S11) Calcium Metabolism

Question 1

What are the normal serum calcium levels?

Answer 1

Normal serum calcium levels are 2.2-2.6mmol/L

Question 2

How is calcium transported in the blood?

Answer 2

• Free ionized Ca²⁺
• Bound to plasma proteins
• Complexed with citrate

Question 3

Where is most of the calcium in the body stored?

Answer 3

Skeleton – 99% is sequested bone in the form of hydroxyapatite crystals

Question 4

What are the two primary functions of the skeleton?

Answer 4

• Structural support
• Maintains serum [Ca²⁺] (bone resorption & deposition)

Question 5

Regulation of serum calcium is critically important for the execution of its various functions.

Identify some of these functions

Answer 5

• Regulates heart rhythm
• Mediates nerve transmission at NMJ
• Role in intracellular signalling pathways
• Assists in normal blood clotting

Question 6

Which three substances are involved in the regulation of calcium levels?

Answer 6

• Parathyroid Hormone
• Vitamin D
• Calcitonin

Question 7

Explain the role of PTH in regulating serum calcium levels

Answer 7

• Stimulates bone resorption and release of Ca²⁺ into circulation
• Stimulates Ca²⁺ reabsorption in kidney and excretion of phosphate
• Stimulates hydroxylation of 25-hydroxyvitamin D₃ to make active Vitamin D (calcitriol)

Question 8

Explain the role of dietary vitamin D in regulating serum calcium levels

Answer 8

• Increases intestinal absorption of dietary Ca²⁺ and renal reabsorption of Ca²⁺
• Increases bone resorption

Question 9

Explain the role of calcitonin from the thyroid gland in regulating serum calcium levels

Answer 9

Calcitonin counteracts the effects of PTH

Question 10

In terms of the feedback regulation of serum calcium, outline the body’s response to increases in calcium levels

Answer 10

Question 11

In terms of the feedback regulation of serum calcium, outline the body’s response to decreases in calcium levels

Answer 11

Question 12

Where are the parathyroid glands found?

Answer 12

Question 13

What are the two kinds of cells found in the parathyroid glands?

Answer 13

Question 14

Explain how calcium regulates the synthesis of PTH

Answer 14

Synthesis is regulated both at transcriptional and post transcriptional levels:

• Low serum calcium up-regulates gene transcription (prolongs survival of mRNA)
• High serum calcium down-regulates gene transcription

Question 15

Describe the storage and synthesis of PTH

Answer 15

• PTH is continually synthesised but little is stored
• Chief cells degrade hormone as well as synthesis it

Question 16

Identify the target organs of PTH and the different physiological effects brought about

Answer 16

• Bone – increase resorption
• Gut – activates Vitamin D and hence increases transcellular Ca²⁺ uptake from GI tract
• Kidney – decreases Ca²⁺ loss to urine

Question 17

Where are calcium phosphate crystals found?

Answer 17

Calcium phosphate crystals found within collagen fibrils aka. hydroxyapatite crystals

Question 18

Bone is dynamic.

Describe the processes of bone resorption and bone deposition

Answer 18

• Bone deposition: osteoblasts produce collagen matrix which is mineralised by hydroxyapatite
• Bone resorption: osteoclasts produce acid, dissolving the micro-environment hydroxyapatite

Question 19

In 1-2 hrs PTH stimulates osteolysis.

In 4 steps, describe the action of parathyroid hormone on bone

Answer 19

⇒ PTH induces osteoblastic cells to synthesise and secrete cytokines

⇒ Cytokines stimulate differentiation and activity in osteoclasts and protect them from apoptosis

⇒ PTH decreases osteoblasts’ activity exposing bony surface to osteoclasts

⇒ Reabsorption of mineralized bone releases of P_i and Ca²⁺ into extracellular fluid

Question 20

Describe the effect of PTH on the tubular cells in the kidney in terms of calcium and phosphate reabsorption

Answer 20

A – PTH increases Ca²⁺ reabsorption in ascending limb and DCT

B – P_i is removed from circulation by inhibiting its reabsorption in the ascending limb and DCT (prevents calcium stone formation)

Question 21

Dietary intake of calcium is typically 1000 mg/d.

Describe how this is usually absorbed?

Answer 21

• Only 30% is absorbed by a paracellular uptake
• Absorption is significantly increased by Vitamin D via transcellular uptake

Question 22

How can we obtain Vitamin D?

Answer 22

Vitamin D is a lipid soluble vitamin that can be derived from plants or through action of sunlight on cholesterol in the skin

Question 23

Identify and describe the two forms of Vitamin D

Answer 23

• D₃ (cholecalciferol) made in skin and from dairy using sunlight
• D₂ (ergocalciferol) made when yeast and fungi are added to margarines as a supplement

Question 24

Identify two shared characteristics of the two forms of Vitamin D

Answer 24

• Both form calcitriol (active form of Vitamin D)
• Both are equipotent

Question 25

Describe how active Vitamin D takes two hydroxylation reactions to turn cholecalciferol from skin or diet into calcitriol

Answer 25

• In the liver (C-25): 25-hydroxyvitamin D (major circulating hormone)
• In the kidney (C-1): 1,25(OH)₂ / calcitriol

Question 26

How is Vitamin D₃ transported?

Answer 26

In the circulation vitamin D₃ is bound to transcalciferin with only a small fraction in free form

Question 27

Describe the hydroxylation of Vitamin D₃ in the kidney

Answer 27

• Pre-vitamin is bound to carrier small enough to be filtered by the glomerulus and enter PCT
• Conversion to active form occurs by enzyme 1α-hydroxylase

Question 28

What is the t_1/2 of the active form of Vitamin D?

Answer 28

6 hours

Question 29

Explain the control of Vitamin D₃ hydroxylation

Answer 29

• Elevated serum calcium prevents C-1 hydroxylation
• Elevated PTH stimulates C-1 hydroxylation to form calcitriol

Question 30

What is the effect of calcitriol?

Answer 30

Calcitriol decreases the urinary loss of calcium by stimulating reabsorption in the kidney

Question 31

Describe the structure of cells in the thyroid gland

Answer 31

Question 32

Calcitonin is the third hormone involved in Ca²⁺ regulation.

How is it secreted?

Answer 32

Calcitonin is secreted by parafollicular cells (C cells) of thyroid gland

Question 33

Which two conditions result from imbalances in calcium regulation?

Answer 33

• Hypocalcaemia
• Chronic hypercalcaemia

Question 34

Why is EDTA / citrate used during blood donations?

Answer 34

• Calcium has a role in blood clotting
• EDTA/citrate is used to chelate calcium ions
• Prevents donated blood from clotting

Question 35

Why are recipients of massive blood transfusions given intravenous calcium?

Answer 35

• Citrate in donated blood binds with calcium in blood thus depleting free calcium ions
• IV calcium gluconate restores free calcium ion levels

Question 36

Describe the aetiology of hospital setting hypercalcaemia

Answer 36

• Malignant osteolytic bone metastases
• Multiple myeloma

Question 37

Identify four common cancers that metastasise to bone causing lytic lesions and hypercalcemia

Answer 37

• Breast
• Lung
• Kidney
• Thyroid

Question 38

Prostate cancer is a common cause of bone metastases.

Why does is not lead to hypercalcaemia?

Answer 38

Prostate cancer causes osteoblastic metastases that do not cause hypercalcemia

Question 39

What are the common sites for bone metastases?

Answer 39

• Vertebrae
• Pelvis
• Proximal parts of the femur
• Ribs
• Proximal part of the humerus
• Skull

Question 40

What is hyperparathyroidism?

Answer 40

Hyperparathyroidism is a rare hormone disorder due to the excessive production of parathyroid hormone by the parathyroid glands

Question 41

What are the clinical features of primary hyperparathyroidism?

Answer 41

• One of the parathyroid glands develops an adenoma and secretes excessive amounts of PTH
• Serum calcium rises and serum phosphate falls

Question 42

What are the clinical features of secondary hyperparathyroidism?

Answer 42

• All parathyroid glands become hyperplastic
• Seen in patients with Vitamin D deficiency

Question 43

Identify some possible causes of Vitamin D deficiency

Answer 43

• Dietary
• Environment
• Chronic renal failure (failure of C-1 hydroxylation)

Question 44

In 5 steps, explain the effects of Vitamin D deficiency on calcium levels

Answer 44

⇒ Vitamin D deficiency

⇒ Low calcium absorption

⇒ Low serum calcium levels

⇒ PTH levels rise

⇒ Activated osteoclasts mobilise calcium from bone in an attempt to maintain normal serum calcium

Question 45

Describe the serum biochemistry in the following conditions:

• Primary Hyperparathyroidism
• Secondary Hyperparathyroidism
• Malignant hypercalaemia

Answer 45

Question 46

What are the symptoms of primary hyperparathyroidism?

Answer 46

• Moans – tired, exhausted, depressed
• Groans – constipation, peptic ulcers, pancreatitis
• Stones – kidney stones + polyuria due to impaired sodium and water reabsorption
• Bones – bone and muscle aches

Question 47

What is the role of calcium in neuronal activity?

Answer 47

Calcium raises the threshold for nerve membrane depolarisation and therefore the development of an action potential

Question 48

In terms of the role of calcium in neuronal activity, describe the symptoms of hypercalcaemia and hypocalcaemia

Answer 48

• Hypercalcaemia leads to supression of neuronal activity – lethargy, confusion, coma
• Hypocalcaemia leads to ‘excitable’ nerves – tingling, muscle tetany and even epilepsy

Question 49

What are the symptoms of severe hypercalcaemia (serum calcium > 3.0 mmol/l)?

Answer 49

Polyuria leads to dehydration which then exacerbates the hypercalcemia:

• Lethargy
• Weakness
• Confusion
• Coma
• Renal failure

Question 50

How is severe hypercalcaemia treated?

Answer 50

Rehydration is the mainstay of treatment

Question 51

Where is symptomatic hypocalcaemia seen (serum calcium < 2.10 mmol/l)?

Answer 51

Seen mostly in post total-thyroidectomy patients because of inadvertant removal/ischaemia of parathyroid glands

Question 52

Motor homunculus due to tetany of muscles is a feature of symptomatic hypocalcaemia.

Which clinical sign presents?

Answer 52

Carpopedal sign

Question 53

Compare and contrast osteoporosis with osteomalacia in terms of:

• Mineral:matrix
• Physiological process
• Consequences
• Risk factors / causes

Answer 53