ChemPath 10: calcium handling and metabolic bone disease

Question 1

Why is the calcium level in the blood so tightly controlled?

Answer 1

Nerves and muscles rely on calcium to cause depolarisation

Question 2

What are the consequences of high and low plasma calcium for nerve conduction? What is nomal range?

Answer 2

High calcium – failure of depolarisation

Low calcium – trigger happy neurological system leading to epilepsy (reduced AP required for NM depolarisation)

Range: 2.2-2.6 mmol/L

Question 3

What are the three forms in which calcium is present in the plasma?

Answer 3

Free (ionised) – 50% - biologically active

Protein-bound – 40% - bound to albumin

Complexed – 10% - citrate/phosphate

Question 4

State the equation for corrected calcium.

Answer 4

Corrected calcium = serum calcium + (0.02 x (40 – serum albumin in g/L))

NOTE: if your albumin level is constant, the total serum calcium will be roughly double the concentration of free calcium

Question 5

What are the main effects of PTH?

Answer 5

Liberation of calcium from the bone (increased bone breakdown) and kidneys (increased calcium resorption)

Stimulates 1α-hydroxylase activity resulting in increased activated vitamin D

Stimulates renal phosphate excretion

Question 6

What is the rate-limiting step in vitamin D activation?

Answer 6

1α-hydroxylase

Question 7

What are the two forms of vitamin D?

Answer 7

Vitamin D2 (ergocalciferol) – from plants

Vitamin D3 (cholecalciferol) – produced when UV hits the skin and converts 7-dehydrocholesterol to cholecalciferol

NOTE: both are active

Question 8

Outline how 7-dehydrocholesterol is converted to activated vitamin D.

Answer 8

UV converts 7-dehydrocholesterol to cholecalciferol (D3 - as found in fish oils and D3 tablets)

This is then converted by 25-hydroxylase in the liver to Calcifedol (25-hydroxycholecalciferol)

This then gets converted by 1α-hydroxylase in the kidneys to Calcitriol (1,25-dihydroxycholecalciferol)

Question 9

How can sarcoidosis lead to hypercalcaemia?

Answer 9

Lung cells of sarcoid tissue (macrophages) express 1α-hydroxylase

NOTE: hypercalcaemia tends to be seasonal (i.e. during the summer months when more sunlight means more vitamin D which can be activated)

Question 10

What are the main roles of vitamin D (calcitriol)?

Answer 10

Increased intestinal calcium absorption

Increased intestinal phosphate absorption

Critical for bone formation

Question 11

What is ALP?

Answer 11

By-product of osteoblast activity

Question 12

What is bone a reservoir of? (elements)

Answer 12

Calcium

Phosphate

Magnesium

Question 13

What disease states does vitamin D deficiency cause?

Answer 13

Osteomalacia

Rickets

Question 14

List some risk factors for vitamin D deficiency.

Answer 14

Lack of sunlight

Dark skin

Dietary

Malabsorption

Question 15

Outline some clinical features of osteomalacia.

Answer 15

Bone and muscle pain

Increased fracture risk

Looser’s zones (Pseudofractures - common sites affected include the scapula, pubic rami and proximal femurs)

Question 16

Outline the biochemical changes in osteomalacia

Answer 16

Low calcium

Low phosphate

High PTH

High ALP

Question 17

Lsit some clinical features of rickets

Answer 17

Bowed legs

Costochondral swelling

Widened epiphyses of the wrists

Myopathy

Question 18

Pathophysiology of osteomalacia

Answer 18

Vitamin D deficiency leads to secondary hyperparathyroidism which stimulates the liberation of calcium from the bone (leading to demineralisation of the bone)

Question 19

How can renal failure cause vitamin D deficiency?

Answer 19

A lack of 1α-hydroxylase means that you are unable to activate vitamin D

Question 20

Which group of drugs is associated with vitamin D deficiency?

Answer 20

Anticonvulsants – promote the breakdown of vitamin D

Question 21

Which component of common foods chelates vitamin D in the gut?

Answer 21

Phytic acid – food like chapatis have a high level of phytic acid which chelates vitamin D in the gut and reduces absorption

Question 22

How does acromegaly lead to osteoporosis?

Answer 22

Causes testosterone deficiency

Question 23

escribe the changes in serum biochemistry in osteoporosis

Answer 23

Normal

Question 24

What is the main investigation used for osteoporosis?

Answer 24

DEXA scan

Question 25

What is a T-score? Z-score?

Answer 25

T-score:
Number of standard deviations from the mean of a young healthy population

Z-score:
Number of standard deviations from the age-matched control

Question 26

Causes of osteoporosis?

Answer 26

Age-related decline in bone mass
Early menopause
Sedentary lifestyle
Alcohol
Low BMI
Thyrotoxicosis
Hyperprolactinaemia
Cushing’s syndrome
Prolonged recurrent illness

Question 27

Lifestyle changes recommended in osteoporosis mx?

Answer 27

Weight-bearing exercise

Stop smoking

Reduce alcohol consumption

Question 28

Drugs useful in mx of osteoporosis?

Answer 28

Vitamin D
Bisphosphonates
Teriparatide (PTH derivative)
Strontium (anabolic and anti-resorptive)
HRT
SERMs (e.g. raloxifene)

Question 29

Signs of hypercalcaemia?

Answer 29

Moans, Stones, Groans and Bones

Moans - GI related (abdo pain, constipation, decreased appetite, nausea, peptic ulcers + vomiting)

Stones - Increased risk of kidney stones (+ polyuria / dipsia)

Groans - phychological symptoms (confusion, dementia, depression, seizures, coma)

Bones - If due to primary hyperparatyroidism -> bone breakdown

NOTE: these tend to occur when calcium level > 3 mmol/L

Question 30

What are the main causes of primary hyperparathyroidism?

Answer 30

Parathyroid adenoma
Parathyroid hyperplasia (associated with MEN1)
Parathyroid carcinoma

Question 31

Outline the serum biochemistry features of primary hyperparathyroidism.

Answer 31

This is PTH driven hence high PTH:

• High calcium
• Inappropriately raised PTH (can be normal as well)
• Low phosphate (‘phosphate trashing hormone’)

Question 32

Outline the pathophysiology of familial benign hypercalcaemia

Answer 32

A mutation in the calcium-sensing receptor (CaSR) leads to an increase in the set-point for PTH release (leads to mild hypercalcaemia)

TLDR: Same amount of Ca leads to much greater PTH release than in normal individuals

Question 33

Why don’t patients with familial benign hypercalcaemia get kidney stones?

Answer 33

PTH causes increased renal calcium absorption, thereby reducing urine calcium

Question 34

What are the three types of hypercalcaemia of malignancy?

Answer 34

Humoral hypercalcaemia of malignancy (e.g. small cell lung cancer) caused by PTHrP release

Bone metastases (e.g. breast cancer) caused by local bone osteolysis

Haematological malignancy (e.g. myeloma) caused by cytokines causing breakdown of bone

Question 35

List some other non-PTH driven causes of hypercalcaemia + how?

Answer 35

Sarcoidosis

Thyrotoxicosis (increases bone resorption)

Hypoadrenalism (renal Ca2+ transport)

Thiazide diuretics (renal Ca2+ transport)

Excess vitamin D (e.g. sun beds)

Question 36

Outline the management of hypercalcaemia

Answer 36

Fluids, fluids and more fluids

Bisphosphonates (stops cancer from eating bone - dronates)

Treat the underlying cause

Question 37

What is measured in vitamin D tests?

Answer 37

Calcifedol (25-hydroxy vitamin D) levels

25-hydroxy vitamin D is stored and converted to the active form when needed under the influence of PTH

Question 38

What does calcitriol do?

Answer 38

Increases Ca uptake at GI tract +

Increases Phosphate uptake at GI tract

Question 39

How to categorise causes of HYPERcalcaemia?

Answer 39

PTH causing or correcting:

PTH causing (high PTH):

• Primary hyperparathyroidism (MAIN)
• Familial benign hypercalcaemia

PTH correcting (low PTH): 
- Malignancy

Question 40

What level is hypercalcaemia?
What is hypocalcaemia?

Answer 40

>2.6mmol/L

<2.2mmol/L

Question 41

How to categorise causes of HYPOcalcaemia?

Answer 41

PTH causing or correcting:

PTH causing (low PTH):
Hypoparathyroidism
- Surgical - thyroidectomy
- Immunological - AI Hypoparathyroidism
- Congenital - DiGeorge
Mg Deficiency

PTH correcting (high PTH): 
Secondary hyperparathyroidism (PTH is high but caused by indirect reason (reduced Ca)) 
1. Vit D deficiency (not enough to start the chain\_ 
2. CKD (lack of 1a hydroxlase) 
3. PTH resistance (known as pseudohyperparathyroidism)

Question 42

What is tertiary hyperparathyroidism?

Answer 42

Often seen in CKD - PTH has been raised for so long that even after initial hypocalcaemia is fixed it stays raised

This leads to HYPERcalcaemia

Question 43

Signs seen in HYPOcalcaemia?

Answer 43

Due to NM excitability:

• > Chvostek’s Sign
• > Trousseau’s Sign
• > Hyperreflexia
• > Laryngeal Spasm
• > Convulsions

Question 44

Mx of HYPOcalcaemia?

Answer 44

Calcium

• > IV Calcium Gluconate 10%
• > Oral Calci-D tablets

Vitamin D
-> Usually the activated form