xml&content=view-node%3Anodes-routine-maintenance

Question 73

What bloods should you always check before prescribing fluids?

Answer 73

U+E’s

Question 74

If a patient is drinking some fluids, but not enough, how would you approach prescribiing maintenance fluids?

Answer 74

Check fluid baalance chart, and top up based on remaining deficit

Question 75

Why should you not use maintenance regimens to correct plasma or blood loss?

Answer 75

Could result in dangerous hyponatraemia

Question 76

What are indicators that someone may need urgent fluid resuscitation?

Answer 76

• SBP < 100 mmHg
• HR > 90 bpm
• CRT >2 seconds or peripheries are cold to touch
• RR > 20 bpm
• NEWS is 5 or more
• Passive leg raising suggests fluid responsiveness.

Question 77

What should you replace blood loss with?

Answer 77

Blood

Question 78

How would you determine pre-existing fluid/electrolyte deficit?

Answer 78

• History
• Observations
• Hydration status examination
• Fluid balance charts
• U+E’s

Question 79

What is important to remember about U+E’s in terms of what it represents from a fluid and electrolyte point of view?

Answer 79

Only represents plasma concentrations - does not give an idea of whole body stores

Question 80

If you gave someone a fluid bolus and they responded fully, what would be your next step?

Answer 80

Maintenance fluids

Question 81

When should you take care when giving fluid boluses?

Answer 81

When individual has clinical features of HF

Question 82

Why can K+ increase following surgery?

Answer 82

Due to excessive cell lysis

Question 83

What fluids would you consider giving in sepsis?

Answer 83

Crystalloid

Question 84

How would you treat fluid overload from fluid therapy in someone with HF?

Answer 84

• Fluid restrict
• Frusemide
• Low sodium diet
• Daily weight

Question 85

What two clinical pictures do you need to consider in someone with HF and a low SBP and urine output?

Answer 85

• Acutal dehydration - are they fluid deplete?
• LVF and overload - LVF is worsened by fluid overload

Question 86

What would you need to consider in terms of fluid management in someone with liver failure?

Answer 86

Excess Na+ could cause ascites - consider giving 5% dextrose only

Question 87

What should you avoid giving in terms of fluid therapy in someone with an AKI?

Answer 87

K+

Question 88

What should you avoid giving someone with CKD in terms of fluid therapy?

Answer 88

• Excess fluids, Na+ and K+
• Avoid hartmann’s - contains lactate

Question 89

What must you give to an alcoholic before giving any dextrose fluid replacement?

Answer 89

Pabrinex - otherwise may precipitate korsakoffs syndrome

Question 90

What fluid therapy would you prescribe in someone with a brain haemorrhage?

Answer 90

Saline - dextrose causes osmotic haematoma swelling

Question 91

How does hyerchloraemic metabolic acidosis cause renal injury, salt retention and reduced cardiac contractility?

Answer 91

Chloride causes renal vasoconstriction, thus decreasing GFR and exacerbating sodium retention. Acidosis causes decreased contractility, thus meaning that if treated with inotropes, the heart cannot pump as well and inotropes have less of an effect

Question 92

What is the best clinical measure of fluid balance?

Answer 92

Daily weights

Question 93

How much salt is in 1 L of saline?

Answer 93

9g (36 packets of crisps)

Question 94

What 4 questions do you need to address on the Scottish Daily IV/SC fluid prescription chart?

Answer 94

1. Do they need fluid - are they hypovolaemic, euvolaemic or hypervolaemic?
2. Why give fluid? - Maintenance, Replacement or Resuscitation
3. How much do they need?
4. What type of fluid?

Question 95

What is the absolute maximum rate for delivering maintenance fluid?

Answer 95

100ml/hr - to avoid risk of hyponatraemia

Question 96

What is the rough maintenance requirements/24hrs for indiviuals with a weight between 35-44kg?

Answer 96

1200 ml

Question 97

What rate would you give 1200ml of maintenance fluid in someone who weighs between 35-44kg?

Answer 97

50 ml/hr

Question 98

What volume of fluid would you give as maintenance fluid for someone between the weight of 45-54 kg over a 24 hr period?

Answer 98

1500ml

Question 99

What rate would you give 1500 ml maintenance fluid to a patient that weighs between 45-54kg?

Answer 99

65 ml/hr

Question 100

What volume of maintenance fluids would you give someone who weighed between 55-64kg?

Answer 100

1800 ml

Question 101

What hourly rate would you give 1800ml of maintenance fluid to someone who weighed between 55-64kg?

Answer 101

75 ml/hr

Question 102

What volume of maintenance fluid would you give someone in 24 hrs who was between the weights of 65-74 kg?

Answer 102

2100 ml

Question 103

What hourly rate would you administer 2100ml of maintenance fluid to someone who was between the weights of 65-74kg?

Answer 103

85 ml/hr

Question 104

What volume of maintenance fluid would you administer over a 24 hour period to someone who weighed >/= 75kg?

Answer 104

2400 ml

Question 105

What houlry rate would you give someone 2400 ml who weighed >/=75kg?

Answer 105

100 ml/hr max

Question 106

Based on maintenance fluids used in new scottish guidelines, why do all IV mainenance fluids need to be given via a volumetric pump?

Answer 106

They contain potassium

Question 107

What maintenance fluid would you give someone based on new scottish guidelines?

Answer 107

0.18% NaCl/4% glucose/0.3% KCL (40 mmol/L KCl)

Question 108

Based on new scottish guidelines, what maintenance fluid would you give someone if they had a K+ > 5 mmol/L?

Answer 108

0.18% NaCl/4% Glucose

Question 109

What maintenance fluid should you use if someone has a Na+ of < 132 mmol/L?

Answer 109

Plasmalyte 148

Question 110

What should patients who are fasting for >/= 6 hours for any reason be started on?

Answer 110

Maintenance fluid

Question 111

How would you calculate replacement fluids?

Answer 111

Add up losses in the last 24 hours (e.g. blood, diarrhoea, drain output, fistulae etc.)

Question 112

Is urine output a good guide for fluid replacement?

Answer 112

No - oliguria does not always require fluid therapy

Question 113

What fluid would you use as replacement fluids?

Answer 113

Plasmalyte 148 - unless upper GI loss

Question 114

According to new scottish guidelines, what fluid would you give instead of plasmalyte 148 as replacement fluids for upper GI losses?

Answer 114

0.9% saline with KCL as these patients will be hypochloraemic

Question 115

How is plasmalyte 148 delivered?

Answer 115

By gravity or volumetric pump

Question 116

According to new scottish fluid guidelines, what fluid should be used for fluid resuscitation?

Answer 116

Plasmalyte 148 - 250-500ml over 5-15 mins

Question 117

What is important to do following the administration of every bag of fluid given to a patient?

Answer 117

Stop and review

Question 118

According to new scottish guidlines, name the types of fluids used for the following situations:

• Resuscitation
• Replacement
• Maintenance

Answer 118

• Resuscitation - Plasmalyte 148
• Replacement - Plasmalyte 148, unless GI losses
• Maintenance - 0.18%/4% Glucose/0.3% KCl (no KCL if K+ > 5)

Question 119

What are the concentrations of the following in Plasmalyte 148:

• Na+
• K+
• Mg+
• Cl-

Answer 119

• Na+ - 140
• K+ - 5.0
• Mg++ - 1.5
• Cl- - 98