ChemPath: Calcium Metabolism

Question 1

What percent of calcium in the body is stored in bones?

Answer 1

99%

Question 2

What percent of calcium is stored in serum?

Answer 2

1%

Question 3

What are the three forms of serum Calcium?

Answer 3

• Free (“ionised”) ~50% - biologically active
• Protein-bound ~40% - albumin
• Complexed ~10% - citrate / phosphate

Question 4

What is the normal range of total calcium serum?

Answer 4

2.2 - 2.6 mmol/L

Question 5

How is corrected Calcium calculated?

Answer 5

serum calcium + 0.02 * (40 – serum albumin in g/L)

Question 6

Why is control of serum calcium levels so important?

Answer 6

Calcium levels are important for depolarisation (action potentials), thus in the control of nerve and muscle. Intracellular signalling.

Question 7

If you have a low albumin, the bound calcium will be ____, but the free calcium will be _____. Thus the corrected calcium tells you that the problem is with the ______ and that the ionised calcium will also be ______.

Answer 7

If you have a low albumin, the bound calcium will be low, but the free calcium will be normal. Thus the corrected calcium tells you that the problem is with the albumin and that the ionised calcium will also be normal.

Question 8

How are circulating calcium levels maintained?

Answer 8

Plasma concentration of calcium (ionized) must be maintained despite calcium and vitamin D deficiency.

Chronic calcium deficiency thus results in loss of calcium from bone in order to maintain circulating calcium.

Question 9

Describe briefly calcium homeostasis in response to decreased Calcium?

Answer 9

Hypocalcaemia is detected by parathyroid gland.

Parathyroid gland releases PTH.

PTH “obtains” Calcium from 3 sources: Bone, Gut (absorption), Kidney (resorption and renal 1 alpha hydroxylase activation)

Question 10

What are the main roles of PTH?

Answer 10

• Stimulate osteoclasts to release Ca from bone
• Stimulate renal Ca resorption
• Stimulates 1,25 (OH)2 Vit D synthesis (1alpha-hydroxylation)
• Stimulates renal phosphate wasting (Phosphate trashing hormone)

Question 11

What enzyme does PTH activate in the kidney?

Answer 11

1alpha-hydroxylase

Question 12

Describe Vitamin D synthesis.

Answer 12

1. 7-dehydrocholesterol is converted into cholecalciferol (D3) by UV light.
2. Cholecalciferol (D3) is converted into 25-hydroxycholecalciferol (25-OH D3) by 25-hydroxylase in the liver.
3. 25-hydoxycholecalciferol (25-OH D3) is converted to 1,25-dihydroxycholecalciferol (1,25-(OH)2 D3) by 1alpha-hydroxylase in the kidney.
4. 1,25(OH)2 D3 is the physiologically active form of Vitamin D

Question 13

What inactive form is Vit D stored in the body as?

Answer 13

25-hydroxycholecalciferol

Question 14

What is the physiologically active form of Vit D?

Answer 14

1,25-dihydroxycholecalciferol

Question 15

Which of these is a plant product?
A. Ergocalciferol (D2)
B. Cholecalciferol (D3)

Answer 15

A. Ergocalciferol (D2)

Question 16

What percent of any absorbed Vit D is hydroxylated at the 25 position in the liver?

Answer 16

100%

Question 17

What enzyme in the liver hydroxylases Vit D at the 25 position?

Answer 17

25-hydroxylase

Question 18

What is the rate limiting step in Vit D activation?

Answer 18

1-alpha hydroxylase in the kidney. This enzyme is activated by PTH only when calcium is needed.

Question 19

Where may 1-alpha hydroxylase sometimes be expressed pathologically?

Answer 19

Rarely, it can be expressed in **lung cells of sarcoid tissue. **

With sarcoidosis, there are macrophages in the lung that may express this enzyme in a non-regulated fashion. This may cause hypercalcaemia but only during the summer time when Vit D levels are increased.

Question 20

What are the main roles of 1,25 (OH)2 D3?

Answer 20

• Intestinal Ca absoprtion
• Intestinal Pi absorption (but increase Pi excretion in kidneys)
• Critical for bone formation

Other:

• Vit D receptor controls many genes eg for cell proliferation, immune system etc
• Vit D deficiency associated with cancer, autoimmune disease, metabolic syndrome

Question 21

What other conditions can cause Vit D deficiency?

Answer 21

Poverty, Cancer, TB, Infectious diseases

Question 22

What effect does PTH have on the bone?

Answer 22

PTH activates osteoclasts to release calcium from the bone. It causes resorption of calcium and phosphate stimulated by PTH.

In response to osteoclast activation, osteoblasts try and build up the bone and pull calcium and phosphate back. Osteoblast activation causes release of ALP.

Question 23

In the presence of sky high ALP but normal ALT and AST, what pathology does this suggest?

Answer 23

Bone disease rather than liver disease

Question 24

What is the role of the skeleton from an orthopaedic viewpoint?

Answer 24

Structural framework (strong, relatively lightweight, mobile) 
Protects vital organs 
Capable of orderly growth and remodelling

Question 25

What is the role of the skeleton from a metabolic view point?

Answer 25

Metabolic role in calcium homeostasis

Main reservoir of calcium, phosphate and magnesium

Question 26

What does Vit D deficiency cause in adults and children?

Answer 26

Osteomalacia and Rickets

Question 27

What are the risk factors for vitamin D deficiency?

Answer 27

Lack of sunlight exposure
Dark skin
Dietary
Malabsorption

Question 28

Why does chappati consumption increase vit D deficiency?

Answer 28

Phytic acid

(This chelates vit D in gut and prevents absorption, contributing to the vit D deficiency)

Question 29

What are lifestyle treatments for osteoporosis?

Answer 29

• Weight-bearing exercise
• Stop smoking
• Reduce EtOH

Question 30

Is the bone structure in osteomalacia normal or abnormal?

Answer 30

Abnormal. Vit D deficiency causes defective bone mineralisation.

Question 31

What are the clinical features of Osteomalacia?

Answer 31

• Bone and muscle pain
• Increased fracture risk
• Looser’s Zones (pseudofractures)

Question 32

What are the clinical features of Rickets?

Answer 32

• Bowed legs
• Costochondral swelling
• Widened epiphyses at the wrists
• Myopathy

Question 33

What is the biochemistry of Osteomalacia?

Answer 33

Low Calcium
Low Phosphate
Raised ALP (due to osteoblasts trying to build up the bone)

Question 34

What type of drug may induce breakdown of Vit D?

Answer 34

Anticonvulsants

Question 35

What hormone does the placenta make that plays an important role in calcium metabolism in babies?

Answer 35

PTHrp

Question 36

Is calcium high, normal or low in secondary hyperparathyroidism?

Answer 36

Calcium must be low to stimulate PTH

Question 37

Describe tertiary hyperparathyroidism

Answer 37

• Occurs in patients with long-standing secondary hyperparathyroidism
• Parathyroid gland becomes overactive and produces too much PTH even after calcium levels have been normalised
• This results in an inappropriately high level of PTH and subsequent hypercalcaemia

Question 38

Is bone structure normal or abnormal in osteoporosis?

Answer 38

Normal

Question 39

Osteoporosis has _____ loss but with _____ calcium. It is due to a reduction in bone ____ with ____ mineralisation.

Answer 39

Osteoporosis has bone loss but with normal calcium. It is due to a reduction in bone density with normal mineralisation.

Question 40

What are major causes of Osteoporosis?

Answer 40

Old age

Lack of oestrogen

Immobilisation

Too many steroids (Cushing’s)

Hyperthyroidism

Question 41

What is the biochemistry of osteoporosis?

Answer 41

Normal

Question 42

What T score is used to define osteoporosis and osteopenia?

Answer 42

Osteoporosis: T-score < -2.5
Osteopaenia: T-score -1 to -2.5

Question 43

What are the typical fractures seen in osteoporosis?

Answer 43

Neck of femur
Vertebral (kyphosis)
Wrist - Colle’s fracture

Question 44

How is osteoporosis diagnosed?

Answer 44

DEXA scan (dual energy X-ray absorptiometry)

• hip (femoral neck etc) & lumbar spine
• T-score – sd from mean of young healthy population (useful to determine  risk)
• Z-score – sd from mean of age and gender-matched control (useful to identify accelerated bone loss in younger patients)

Question 45

What are lifestyle, endocrine, drugs and other causes of Osteoporosis?

Answer 45

• Lifestyle: sedentary, EtOH, smoking, low BMI/nutritional
• Endocrine: hyperprolactinaemia, thyrotoxicosis, Cushings
• Drugs: steroids
• Others eg genetic, prolonged intercurrent illness

Question 46

What are drug treatments for osteoporosis?

Answer 46

• Vitamin D/Ca
• Bisphosphonates (eg alendronate) –↓ bone resorption
• Teriparatide (PTH derivative) – anabolic
• Strontium – anabolic + anti-resorptive
• (Oestrogens – HRT)
• SERMs eg raloxifene

Question 47

What is the calcium level in Paget’s disease?

Answer 47

Normal because even though turnover is high the balance of calcium is normal

ALP will be high

Question 48

Recall the symptoms of Paget’s disease

Answer 48

PAIN, warmth, deformity, fracture, SC compression increased risk of high output cardiac failure

Question 49

Which bones are most commonly affected by Paget’s?

Answer 49

Pelvis, femur, skull and tibia

Question 50

What is the gold standard investigation for diagnosing Paget’s disease?

Answer 50

IV radiolabelled bisphosphonates

Question 51

How is pain treated in Paget’s disease?

Answer 51

Bisphosphonates

Question 52

Scan for bony mets?

Answer 52

Technetium bisphoshonate scan