Fluid Homeostasis - Surgery

Question 1

What is the water composition in the body?

Answer 1

Total water: 60% of 70kg = 42L

Question 2

What fraction of body water is intracellular?

Answer 2

2/3 so 28L

Question 3

What fraction of body water is extracellular?

Answer 3

1/3 so 14L

Question 4

What are Starling’s Forces?

Answer 4

Osmotic and Hydrostatic Pressure

Question 5

What is osmotic pressure?

Answer 5

• Pressure which needs to be applied to prevent the inflow of water across a semipermeable membrane.

This is the ability of a solute to attract water

Oncotic pressure: form of osmotic pressure exerted by proteins

Question 6

What is hydrostatic pressure?

Answer 6

Pressure exerted by a fluid at equilibrium due to force of gravity.

Question 7

How is fluid distributed in the body?

Answer 7

Distribution between ECF and ICF is driven by differences in osmotic pressure only.

Distributions within the ECF is determined by Starling’s forces.

• Capillary and interstitial oncotic pressures
• Capillary and interstitial hydrostatic pressure
• Filtration coefficient.

Question 8

3rd space losses –> Decreased ECF

Answer 8

Fluid moving from plasma/blood cells (ECF) into the spaces between cells.

Bowel obstruction –> decreased fluid reabsorption –> 3rd space loss.

Sudden diuresis on day 2-3 post op = recovery of ileus

Peritonitis –> ascites –> 3rd space loss.

Question 9

Fluid balance - total water input and food input?

Answer 9

1500ml + 1000ml

Question 10

Total water output in urine and stool?

Answer 10

1500ml + 300ml

Question 11

Total input from metabolism?

Answer 11

300ml

Question 12

Total output from insensible losses?

Answer 12

1000ml

Question 13

Total input

Answer 13

2000ml = 25-30ml/kg/d

Question 14

Total output

Answer 14

2800ml= 40ml/kg/d

Question 15

Minimum urine output?

Answer 15

0.5ml/kg/h = ~30ml/h

Question 16

Glucose requirment

Answer 16

50-100g/day of glucose

Question 17

K requirement + Na Requiremnt

Answer 17

1mmol/kg/d

= 80 mmol

Question 18

Need to replace other losses too?

Answer 18

VOmiting and Diarrhoea
NGT
Drains
Fever (+500ml for each degree) 
Tachypnoea
High-output stomas.

Question 19

CVP monitoring?

Answer 19

Indicate RV preload and depends on

• Venous return
• Cardiac output

Increased CVP

• Increased circulating volume
• Decreased CO: pump failure

Decreased CVP
- Decreased circulating volume

Normal value: -5-10cmH20

SIngle reading is not as useful as serial measurements before and after fluid challenge

• Unchanged: Hypovolaemic
• Increased that reverses after 30mins : euvolaemia
• Sustains increased >5cmH20: overload/failure
• Passive leg raising may be more useful than fluid challenge in determining response to fluid
• Sustained increased in CVP suggest heart failure.

Question 20

24 hr NICE recommendation for fluid?

Answer 20

When prescribing for routine maintenance alone, consider using 25-30ml/kg/day sodium chloride 0.18% in 4% glucose with 27 mmol/l potassium on day 1.

Question 21

What does NS Contain?

Answer 21

0.9% NaCl = 9g/L
154 mM NaCl.

Use for normal daily fluid requirements + replace losses.

If large volumes are used there is an increased risk of hyperchloraemic metabolic acidosis.

Question 22

5% dextrose?

Answer 22

50g dextrose/L

Normal daily fluid requirement

Question 23

Dextrose saline?

Answer 23

4% dextrose = 40g/L
0.18% NaCL = 31 mM NaCL

Normal daily fluid requirements

Question 24

What does Hartmann’s contain?

Answer 24

Na: 131 mM 
Cl: 111mM 
K: 5mM 
Ca: 2.2 mM 
Lactate/HCO3: 29mM

Question 25

Use of Hartmann’s

Answer 25

Resuscitations in trauma patients

pH: 6.5 but Hartmann’s is an alkalising solution
Lactate is not an acid itself: conjugate base.

Question 26

Daily requirements?

Answer 26

3L dex-saline with 20mM K+ in each bag

1L NS + 2L dex with 20mM K+ in each bag.

Question 27

Types of colloid?

Answer 27

Contains large molecular weight molecules - gelatin/dextrans. Preserved oncotic pressure therefore remains intravascular –> to increased intravascular volume.

Natural = Albumin, blood.

Synthetic = Gelofusin, voluven.

USe: fluid challenge: 250-500ml over 15-30mins.
Hypovolaemic shock.

Problems

• Anaphylaxis
• Volume overload.

Question 28

How to assess fluid status?

Answer 28

Hx: balance chart, surgery, other loss, thirsty

Impression: drowsy, alert

INspection: drips, drains, stomas, catheters, CVP.

Question 29

Examination of IV volume?

Answer 29

CRT
HR
BP lying and standing
JVP

Question 30

Examination of Tissue perfusion

Answer 30

Skin turgor
Oedema: ankle, pulmonary ascitis
Mucus membranes

Question 31

Examination of end-organ perfusion?

Answer 31

UO, Increased U+Cr
Consciousness
Lactate

Question 32

Other assessments of perfusions?

Answer 32

PCWP: indirect measure of left atrial pressure
- pulmonary wedge pressure (measure the pulmonary artery)

• CVP

Question 33

Post-op Fluids?

Answer 33

Problems
- Increased ADH, increased aldosterone, increased cortisol –> Na + H20 conservation.

Increased K+: tissue damage, transfusion, stress hormone.

Question 34

Solutions to post-op fluid issues?

Answer 34

Use UO to guide fluid replacement but may need to decreased maintenance fluid to 2L first 24hr post op
Avoid K+ supplementation for first 24hr post-op.

Question 35

Cardiac or renal failure problem + solution?

Answer 35

RAS activation –> NA and H20 retention

Therefore solution = avoid fluid with Na –> give 5% dextrose.

Question 36

Bowel obstruction and fluid?

Answer 36

Pts have significant third space losses with loss of both water and electrolytes

Likely to need significantly more than standard daily requirements.

Regiments

• 0.9% NS with 20-40mml KCL to each bag
• Titrate rate of fluid to clinical findings on serial examination
• Serial U+E to guide electrolyte replacement.

Question 37

Pancreatitis fluid management?

Answer 37

Inflammation –> significant fluid shift tinto the abdomen

Pts require aggressive fluid resus and maintenance

• Insert urinary catheter and consider CVP monitoring
• 0.9% NS with 20-40mmol KCL added to each bag.
• Keep UO >30ml/h
• serial U+E guide electrolyte replacement.

Question 38

Ileostomy fluid management?

Answer 38

Normal output: 10-15ml/Kg/d = 700ml/day

High output = >1000ml/d

Ileum will adapt to limit fluid + electrolyte losses.

• Fluid - 0.9% NS + KCL
• Daily requirements + replaces losses, titrated to UO.
• Serial U+E guide electrolyte replacement

High output

• Loperamide
• Codeine

Question 39

Reduced Urine Output Post-op

Answer 39

Causes

• Pre-renal: Hypovolaemia
• Renal: NSAIDs, Gentamicin
• Post-renal: Commonest cause - blocked catheter, acute urinary retention.

Anuria usually = blocked or malsited catheter
Oliguria usually = inadequate fluid replacement

Question 40

Management of reduced urine output post-op?

Answer 40

Information

• Op Hx
• Obs Chart UO
• Drug chart: nephrotoxin

Examination

• examine fluid status
• Examinate for palpable bladder
• Inspect drips, drains, stomas, CVP

Action

• Flush with 50ml NS and aspirate back
• fluid challenge

Suspecte catheter problem
- Flush with 50ml NS and aspirate back

Suspect pre-renal problem
- Fluid challenge
250-500ml colloid bolus over 15-30 mins.
Look for CVP or UO response within minutes.

Question 41

Clinical assessment of nutrition?

Answer 41

Hx

• weight loss
• Diet

Examination

• Skin fat
• Dry hair
• Pressure sore
• Cheilitis
• Weight + BMI (<20kg/m2)

Question 42

Anthropometric assessment of nutrition?

Answer 42

Skin-fold thickness

Arm circumference

Question 43

Investigations of nutrition?

Answer 43

Albumin
Transthyretin
Phosphate

Question 44

What is enteral nutrition?

Answer 44

Requirements for body /kg/24hr.

20-40 kcal
Carbs: 2g
Fat: 3g
Protein: 0.5-1
Nitrogen: 0.2-0.4

Enteral nutrition
- Delivery
PO is best . Consider semi-solid if risk of aspiration
- Fine bore NGT
- Percutaneous endoscopic gastrostomy
- Jejunostomy
- Build up feeds gradually to prevent diarrhoea.

Question 45

What feeds are possible through enteral feeding?

Answer 45

Oral supplements
- Polymeric: E.g osmolite, jevity: Intact proteins, starches and long-chain FAs.

• Disease Specific. e.g decreased branched chains AA in hepatic encephalopathy
• Elemental
  Simple AA and oligo/monosaccharides
  Require minimal digestion and used if abnormal GIT: E.g in Crohns.

Question 46

Indications for enteral feeding?

Answer 46

Catabolic: sepsis, burns, major surgery
Coma/ITU
Malnutrition
Dysphagia: Stricture, stroke.

Question 47

Complications of enteral feeding?

Answer 47

NGT

• Nasal trauma
• Malposition or tube blockage

Feeding

• Feed intolerance –> Diarrhoea
• Electrolyte imbalance
• Aspiration
• Refeeding syndrome

Question 48

What is parental nutrition?

Answer 48

May be total or used to supplement enteral feeding

- Combined with H20 to deliver total daily requirements.

Question 49

Indications for parenteral nutrition?

Answer 49

• Prolonged obstruction or ileus (<7days)
• High output fistula
• Short bowel syndrome
• Severe Crohn’s
• Severe malnutrition
• Severe pancreatitis
• Unable to swallow: e.g oesophageal Ca.

Question 50

Delivery of parenteral nutrition?

Answer 50

• Delivered centrally as high osmolality is toxic to veins
  Short-term: CV cather
  LOng-term: Hickman or PICC line

Sterility is essential: use line only for PN.

Question 51

Monitoring of parenteral nutrition?

Answer 51

Standard

• Weight, fluid balance and urine glucose daily.
• Zn, Mg weekly.

Initially

• Blood glucose, FBC, U+E, PO4 3x a week.
• LFTs 3x /week

Once stable

• Blood glucose, FBC, U+E + PO4 daily
• LFTs weekly.

Question 52

Content of parenteral nutrition

Answer 52

2000Kcal: 50% fat, 50% carbs
10-14g nitrogen
Vitamins, minerals and trace elements.

Question 53

Complications of Parenteral nutrtion?

Answer 53

Line-related

• Pneumothorax/haemothorax
• Cardiac arrhythmia
• Line sepsis
• Central venous thrombosis –> PE or SVCO

Feed-related 
- Villous atrophy of GIT
- Electrolyte disturbances 
Refeeding syndrome 
Hypercapnoea from excessive CO2 production 
- Hyperglycaemia and reactive hypoglycaemia 
- Line sepsis: increased risk with TPN 
- Vitamin and mineral deficiency

Question 54

What is refeeding syndrome?

Answer 54

• Life-threatening metabolic complications of refeeding via any route after a prolonged period of starvation.

Question 55

Pathophysiology of refeeding?

Answer 55

Decreased carbs - catabolic state with low insulin, fat and protein catabolism and depletion of intracellular phosphate.

• Refeeding –> increased insulin response to carbs and increased cellular phosphate uptake

- Hypophosphatemia 
Rhabdomyolysis 
Respiratory insufficiency 
Arrhythmias 
Shock 
Seizures

Question 56

What is the chemistry of refeeding syndrome?

Answer 56

Decreased K, Decreased Mg, Decreased Po4

Question 57

Patients at risk of refeeding syndrome?

Answer 57

Malignancy
Anorexia nervosa
Alcoholism 
GI surgery
Starvation

Question 58

Prevention of refeeding syndrome?

Answer 58

Identify and monitor at-risk patients

Liaise with dietician

Question 59

Management of refeeding syndrome?

Answer 59

• Identify at-risk pts in advance and liaise with dietician
• Parenteral and oral PO4 supplementation
• Manage complications