ChemPath: Sodium and Fluid Balance

Question 1

How is osmolarity calculated?

Answer 1

2 (Na + K) + urea + glucose

Question 2

What is the normal range for serum osmolarity?

Answer 2

275-295 mmol/kg

Question 3

What is the underlying pathogenesis of hyponatraemia?

Answer 3

Excess water - concentration of sodium is lower

Question 4

Which hormone controls water balance?

Answer 4

ADH (vasopressin)

Question 5

Describe how ADH controls water balance.

Answer 5

ADH is released from the posterior pituitary gland. It acts on V2 receptors on collecting ducts causing insertion of aquaporin-2 water channels. This causes increased water reabsorption.

Question 6

What receptors may ADH (Vasopressin) work on?

Answer 6

V1 receptors:

• On vascular smooth muscle
• Causes vasoconstriction
• This occurs at higher concentrations

V2 receptors:

• On kidneys
• Insertion of aquaporin-2 channels on collecting ducts

Question 7

What are the two main stimuli for ADH secretion?

Answer 7

• Serum osmolality - mediated by hypothalamic osmoreceptors
• Blood volume/pressure - mediate by baroreceptors in carotids, atria and aorta

Question 8

What is the effect of increased ADH secretion on serum sodium?

Answer 8

Hyponatrium

(More water = Less sodium)

Question 9

What is the first step in the clinical assessment of a patient with hyponatraemia?

Answer 9

• Clinical assessment of volume status
  
  • Look at hands
  • Head and neck
  • Peripheries

Question 10

What are clinical signs of hypovolaemia?

Answer 10

• Dry mucous membranes
• Reduced JVP
• Reduces tissue turgor
• Tachycardia
• Postural hypotension
• Confusion/drowsiness
• Reduced urine output
• Low urine Na+ (<20) - on admission before saline, if on diuretics, not useful

If you are hypovolaemic, you need to hold onto sodium so urine sodium will be low → always remember to send off this test

Question 11

What are clinical signs of hypervolaemia?

Answer 11

• Raised JVP
• Peripheral oedema
• Bibasal crackles (on chest examination)

Question 12

What makes urine sodium uninterpretable?

Answer 12

Diuretics - these alter the kidney’s ability to retain salt. Must stop it and check 48 hours after.

Question 13

What are causes of hypovolaemia?

Answer 13

• Diarrhoea
• Vomiting
• Diuretics
• Salt losing nephropathy

Question 14

What are causes of hyponatraemia in a hypovolaemic patient?

Answer 14

• Renal: diuretics
• Extra-renal: diarrhoea, vomiting

Question 15

What the causes of hyponatraemia in a hypervolaemic patient?

Answer 15

• Cardiac failure
• Cirrhosis
• Renal failure

Question 16

What are causes of hyponatraemia in a euvolaemic patient?

Answer 16

• Hypothyroidism - due to reduction in CO detected by baroreceptors leading to ADH secretion
• Adrenal insufficiency - cortisol needed for water excretion, aldosterone needed for sodium and water retention.
• SIADH

Question 17

What are the causes of SIADH?

Answer 17

• CNS pathology
• Lung pathology
• DRUGS (SSRI, TCA, opiates, PPIs, carbamazepine)
• Tumours (most commonly SCLC)
• Surgery

Question 18

What investigations would you order in a patient wih euvolaemic hyponatraemia?

Answer 18

• Hypothyroidism: Thryoid function tests
• Adrenal insufficiency: Short synacthen test
• SIADH: Plasma and urine osmolality (low plasma & high urine osmolality)

Question 19

Will osmolality of plasma and urine be high or low in SIADH?

Answer 19

Plasma osmolality - LOW

Urine osmolality - HIGH (>100)

Question 20

What is the diagnostic criteria for SIADH?

Answer 20

• True hyponatraemia (<135)
• Low serum osmolality (<270)
• High urine sodium (>20)
• No adrenal / thyroid / renal dysfunction (normal 9am cortisol and LFTs)
• Clinically euvolaemic

I.e. diagnosis of exclusion

Question 21

How would you manage a hypovolaemic patient with hyponatraemia?

Answer 21

Volume replacement with 0.9% saline - this removes the stimulus for ADH secretion

Question 22

How would you manage a hypervolaemic patient with hyponatraemia?

Answer 22

Fluid restriction and treat the underlying cause.

Do NOT give saline as the patient will just hold onto the water and exacerbate the hyponatraemia → giving saline won’t address the issue causing ADH secretion if it’s a tumour etc.

Question 23

How would you manage a euvolaemic patient with hyponatraemia?

Answer 23

Fluid restriction and treat the underlying cause (same as hypervolaemic patient with hyponatraemia)

Question 24

What are clinical symptoms of severe hyponatraemia?

Answer 24

• Reduced GCS
• Seizures

Seek expert help (treat with hypertonic 3% saline)

Question 25

How is severe hyponatraemia managed?

Answer 25

Can give boluses of hypertonic 3% saline but only if patient has low GCS or fitting.

DO NOT GIVE 3% saline if alert and orientated.

Question 26

What is an important point to remember while correcting hyponatraemia?

Answer 26

• Serum Na must NOT be correct >8-10 mmol/L in the first 24 hours
• Risk of osmotic demyelination (central pontine myelinolysis)
  
  • Presents a few days later with quadriplegia, dysarthria, dysphagia, seizures, coma, death

Question 27

What drugs are used to treat SIADH?

Answer 27

If water restriction is insufficient:

• Demeclocycline
• Tolvaptan

Question 28

How does Demeclocycline work?

Answer 28

• Reduces responsiveness of collecting tubule cells to ADH
• Need to monitor U&Es (risk of nephrotoxicity)

Question 29

How does Tolvaptan work?

Answer 29

• V₂ receptor antagonist
• Very expensive

Question 30

What is the treatment for SIADH?

Answer 30

Water restriction

PLUS (but both used rarely)

1. Demeclocycline (reduces responsiveness of collecting tubule cells to ADH - but caution because nephrotoxic) OR
2. Tolvaptan (V2 receptor antagonist) - use cautiously as they work rapidly

Question 31

What are the main causes of hypernatraemia?

Answer 31

• Unreplaced water loss
  
  • Gastrointestinal losses,
  • Sweat losses
  • Renal losses: osmotic diuresis, reduced ADH release/action (Diabetes insipidus / Mellitus [HHS])
• Patient cannot control water intake e.g. children, elderly

Question 32

What investigations would you order in a patient with suspected diabetes insipidus?

Answer 32

• Serum glucose (exclude diabetes mellitus)
• Serum potassium (exclue hypokalaemia)
• Serum calcium (exclude hypercalcaemia)
• Plasma and urine osmolality
• Water deprivation test - urine osmolality will fail to increase

Question 33

Describe the results of the water-deprivation test

Answer 33

Normal:

• Urine osmolality >600
• U:P ratio >2

Primary polydipsia:

• Urine concentrates but less than normal e.g. >400-600

Cranial DI:

• Urine osmolality increases to >600 only after desmopressin

Nephrogenic DI:

• No increase in urine osmolality even after desmopressin

Question 34

Describe cranial diabetes insipidus

Answer 34

• Lack of / no ADH production
• Causes: surgery, trauma, tumours
• Mx: desmopressin

Question 35

Describe nephrogenic diabetes insipidus

Answer 35

• Insensitivity to ADH (receptor defect)
• Causes: lithium, demeclocycline, hypokalaemia, hypercalcaemia
• Mx: thiazide diuretics

Question 36

What do patients with diabetes insipidus present with?

Answer 36

Polyuria and polydipsia

Question 37

How would you treat hypernatraemia?

Answer 37

• Slow fluid replacement
• Treat the underlying cause

Question 38

What is the management of hypernatraemia?

Answer 38

• Correct water deficit
  
  • 5% DEXTROSE (free water)
• May need to correct extracellular fluid volume depletion (especially if they’ve been vomiting)
  
  • 0.9% saline
• Serial Na⁺ measurement
  
  • Every 4-6 hours

Question 39

What are the effects of diabetes mellitus on serum sodium?

Answer 39

Variable:

• Hyperglycaemia draws water out of the cells leading to hyponatraemia
• Osmotic diuresis in uncontrolled diabetes leads to loss of water and hypernatraemia

This varies from person to person - based on which factor is pre-dominating

Question 40

What is the definition of hyponatraemia?

Answer 40

Sodium concentration <135 mmol/L

Question 41

How Hypothyroid causes hyponatraemia

Answer 41

Reduced Cardiac contractility

Increased ADH