Endocrine JC036: Back Pain In An Elderly Woman: Osteoporosis And Related Fractures

Question 1

Pathogenesis of osteoporosis

Answer 1

Skeleton undergo constant metabolism —> Bone formation vs Bone resorption at the same time

1. If Resorbed cavity too large + Newly formed packet of bone too small
   —> ***Formation does not match resorption
   —> Increased bone loss
2. Increased no. of remodeling units at the same time (i.e. ***Excessive remodeling: both formation + resorption too quickly / too many)
   —> Increased bone loss

Remodeling (i.e. Turnover of skeleton): Eating up old bone + Laying down new bone

Question 2

Bone turnover

Answer 2

1. Trabecular bone
   - 20% of skeletal mass
   - **80% of bone turnover (∵ much greater SA) —> **active metabolising bone
2. Cortical bone
   - 80% of skeletal mass
   - 20% of bone turnover

Question 3

Bone remodeling

Answer 3

Osteoclast (from **Haematopoietic stem cells)
—> come into remodeling unit
—> eat up old bone
—> forms a **remodeling pit
—> Osteoblast (from **Mesenchymal cells) come into remodeling pit
—> line up over cavity + make new bone
—> uncalcified new bone (i.e. **Osteoid) being mineralised (primarily Ca)
—> hard bone

Question 4

Regulation of Osteoclast

Answer 4

記: OPG同RANK爭RANKL

Osteoclastogenesis:
- Regulated by factors secreted from Osteoblast / Stromal cells: **RANKL, **M-CSF

Osteoblast:
- produce RANKL that bind to RANK (receptor) on Osteoclast precursor
—> Osteoclast precursor differentiate into Mature Osteoclast

To prevent overactivation of Osteoclastogenesis:
- body produce ***Osteoprotegerin (OPG) “Decoy receptor”
—> bind to excessive RANKL to prevent RANKL from interacting with RANK of Osteoclast
—> preventing excessive bone resorption

Question 5

Regulation of RANKL and OPG by systemic hormones

Answer 5

Stimulation of RANKL:
- **Dexamethasone (Exogenous steroids)
- **Calcitriol (1, 25-dihydroxycholecalciferol)
- ***PTH
- PGE2

Inhibition of RANKL:
- ***17β-Estradiol (female hormone)

剛好相反
Stimulation of OPG:
- 17β-Estradiol

Inhibition of OPG:
- Hydrocortisone (Cushing’s (Cortisol) / Exogenous steroids)
- Calcitriol (1, 25-dihydroxycholecalciferol)
- PTH
- PGE2

During menopause:
- ↓ 17β-Estradiol —> ↓ OPG
- Unopposed activation of RANKL
—> Osteoporosis

Question 6

Role of Sclerostin in Bone metabolism

Answer 6

Osteoblast laying down osteoid
—> buried in skeleton
—> become Osteocyte
—> produce **Sclerostin (production ↑ by **Mechanical unloading + ***Estrogen deficiency)

1. ***Stimulate RANKL expression —> Stimulate Osteoclastogenesis + Activate Osteoclast
2. ***Inhibit Osteoblast differentiation
3. ***Reduce mineralisation

Drug:
- Monoclonal Ab against Sclerostin —> Suppress Osteoclastic resorption + Stimulate Osteoblast + New bone formation

Question 7

Aged-related bone loss / Menopause

Answer 7

1. ***↓ Dietary Ca intake
2. ***↓ Vit D intake + synthesis (↓ outdoor activity)

1+2:
—> ↓ Ca absorption
—> ↓ Plasma Ca —> ↑ Bone turnover + resorption —> Bone loss
—> ↑ ***PTH secretion
—> ↑ Bone turnover + resorption
—> Bone loss (1% per year)

3. ***↓ Age-related osteoblastic activity + ↓ Osteoblastic progenitor cells
4. Menopause: ***Estrogen deficiency
   —> ↑ Bone turnover + resorption

Question 8

***Secondary osteoporosis

Answer 8

1. Endocrine disorder
   - **Hyperthyroidism
   - **Hyperparathyroidism
   - Hypogonadism
   - ***Cushing syndrome
2. Nutritional deficiency
3. Drug-induced
   - ***Glucocorticoid
   - Immunosuppressant
   - Anticonvulsant
4. ***Immobilisation
   - e.g. Stroke
5. Others
   - **RA
   - **DM
   - Tumours (Myeloma etc.)

Question 9

Osteomalacia

Answer 9

記: Low Vit D, High ALP

• Equivalent to Rickets in children (same pathogenesis)
• Uncommon in HK
• Abnormal histology (distinguish from Osteoporosis): ***Unmineralised osteoid (軟骨症) (vs Osteoporosis: Normal histology / Reduced mineralisation)
  —> Deformed bone + Spontaneous fracture
• ***Softening of bone (vs Osteoporosis: Reduction of mass of bone)

Cause:
- ***Vit D deficiency / resistant receptor
- Very low level of serum 25-OH Vit D (<10 ng/ml)

New conception:
- Osteoporosis and Osteomalacia is **a continuum of clinical presentation + **Vit D level (difficulty in defining a distinct boundary)
—> many osteoporosis patients have low level of Vit D
—> ∵ cannot take biopsy to confirm whether bone is mineralised (i.e. osteomalacia)

Bone marker:
- **ALP high (∵ it is a metabolic bone disease vs normal in osteoporosis (unless fracture))
—> ∵ ↑ in **compensatory osteoblast activity

(ALP: a marker in bone, placenta, liver
- produced by Osteoblast in bone)

Question 10

WHO definition of Osteoporosis

Answer 10

• Condition characterised by **Low bone mass + **Microarchitectural deterioration of bone tissue
• with a consequent ↑ in **bone fragility + ↑ susceptibility to **fracture

Question 11

***Clinical diagnosis of Osteoporosis

Answer 11

1. Previous fragility fracture (often unnoticed until fracture), common sites:
   - Wrist
   - Spinal
   - Hip
2. Back pain
   - gradual / acute ∵ spine fracture
3. Height loss (>2 cm since age 25)
   - ∵ kyphosis
4. Kyphosis (∵ gradual accumulation of silent morphometric fracture of spine)
   - Occiput-to-wall distance (head unable to touch the wall)
   - Gap between costal margin and iliac crest <3 finger breadths

Question 12

Detection of Osteoporosis prior to fracture

Answer 12

BMD (Bone mineral density) measurement
- prevalence estimate of osteoporosis in a population
- results expressed as SD from mean of young adult Caucasian women (T score) —> overestimation of osteoporosis in Asian (~5%)
- evaluated in postmenopausal Caucasian women
- **1 SD reduction in BMD (T score, using DXA of spine / hip / forearm)
—> correspond to **2 fold increased risk in hip fracture (∵ higher impact than other fractures)

Question 13

***T-score

Answer 13

Young normal adult reference of same ethnicity:
***(Patient’s BMD - Young adult mean BMD) / (1 SD of Young adult BMD)

(a large population SD can affect the T score value)

T scores allow comparison using the same diagnostic criteria for different machines

WHO definition of Osteoporosis
- Normal: T score >= -1
- **Osteopenia: -2.5 < T < -1
- **Osteoporosis: T <= -2.5
- Established osteoporosis: T <= -2.5 + Fracture

Why cutoff at -2.5
- this cutoff value identify ~30% of postmenopausal women as having osteoporosis using measurements made at spine / hip / forearm —> ~ equivalent to lifetime fracture risk at these sites
- ***threshold of treatment

Question 14

2001 Definition of Osteoporosis

Answer 14

• A skeletal disorder characterised by compromised bone ***strength predisposing a person to an ↑ risk of fracture
• Bone strength: integration of **bone density (BMD) + **bone quality
  —> ↓ in no. of trabeculae, connectivity

Other determinants of bone strength apart from BMD:
1. **Microarchitecture
2. **Mass (size, geometry)
3. ***Tissue properties
- Mineralisation
- Collagen (structure, cross-links)
- Microdamage

Question 15

Prevalence of Osteoporotic fractures in HK women

Answer 15

60-69: 1 in 6
70-79: 1 in 5
>=80: 1 in 4

Question 16

Osteoporosis risk factors

Answer 16

Non-modifiable:
- **Gender
- **Race (Asian / Caucasian > Black)
- Heredity, Body frame
- Age

Modifiable:
- **Low estrogen
- **Low dietary Ca / Vit D
- Sedentary lifestyle
- Smoking
- Alcoholism
- ***Medications (e.g. Glucocorticoid, Tamoxifen)
(- Surgery: Removal of ovaries (from SpC O&T))

Question 17

Clinical evaluation of patient with established osteoporosis

Answer 17

1. History taking
   - Risk factors
   - ***Evidence for secondary osteoporosis
   - Medications that can cause bone loss
   - Medication / Illness that ↑ chance to fall
   - Family history of low BMD
2. Physical examination
   - Height, weight
   - Dental exam (loss of teeth, dentures)
   - Hyperthyroidism, Cushing’s disease
   - **Estimate degree of kyphosis, observe posture, site of tenderness
   - **Factors that influence propensity to fall (agility, hearing, eyesight, postural sway)
   - Gait, mobility muscle strength
3. Laboratory test
   - Serum Ca, PO4
   - 24 hour urine Ca
   - 25OH Vit D
   - **PTH, TSH (exclude secondary cause of osteoporosis)
   - **Biochemical markers of bone turnover: ALP (exclude metabolic bone disease)
4. Radiological evaluations / Non-invasive bone mass quantitations
   - X-ray thoracolumbar spine
   - Dual-energy X-ray Absorptiometry (DXA)
   - CT

Question 18

***Treatment options of Osteoporosis

Answer 18

Non-pharmacological
1. Adequate dietary Ca intake
- Ca absorption in stomach, ileum —> if on PPI / other condition —> gastric acid eliminated —> impair Ca absorption —> need to ↑ Ca intake if ***achlorhydria
2. Avoid Vit D deficiency
3. Weight bearing exercise

Pharmacological
Anti-resorptive (Inhibit osteoclastic activity)
1. Estrogen / HRT
2. SERM (not for non-vertebral fractures)
3. Bisphosphonate
4. Calcitonin (***not for non-vertebral fractures)
5. RANKL inhibitor (monoclonal Ab)

Anabolic agent (Stimulate new bone formation)
6. PTH
7. PTH-rP
8. Sclerostin inhibitors

Question 19

1. Estrogen / HRT

Answer 19

• Inhibit apoptosis of osteoblast
• Inhibit RANKL / cytokines, Stimulate OPG to prevent activation of osteoclast
• Promote apoptosis of osteoclast

MOA:
1. Inhibit bone resorption
- ↓ Ca excretion in urine
- ↓ cytokines production by stromal cells

2. Additional advantage
   - **↓ CVS risk factors e.g. cholesterol, but outcome events (i.e. MI, stroke) not reduced
   - **↓ menopausal symptoms

Disadvantage:
- Unopposed estrogen —> **↑ Endometrial cancer (must give additional Progestogens if **uterus intact)
- Slight **↑ Breast cancer
- **↑ Venous thromboembolism

Question 20

2. SERM (Selective Estrogen Receptor Modulator)

Answer 20

Raloxifene

• Selective action on bone resorption (Avoid SE of Estrogen)
• ↓ LDL cholesterol
• Little effect on uterus, breast (∵ little effect of estrogen on uterus)
• ***↓ ER+ Breast cancer
• ↓ Vertebral fracture risk by 50% but ***NOT non-vertebral fracture

Question 21

3. Bisphosphonate

Answer 21

• ***Mainstay of treatment
• Alendronate, Risedronate, Zolendronate, Etidronate, Ibandronate

MOA:
- Derivatives of pyrophosphate
- Inhibit osteoclast activity, specific inhibition of bone resorption
- Bound onto surface of osteoclast —> inhibit FPPS (farnesyl pyrophosphate synthase) (key enzyme in the mevalonate pathway (HMG-CoA reductase pathway): ∴ some statin can cause osteoporosis —> induce ***osteoclast apoptosis)

Effect:
- ↓ fracture risk (both vertebral + non-vertebral (including hip)) by about 50%

PK:
- **Oral / IV
- **Poor intestinal absorption
- Selective uptake at active bone sites
—> short plasma t1/2
—> no active metabolite
—> ***renal excretion

SE:
- **Erosive esophagitis / gastritis
- First phase reaction (fever, muscle / bone pain)
- Action **persist, may cause adverse effect of oversuppression of bone turnover (action in body for months / years)
—> **Adynamic bone (Frozen bone)
—> Bone too stiff (fracture during twist and turn)
—> Very rare SE: 5 years risk: **Atypical femoral fractures (AFF) + ***Osteonecrosis of jaw (ONJ)

Question 22

4. Calcitonin

Answer 22

• Anti-resorptive agent
• Hormone from Thyroid C-cells

MOA:
- Inhibit osteoclast activity

PK:
- ***IM / Intranasal

Effect:
- BMD 2-3%
- ↓ vertebral fracture risk by 30% but **NOT non-vertebral fracture
- Additional benefit of **pain relief

Question 23

5. RANKL inhibitor (Monoclonal Ab)

Answer 23

Denosumab

MOA:
- Human monoclonal Ab to RANKL
- Interfere with RANKL —> ↓ Osteoclast differentiation / activation

PK:
- ***SC injection every 6 months

Effect:
- ↓ Vertebral fracture 50% + ↓ non-vertebral fracture 30%

SE:
- Rash
- Very rare SE: **Atypical femoral fracture + **Osteonecrosis of jaw

Question 24

6. PTH

Answer 24

• If high level, continuous (e.g. Primary / Secondary hyperparathyroidism):
  —> Predominant effect Bone resorption
  —> Cortical > Trabecular bone
• If **low dose, intermittent: **Anabolic action

**Teriparatide (PTH 1-34 active peptide):
- 18 months SC daily injection
- ↓ vertebral fracture 70% + ↓ non-vertebral fracture 30%, concern with osteogenic **sarcoma in rats —> ∴ limit use to ***max 2 years in human

PK:
- SC injection daily
- limit use to 2 years

Question 25

7. PTH-rP

Answer 25

***Abaloparatide

MOA:
- Act on PTH receptor
1. Stimulate osteoblastic bone formation
2. Stimulate renal tubular Ca reabsorption
3. but it has ***minimal effect on intestinal Ca absorption

Effect:
- SC daily ↓ new vertebral fracture 80% + ↓ non-vertebral fracture 50%
- ***Limit to 2 years in human
- Not yet available in HK

PK:
- SC daily

Question 26

8. Sclerostin inhibitors (Monoclonal Ab)

Answer 26

***Romosozumab

MOA:
- Monoclonal Ab against Sclerostin (inhibit osteoblastic bone formation through Wnt-signaling pathway)
—> ↑ bone formation + ↓ fracture

Effect:
- ***Most effective agent of all
- Romosozumab SC monthly for 1 year ↓ vertebral fracture 75% + ↓ non-vertebral fracture 25%
- available in HK

SE:
- ↑ CVS risk + **MI
—> Limit use to **1 year
—> CI in recent MI / high CVS risk

Question 27

Biochemical Bone Markers

Answer 27

Bone formation:
1. Osteocalcin
2. **ALP (only one available in HA)
- distinguish osteoporosis vs other metabolic / infiltrative bone diseases
3. **P1NP (Type 1 Pro-collagen Peptide)

Bone resorption:
1. Hydroxyproline
2. Deoxypyridinoline
3. Pyridonoline II (PYD)
4. ***C-telopeptides (CTx)
5. Urine N-Telopeptide (NTx)

***: good marker but expensive

Question 28

Usefulness of Biochemical markers

Answer 28

• Study of normal bone metabolism
• Diagnosis + monitoring of bone disease
• Evaluate effectiveness of therapeutic agent, monitor ***treatment progress
• ***Not useful as a screening agent for osteoporosis
  —> but inexpensive test e.g. ALP may help exclude other bone disease e.g. metastasis, osteomalacia

Question 29

Major secondary causes of osteoporosis

Answer 29

1 in 5 with low bone mass has secondary cause

Disease —> Investigation
1. Myeloma —> SIEP (Serum Immunoelectrophoresis)
2. **Hyperparathyroidism —> Ca, PTH
3. **Hyperthyroidism —> TSH
4. ***Cushing’s syndrome —> Cortisol, ACTH
5. Hypogonadism —> Estradiol, Testosterone

Question 30

Mechanisms for Steroid-induced Osteoporosis

Answer 30

1. ↓ Osteoblast function, ↓ Bone formation
2. ↑ Osteoclast resorption
3. Causes negative Ca balance (by ↓ GI absorption, ↑ Renal excretion)
4. Induces Hypogonadism (25-50%)

• Progressive demineralisation
• Trabecular > Cortical bone
• Bone loss greatest within ***1st year (can lose up to 20% of trabecular bone)
• Rate of loss greatest in those subjects with high bone remodeling rates