Hypokalaemia

Question 1

What is the normal range of K in the serum?

Answer 1

3.5 - 5.5 mmol/L

Question 2

At what K concentration do signs and symptoms of hypokalaemia emerge?

Answer 2

<3.0

Question 3

What two organ systems are affected by hypokalaemia?

Answer 3

Muscles:

• Abdomen: cramps, ileus
• Legs: weakness (tends to start in legs then spread to arms)
• Rhabdomyolysis (widespread lysis of myocytes)

Heart:

• ECG changes
• Arrhythmia
• Atrial fibrillation most common

Question 4

What’s tricky about rhabdomyolysis due to hypokalaemia?

Answer 4

Hypokaelaemia can trigger rhabdomyolysis, which is the widespread lysis of myocytes.

The lysis can lead to release of intracellular potassium into the serum, which masks the hypokalaemia that orginially triggered it.

Question 5

What muscle signs and symptoms can result from hypokalaemia?

Answer 5

Weakness (starts in legs, progresses to arms)
Cramps
Ileus

Rarely, rhabdomyolysis

Question 6

What cardiac signs and symtpoms are associated with hypokalaemia?

Answer 6

ECG changes

Arrhythmias (most common is AF; can also cause VT and torsades)

Question 7

What ECG changes are associated with hypokalaemia?

Answer 7

ST depression
T wave inversion
Prominent U waves (comes after T wave, before P wave - might look like a double peaked T wave)

Question 8

In which patients are arrhythmias due to hypokalaemia most dangerous?

Answer 8

• QT prolonging drugs
• Digoxin toxicity
• Hypomagnasemia
• Coronary ischaemia

In these cases, hypokaelaemia can result in VT or torsades.

Question 9

What are the four main categories of causes of hypokalaemia?

Answer 9

Reduced GI absorption (e.g. poor PO intake)
Excess GI loss
Excess renal loss
Internal redistribution into intracellular space

Question 10

What hormonal problems can cause hypokalaemia?

Answer 10

Excess aldosterone (primary aldoseronism), cortisol (Cushing’s), and other mineralocorticoids.

These can block renal reabsorption of filtered potassium.

Question 11

What drugs can cause hypokalaemia?

Answer 11

Cortisol and other mineralocorticoids.
- These can block renal reabsorption of filtered potassium.

Diuretics

Insulin

Question 12

How significantly must a patient be suffering from poor intake to result in hypokalaemia?

Answer 12

Significant.

Kidneys can usually reabsorb all potassium, so intake must be extremely low for K levels to fall.

Question 13

What might cause GI loss of K?

Answer 13

Vomiting

Diarrhoea (inc laxative abuse)

Question 14

What might cause urinary loss of K?

Answer 14

Diuretics
Cortisol excess (blocks reabsorption of filtered K)
Polyuria (think DKA)
Hypomagnasemia

Question 15

What electrolyte imbalance can in turn lead to hypokalaemia?

Answer 15

Hypomagnasemia (mechanism unknown)

Question 16

What can cause internal redistrubtion of K into the intracellular space?

Answer 16

Insulin
Catecholamines
Alkalosis

Question 17

How do you work up hypokalaemia, clinically?

Answer 17

1: History (vomiting, diarrhoea, polyuria, drugs)
2: Check Mg
3: Measure Urine K:Creatinine ratio, and assess acid-base balance

Question 18

What does a low K to Creatinine ratio suggest?

Answer 18

Low intake
GI losses
Internal redistribution

Question 19

What does a high K to Creatinine ratio suggest?

Answer 19

Renal losses

Question 20

Will diarrhoea lead to a metabolic acidosis or alkalosis?

Answer 20

Diarrhoea causes acidosis.

Diarrhoeal stool contains a higher concentration of bicarbonate than plasma, so losing it produces a net acidosis

Question 21

Will vomiting lead to a metabolic acidosis or alkalosis?

Answer 21

Vomiting causes alkalosis.

Question 22

How do you treat hypokalaemia?

Answer 22

Replace K.

Treat underlying aetiology.

Question 23

How do you replace K?

Answer 23

Orally (oral KCl)

IV (IV KCl)

Question 24

What is the maximum dose of PO KCl?

Answer 24

40mmol 4-hourly.

Question 25

What is the main side effect of PO KCl?

Answer 25

GI upset

Question 26

What is the maximum replacement rate for IV KCl?

Answer 26

10mmol per hour

Question 27

What is the main side effect of IV KCl?

Answer 27

Burning pain proximal to IV site

Question 28

What should you bear in mind when replacing K intravenously?

Answer 28

All patients receiving IV KCl should be on continuous cardiac monitoring

Question 29

What do you do about a hypokalaemic patient on diuretics?

Answer 29

Consider stopping diuresis as it may be cause of hypokalaemia.

If patient’s diuresis cannot be stopped (essential treatment for CCF, for instance), consider switching to K-sparing diuretic.

Question 30

Cutoff for:

• Mild hypokalaemia
• Moderate hypokalaemia
• Severe hypokalaemia

Answer 30

Mild: <3.5
Moderate: <3
Severe: <2.5

Question 31

What does aldosterone do to electrolyte levels?

Answer 31

Aldosterone produces:

• Potassium (and H+) excretion
• Sodium resabsorption

Question 32

What does a patient’s acid-base status have to do with their K levels?

Answer 32

In response to alkalosis, the body shifts K into the cells, in exchange for H+ ions into the blood. This regulates the alkalosis, but results in hypokalaemia.