T&O

Question 1

What structures are cut through during the posterior approach to the hip joint?

Answer 1

Skin, subcut fat, gluteal fascia, glut max, short external rotators, hip joint capsule

Question 2

What nerves are at risk during a posterior approach to the hip joint?

Answer 2

Sciatic and superior gluteal

Question 3

What is the surface marking of the lateral cutaneous nerve of the thigh as used for nerve blocks?

Answer 3

It passes beneath the inguinal ligament approximately 2cm inferior and medial to the ASIS

Question 4

Describe some of the approaches to the hip joint.

Answer 4

Lateral: over the GT through the skin, adipose, fascia lata, trochanteric bursa, glut med and min and the hip capsule.

Posterior: skin adipose, fascia lata, glut max, short hip rotators, hip capsule

Anterior: incision between the sartorius and the TFL

Question 5

How long should you give thromboprophylaxis after a hip replacement?

Answer 5

28 days

Question 6

How long should you give VTE prophylaxis after a knee replacement?

Answer 6

14 days

Question 7

Explain the garden classification of hip fracture.

Answer 7

1. undisplaced, incomplete #
2. undisplaced, complete #
3. partially displaced, complete #
4. completely displaced, complete #

Question 8

What are the signs of a serious ligament injury?

Answer 8

Rapid swelling over 1-2 hours
Haemoarthrosis
Large effusions that cause limited movement
Bony avulsions
Localised tenderness

Question 9

What is the typical mechanism of a meniscal injury?

Answer 9

Rotation of the tibia in a flexed, weight bearing knee.
Medial is 20x more common due to the laxity, typically causes a vertical tear in the anterior or posterior horn.

Question 10

What are the features of a meniscal injury?

Answer 10

Locked knee
Haemarthrosis
Joint line tenderness
Clicking of the joint

Question 11

What are the features of an extensor apparatus tear of the leg?

Answer 11

Unable to SLR or extend knee
Swelling or bruising
Palpable gap

Question 12

What is the management of an injury to the extensor apparatus of the leg?

Answer 12

Muscle tear = conservative
Tendon rupture = surgical repair
Vertical patella fracture = conservative
Transverse patella fracture = ORIF with tension wiring.

Question 13

What is the gustillo-anderson classification used for?

Answer 13

Open fractures.

Question 14

Describe the levels of a gustillo-anderson score.

Answer 14

Type 1: wound <1cm with minimal contamination or muscle damage

Type 2: wound 1-10cm with moderate soft tissue injury

Type 3a: wound >10cm with adequate tissue for flap coverage. Contaminated/

Type 3b: required rotational/free flap coverage. May have periosteal stripping.

Type 3c: has a vascular injury

Question 15

Weakness of what muscle causes claw toes?

Answer 15

Interosseous and lumbrical muscles (which normally extend the interphalangeal joints).

Question 16

What joint deformity do you see in Hammer toes?

Answer 16

Hyperextension of MTP
Flexion of PIP.

Question 17

What is Morton’s neuroma?

Answer 17

Plantar or digital neuroma affecting the plantar nerve between the 3rd and 4th metatarsal.

Question 18

What are the functions of the bone?

Answer 18

Supports the body and facilitates locomotion.
Protects organs.
Produces blood cells and immune cells
Regulates calcium

Question 19

What hormones act upon the bone?

Answer 19

Calcitonin: causes increase osteoblast function and increased bony uptake of calcium.

Vitamin D: causes increased osteoclast function and release of Ca

PTH: causes increased osteoclast function and release of Ca

Growth hormone: stimulates bone growth

Gluco-corticoids: reduce bony matrix

Thyroid hormone: cause increase osteoclast function

Question 20

What is the main constituent of bone?

Answer 20

35% organic matrix
65% inorganic matrix which is mainly made up of calcium hydroxyapatite.

Question 21

What are the cells of the bony matrix?

Answer 21

Osteoprogenitor cells: derived from mesenchymal stem cells and form osteoblasts.

Osteoblasts: build bone

Osteoclasts: derived from hemopoietic progenitor cells which then act to reabsorb bone. They have multiple nuclei.

Osteocytes: mature bone cells, derived from osteoblasts. Control fluctuations of Ca and Phosphate.

Question 22

What is the periosteum?

Answer 22

This is a layer of fibrous tissue that is attached to the bone by Sharpey’s fibres.
It contains the blood vessels via its cambral layer and also acts as attachment for muscles and ligaments.

Question 23

What are the two types of bone?

Answer 23

Woven (immature, irregular and disorganised bone)

Lamellar (regular, orderly arrangement of collagen fibres in weight bearing forces that gradually replace woven bone).

Question 24

How do bones develop?

Answer 24

1. Via direct ossification (such as ribs and clavicle)
2. Chondrocytes produce hyaline cartilage which forms a template for endochondral ossification.

Question 25

What are the zones of the physis?

Answer 25

1. resting zone (on epiphyseal side)
2. proliferative zone
3. Hypertrophic zone of maturation
4. Provisional calcification (on the metaphyseal side)

Question 26

What are the two methods of bone healing?

Answer 26

Primary: healing by direct union with no callus formation. In this osteoblastic bone formation occurs directly between the fragments.

Secondary: healing via callus formation when the bone ends are not well aligned.

Question 27

What are the steps of secondary bone healing?

Answer 27

1. Haematoma formation: this seals off the fracture site.
2. Inflammation: haematoma provides a framework for the influx of inflammatory cells which activate the osteoprogenitor cells. This occurs during the first 1-7 days.
3. Soft callus stage: lasts 2-3 weeks. Uncalcified tissue provides anchorage of the bone ends but no structural support.
4. Hard callus stage: lasts 3-4 months. The activated progenitor cells deposit subperiosteal woven bone and chondroblasts deposit cartilage which undergoes endochondral ossification.
5. Remodelling: woven hone is replaced by Lamella bone.

Question 28

What is Wolff’s law?

Answer 28

The lamellar bony canals form in the direction of mechanical stress.

Question 29

What is malunion?

Answer 29

This is bone healing in a sub-optimal position causing a deformity.

Question 30

What is non-union?

Answer 30

This is failure to reach bony union by 9 months or no evidence of any healing for 3 months.

Question 31

What is delayed union?

Answer 31

This is no union by 6 months.

Question 32

What factors may delay bone healing?

Answer 32

Patient factors:
- Smoking
- Alcohol
- Obesity
- Malnutrition
- Immunosuppression
- PVD
- Anaemia
- Diabetes
- Age

Injury Factors:
- Infected wound
- Soft tissue damage
- Local ischaemia
- Instability
- Poor technique
- Pathological #

Question 33

Why should you be cautious when giving NSAIDs in a post-operative fracture fixation?

Answer 33

NSAIDs are COX inhibitors and therefore they may interfere with the inflammatory stages of bone healing.

Question 34

What are the different types of joints?

Answer 34

Fibrous: no cavity. The bones are joined by fibrous tissue. (examples - cranial sutures, syndesmosis, gomphosis).

Cartilaginous:
Primary (Synchondroses): bone meets hyaline cartilage: immovable.
Secondary (symphysis): Bones have an articular surface covered with fibrocartilage (slightly movable).

Synovoal: fluid filled capsule allowing movement.

Question 35

What are the differences between rheumatoid and osteoarthritis clinically?

Answer 35

Rheumatoid is an inflammatory arthritis, worse on waking, relieved by NSAIDs, may have systemic signs or symptoms, can have a familial element. Get soft tissue swelling. warm and red joints, with raised ESR, raised CRP, low Hb, and +ve antibodies.

Osteoarthritis is a mechanical condition, worse on exercise, and relieved by simple analgesia.
There will be no systemic symptoms. They get bony swellings with normal inflammatory markers, normal Hb, negative antibodies.

Question 36

What are the differences between RA and Osteoarthritis on imaging?

Answer 36

Both cause joint space narrowing.
Osteoarthritis causes: osteophytes, subchondral sclerosis, subchondral cysts
Rheumatoid causes: marginal erosions, periarticular osteoporosis, soft tissue changes, normally symmetrical and may get subluxation deformity.

Question 37

What is the pathophysiology of oestoarthritis?

Answer 37

Affects the synovial joints due to the reduction in proteoglycans, causing a reduced binding capacity for H20 which causes a thinner and stiffer cartilage.
The breakdown products activate the immune system and cause inflammation and tissue destruction and attempts at repair (resulting in osteophytes and subchondral sclerosis).

Question 38

How can you grade cartilage damage?

Answer 38

1. softening
2. fissure
3. partial thickness loss/flap
4. full thickness loss with exposed bone

Question 39

How would you manage osteoarthritis?

Answer 39

Conservative: physio, splints
Medical: analgesia or steroids
Surgical: arthroplasty or arthrodesis.

Question 40

What is the pathophysiology of Rheumatoid Arthritis?

Answer 40

This is a symmetrical polyarthropathy affecting the synovial joints by causing chronic synovitis. This occurs due to invasion of macrophages and T lymphocytes.
The inflamed synovium of pannus impinges the joint, which causes an inflammatory response causing bony erosions.

Question 41

What is a rheumatoid nodule?

Answer 41

These are subcutaneous lesions with central necrosis surrounded by macrophages and fibroblasts.

Question 42

How would you manage rheumatoidarthritis?

Answer 42

Medical: NSAIDs, methotrexate, sulfasalazine, azothioprine, TNF-alpha blockers (etanercept and infliximab)
Surgical: synovectomy/arthodesis and arthoplasty

Question 43

What is gout?

Answer 43

Acute arthritis secondary to crystallisation of monosodium urate in the joint.

Question 44

What are the extra-articular features of gout?

Answer 44

Gouty tophi: urate deposits in the periarticular tissue.
Kidney disease: uric acid nephropathy/stones

Question 45

What are the causes of hyperuricaemia?

Answer 45

Increased production: high purine diet (cheese, alcohol, meat), tumour lysis syndrome, organ transplant.

Decreased secretion: renal failure, dehydration, diuretics, salicylates and ciclosporin.

Question 46

What causes pseudogout?

Answer 46

Positively bifringent rhomboid shaped crystals of calcium pyrophosphate.

Question 47

What is the classical radiographic feature of pseudogout?

Answer 47

Chondrocalcinosis.

Question 48

What are the risk factors for pseudogout?

Answer 48

Hyperparathyroidism
Hypothyroidism
Low phosphate
Hemochromatosis
Acromegaly
Wilsons disease

Question 49

What is the definition of osteoporosis?

Answer 49

This is bone density below 2.5SD of the normal range, due to porosity of the mineralised bony matrix.

Question 50

What are the risk factors for osteoporosis?

Answer 50

Reduced physical activity, reduced oestrogen levels, smoking and malnutrition

Question 51

How should osteoporosis be managed?

Answer 51

Calcium and Vitamin D supplements and bisphosphonates.

Question 52

How do bisphosphonates work?

Answer 52

Inhibit bony reabsorption by inhibiting osteoclast activity and binding to calcium phosphate crystals to prevent breakdown.

Question 53

What is osteomalacia?

Answer 53

This is a metabolic bone disorder characterised by deranged vitamin D metabolism due to inadequate synthesis or reduced absorption.

Inadequate synthesis: reduced sunlight exposure, malnutrition, cholestatic liver disease, pancreatitis, coeliac

Reduced absorption: phenytoin, rifampicin, kidney disease, low phosphate.

Question 54

What would be the picture on blood tests in osteomalacia?

Answer 54

Reduced phosphate, reduced calcium and increased ALP.

Question 55

What is Rickets?

Answer 55

This is inadequate calcification of epiphyseal cartilage which causes overgrowth with irregular pattern. Occurs due to low Vitamin D.

Question 56

What are the features of Rickets?

Answer 56

Scoliosis or biconcave vertebral body
Bowing of the diaphysis
Soft thin skull
Cupping at the metaphysis
Bony spurs in the growth plate
Wide growth plate

Question 57

What is Pagets diease of the bone?

Answer 57

This is a metabolic bony disease characterised by disorganised bony turnover. It will have a normal calcium and phosphate but a high ALP.

Clinical features include:
- bony pain
- bowing of the tibia/femur
- craniofacial overgrowth
- distortion of the femoral head
- nerve root compression
- high OP cardiac failure

Question 58

What are the pathological stages of Paget’s disease of the bone?

Answer 58

1.Osteolytic (mediated by osteoclasts_
2.Reparative (rapid bone formation alongside osteoclast activity causing an overall increase in bone)
3.Inactive phase (burn out of the cells causing dense osteo-sclerotic lesions)

Question 59

How would you manage Paget’s disease of the bone?

Answer 59

Bisphosphonates, calcitonin
Surgery if there is a pathological fracture or a nerve root compression

Question 60

What tumours may be associated with Paget’s disease of the bone?

Answer 60

Benign: giant cell granuloma
Malignant: sarcoma, osteosarcoma (most common), chondrosarcoma, giant cell tumour, malignant fibrous histeocytoma.

Question 61

What is the most common organism of septic arthritis?

Answer 61

Staph A

Question 62

When should you be cautious doing a joint aspirate?

Answer 62

Coagulopathy
Fracture
Prosthesis
Bursitis or cellulitis

Question 63

What is a DAIR procedure?

Answer 63

This is a debridement, antibiotic, implant retention procedure.

Question 64

What would your differentials for a hot, swollen, painful knee be?

Answer 64

Septic arthritis, osteomyelitis, bursitis, cellulitis, gout, pseudogout, arthritis, hemarthrosis

Question 65

What is the definition of a sarcoma?

Answer 65

This is a tumour arising from the mesenchymal tissue (connective tissue), they can occur anywhere in the body.

Question 66

What is the most common primary bone tumour?

Answer 66

Osteosarcoma

Question 67

What is an osteosarcoma?

Answer 67

These are malignant osteoblast producing osteoid masses. They cause a “sub-burst” pattern on imaging due to the overlying periosteal reaction.
Present as a painful, enlarging mass.

Question 68

What is a chondrosacrcoma?

Answer 68

This is a malignant tumour of the cartilage. It causes a slow growing mass with endosteal scalloping and cortical thickening. Requires wide local excision and chemo.

Question 69

What is a Ewing’s sarcoma?

Answer 69

This is a bony tumour arising from poorly differentiated neuroectodermal cells. They cause a “moth eaten” appearance on an XR and periosteal reaction which looks like onion skin.
Needs resection and chemo.

Question 70

What are the macro- and microscopic features of Ewings Sarcoma?

Answer 70

Macro: moth eaten appearance with an “onion skin” reaction of periosteum.
Micro: small round cells

Question 71

What are the macro and microscopic features of Malignant fibrous histocytoma?

Answer 71

Macro: lytic lesions and bony destruction.
Micro: spindle cells, histiocytes, giant cells

Question 72

What is the pathophysiology of multiple myeloma?

Answer 72

This is a disease of the plasma cells causing uncontrolled replication and overproduction of immunoglobulins.
The cloned plasma cells accumulate in the bone marrow and cause a decrease in the normal healthy bone matrix which causes decreased production of blood clots causing anaemia, impaired immune function and low platelets.

The cloned plasma cells also activate osteoclasts which cause an increase in bony lesions leading to bone pain, high calcium and pathological fracture.

Question 73

How does multiple myeloma cause kidney failure?

Answer 73

The cloned plasma cells produce a paraprotein which forms protein casts in the renal tubules which damage the kidneys.

Question 74

What are the subtypes of multiple myeloma?

Answer 74

IgG (most common - approx 2/3)
IgA (approx 1/3)
IgD or IgM (very rare)

Question 75

What are the features of multiple myeloma?

Answer 75

Increased calcium
Renal failure
Anaemia
Bony lesions

Also become immunocompromised and may get amyloid deposits.

Question 76

What investigations would you do if you were suspicious of multiple myeloma?

Answer 76

FBC (anaemia)
UE (renal failure)
ESR (inflammation)
Bone profile (high calcium)
Blood film (rouleaux formation due to stacking of RBC)
IgA and IgM measurements.
Protein electrophoresis (Bence Jones paraprotein)
Free light chain levels
Skeletal survey
Bone marrow biopsy and immunohistochemistry

Question 77

How would you manage multiple myeloma?

Answer 77

If <65: chemotherapy and stem cell transplant

If >65: chemotherapy alone

Maintenance chemotherapy at a low dose improves progression and survival.

Question 78

What is the prognosis of multiple myeloma?

Answer 78

Often patients get a relapse and therefore they need re-treatment.
They may become resistant to chemotherapy so need a new regime

Overall 5 year survival is about 35%.

Question 79

What are some example of benign bony tumours?

Answer 79

Osteochondroma: most common, normally around age 20. Causes a bony outgrowth capped in a layer of cartilage. They have a small chance of malignant transformation.

Enchondroma: well defined lesion of lobulated hyaline cartilage with some ossification.

Chondroblastoma: tumour of hyaline cartilage occurs at the epiphysis of long bones, has a chicken wire pattern.

Osteoid osteoma: benign bone forming tumour, causes night pain.

Giant cell tumour (osteoclastoma): these are found just below the subchondral plate in the epiphysis. They can be benign or malignant but are always locally aggressive. They cause a “soap bubble” lesion with multinucleated giant cells.
They require curratage and adjuvent phenol therapy

Question 80

What are common primary cancers causing skeletal mets?

Answer 80

Sclerotic: prostate and renal
Lytic: breast, thyroid and lung

Question 81

Explain the Mirrel score.

Answer 81

This is a score that predicts the risk of spontaneous fracture.

Site:
1 - Upper extremity
2- lower extremity
3- peri-trochanteric

Size:
1 - less then 1/3
2 - 1/3-2/3
3 - over 2/3

Radiology:
1 - sclerotic
2- mixed
3 - lytic

Pain:
1 - mild
2- moderate
3 - on movement

A score of below 7 gives a risk of approximately 4% and therefore conservative Mx

A score of over 9 is 33% risk and therefore prophylactic fixation should be undertaken

Question 82

What is compartment syndrome?

Answer 82

This is a surgical emergency.
It is caused by inadequate tissue perfusion or oxygenation in a compartment due to the raised pressures.

Question 83

What is the pathophysiology of compartment syndrome?

Answer 83

Swelling due to oedema, inflammation or haematoma cause a venous outflow obstruction which leads to further swelling which leads to reduced arterial inflow and therefore ischaemia. Which causes a negative cycle.

Question 84

What are the features of compartment syndrome?

Answer 84

Pain out of proportion
Tense compartment
Pain on passive stretch
Weakness, paraesthesia and pulselessness.

Question 85

How would you manage compartment syndrome of the lower extremity?

Answer 85

Urgent decompression with fasciotomy.
Lateral incision: 2 fingers lateral to the anterior border of the tibia.
Medial incision: behind the medial malleolus.

Question 86

What are the causes of compartment syndrome?

Answer 86

Intrinsic: bleeding, fractures, crush injury, reperfusion injury
Extrinsic: eschar formation, overly tight splints or casts.

Question 87

Can you name a complication of compartment syndrome?

Answer 87

Rhabdomyelysis may occur due to myoglobin release. This blocks the renal tubules.

Question 88

What are the causes of a fat embolus?

Answer 88

Blunt trauma, long bone injury, pancreatitis, severe burns, CP bypass, bone marrow biopsy, liposuction

Question 89

What are the features of fat embolus?

Answer 89

Rash, ARDS, Cerebral features.

Question 90

How do you manage fat embolus syndrome?

Answer 90

Supportive therapy: O2, renal support
Rule out PE

Question 91

Why would you choose to do a cemented hemiarthroplasty in an elderly patient with an intracapsular fracture?

Answer 91

ORIF not suitable as risk of avascular necrosis.
Less operative time, less blood loss than THR.
Reduced risk of dislocation compared to THF.
Cemented have a lower 30 day mortality than uncemented