Diabetic ketoacidosis

Question 1

Ketogenesis

Answer 1

Occurs when insufficient supply of glucose and glycogens stores are exhausted

Liver takes fatty acids and converts them to ketones to be used as fuel

Question 2

Ketoacidosis

Answer 2

When cells have no fuel they initiate process of ketogenesis

Over time glucose and ketone levels get higher and higher

Initially bicarbonate buffers ketone acids to maintain normal pH

Over time ketone acids use up bicarbonate and blood becomes acidic

Question 3

Dehydration in DKA

Answer 3

Hyperglycaemia overwhelms kidneys and glucose starts being filtered out into urine

Glucose draws water with it by osmotic diuresis

Causes polyuria and polydipsia

Question 4

Potassium imbalance

Answer 4

Insulin normally drives potassium into cells

Without insulin potassium is not stored in cells so total body potassium is low (serum can be high/normal)

When treatment with insulin starts patients can develop severe hypokalaemia very quickly

Question 5

Brain in DKA

Answer 5

Dehydration and high blood sugar cause water to move from intracellular space in brain to extracellular

Causes brain cells to shrink and become dehydrated

Question 6

Risk of rapid correction of dehydration and hyperglycaemia

Answer 6

Shift in water from extracellular space to intracellular space in brain cells

Causes cerebral oedema which can lead to brain cell destruction and death

Neuro obs monitored very closely

Question 7

Signs of cerebral oedema

Answer 7

Headache

Altered behaviour

Bradycardia

Changes in consciousness

Question 8

Management of cerebral oedema

Answer 8

Slowing IV fluids

IV mannitol

IV hypertonic saline

Question 9

Presentation of DKA

Answer 9

Polyuria

Polydipsia

Nausea and vomiting

Weight loss

Acetone smell to their breath

Dehydration and hypotension

Altered consciousness

Symptoms of underlying trigger e.g. sepsis

Question 10

Diagnosing DKA

Answer 10

Hyperglycaemia- blood glucose >11mmol/L

Ketosis- blood ketones >3mmol/L

Acidosis- pH <7.3

Question 11

Two pillars of correcting DKA

Answer 11

Correct dehydration evenly over 48 hours

Give fixed rate insulin

Question 12

Fluid replacement

Answer 12

Most patients deplete 5-8 litres

Isotonic saline used initially even if severely acidotic

Question 13

Insulin treatment

Answer 13

IV infusion started at 0.1unit/kg/hour

Once blood glucose <15mmol/L an infusion of 5% dextrose should be started

(long acting insulin continued and short acting should be stopped)

Question 14

Correct electrolyte disturbance

Answer 14

Serum potassium falls quickly following treatment with insulin

May need to add potassium to replacement fluids

If rate of potassium infusion >20mmol/hour then need cardiac monitoring

Question 15

Correct electrolyte disturbance

Answer 15

Serum potassium falls quickly following treatment with insulin

May need to add potassium to replacement fluids

If rate of potassium infusion >20mmol/hour then need cardiac monitoring

Question 16

DKA resolution

Answer 16

pH >7.3 and

Blood ketones <0.6mmol/L and

Bicarbonate >15mmol/L

If criteria met and patient is eating and drinking, switch to subcutaneous insulin

If ketonaemia and acidosis not resolved within 24h then need senior review from an endocrinologist

Question 17

Complications

Answer 17

Gastric statis

Thromboembolism

Arrhythmias secondary to hyperkalaemia/ iatrogenic hypokalaemia

Iatrogenic due to incorrect fluid therapy- cerebral oedema, hypokalaemia, hypoglycaemia

Acute respiratory distress syndrome

AKI