Disease Profiles 5

Question 1

FAI

Answer 1

Femoroacetabular Impingement Syndrome

Question 2

Femoroacetabular Impingement Syndrome

Answer 2

Altered morphology of the femoral neck and/or acetabular causes abutment of the femoral neck on the edge of the acetabulum during movement

Question 3

FAI: What movements are impacted?

Answer 3

Flexion
Adduction
Internal rotation

Question 4

FAI: Aetiology

Answer 4

Hip bone misformation during the childhood growth years

Question 5

FAI: 3 types

Answer 5

CAM type impingement
Pincer type impingement
Mixed impingement

Question 6

FAI: CAM type Impingement - Pathophysiology

Answer 6

Assymetrical femoral head with reduced head to neck ratio causes limited smooth rotation
A bump forms on the edge of the femoral head to grind against the cartilage

Question 7

FAI: CAM type Impingement - Present in what patient groups?

Answer 7

Young athletic males

Question 8

FAI: CAM type Impingement - Can be related to what disease?

Answer 8

Slipped upper femoral epiphysis

Question 9

FAI: Pincer type Impingement - Pathophysiology

Answer 9

Acetabular overhang

Question 10

FAI: Pincer type Impingement - More common in what sex?

Answer 10

Females

Question 11

FAI: Pincer type Impingement - Impact on the labrum

Answer 11

Can be crushed under the prominent rim of the acetabulum

Question 12

FAI: Consequences on the joint (3)

Answer 12

Damage to labrum and tears
Damage to cartilage
Osteoarthritis in later life

Question 13

FAI: Clinical Presentation - Pain is related to what?

Answer 13

Activity - flexion and rotation

Question 14

FAI: Clinical Presentation - Have difficulty doing what motion?

Answer 14

Sitting

Question 15

FAI: Clinical Presentation - What is observed on examination?

Answer 15

C-sign positive - hand is cupped over the greater trochanter with the thumb posterior and the fingers gripping deep into the anterior groin

FADIR Provocation Test positive - Anterior groin or anterolateral hip pain during flexion, adduction and on internal rotation

Question 16

FAI: Investigation required (2)

Answer 16

X-Ray
MRI

Question 17

FAI: Management for CAM

Answer 17

Arthroscopic or open surgery

Question 18

FAI: Management for labral tears

Answer 18

Arthroscopic or open debridement

Question 19

FAI: Management for Pincer impingement

Answer 19

Peri-acetabular Osteotomy

Question 20

FAI: Management for older patients with secondary Osteoarthritis

Answer 20

Arthroplasty or Total Hip Replacement

Question 21

Idiopathic Transient Osteonecrosis of the Hip

Answer 21

Local hyperaemia and impaired venous return with marrow oedema and increased inter-medullary pressure

Question 22

Idiopathic Transient Osteonecrosis of the Hip: Epidemiology of sexes

Answer 22

More common in Females

Question 23

Idiopathic Transient Osteonecrosis of the Hip: 2 most common patient groups

Answer 23

Middle aged men
Pregnant women in the third trimester

Question 24

Idiopathic Transient Osteonecrosis of the Hip: Clinical Presentation (2)

Answer 24

Unilateral progressive groin pain
Difficulty weight bearing

Question 25

Idiopathic Transient Osteonecrosis of the Hip: Gold standard investigation

Answer 25

MRI

Question 26

Idiopathic Transient Osteonecrosis of the Hip: Results on bloods

Answer 26

Raised Erythrocyte Sedimentation Rate

Question 27

Idiopathic Transient Osteonecrosis of the Hip: What is shown on X-ray? (3)

Answer 27

Osteopenia of the head and neck
Thinning of the cortices
Preserved joint space

Question 28

Idiopathic Transient Osteonecrosis of the Hip: Management

Answer 28

Self-resolving - resolves in 6-9 months

Question 29

Trochanteric Bursitis

Answer 29

Repetitive trauma caused by the iliotibial band tracking over the trochanteric bursa to cause inflammation of the bursa

Question 30

Trochanteric Bursitis: Epidemiology of sexes

Answer 30

More common in females

Question 31

Trochanteric Bursitis: In older patients this is linked to what?

Answer 31

Gluteal cuff syndrome

Question 32

Trochanteric Bursitis: What may cause tendon tears?

Answer 32

Broad tendinous insertion of the abductor muscles is under strain and subject to tendonitis

Question 33

Trochanteric Bursitis: Main cause

Answer 33

Repetitive trauma

Question 34

Trochanteric Bursitis: Symptoms (2)

Answer 34

Pain on the lateral aspect of the hip
Pain on palpation of the greater trochanter

Question 35

Trochanteric Bursitis: Pain is felt on what movement?

Answer 35

Restricted abduction

Question 36

Trochanteric Bursitis: Management (3)

Answer 36

NSAIDs
Physiotherapy
Steroid injection

Question 37

Disease of the Nail: Type I

Answer 37

Soft tissue injury only

Question 38

Disease of the Nail: Type II

Answer 38

Soft tissue and nail injury

Question 39

Disease of the Nail: Type III

Answer 39

Soft tissue, Nail and Bone injury

Question 40

Disease of the Nail: Type IV

Answer 40

Proximal 1/3 of the Phalanx damaged

Question 41

Disease of the Nail: Type V

Answer 41

Damage proximal to the DIP joint

Question 42

Disease of the Nail: Management of Type I and II

Answer 42

Dressing

Question 43

Disease of the Nail: Management of Type III

Answer 43

Repair the nail bed and stabilise the bone

Question 44

Disease of the Nail: Management of Type IV

Answer 44

Repair nail bed and stabilise the bone unless <5mm of nail bed present - then ablate

Question 45

Disease of the Nail: If the tip is not available what management is done?

Answer 45

Terminalise or V-Y Flap

Question 46

Subungual Haematoma: Management if the pressure is causing pain

Answer 46

Trephine

Question 47

Boxer’s Fracture

Answer 47

Fracture of the 5th metacarpal neck

Question 48

Boxer’s Fracture: Aetiology

Answer 48

Caused by a clenched fist striking a hard object

Question 49

Boxer’s Fracture: Symptoms (2)

Answer 49

Dorsal hand pain
Swelling

Question 50

Boxer’s Fracture: Sign

Answer 50

Distal part of the fracture is displaced anteriorly to produce a shortened finger

Question 51

Boxer’s Fracture: Investigation

Answer 51

AP, Lateral and Oblique X-Ray

Question 52

Boxer’s Fracture: Management

Answer 52

Buddy strap with early mobilisation

Question 53

Proximal Interphalangeal Joint Dislocation: Concerns with delayed presentation

Answer 53

Impossible to reduce - may require fusion

Question 54

Proximal Interphalangeal Joint Dislocation: Fracture requires what management?

Answer 54

Fixation and stabilisation

Question 55

Proximal Interphalangeal Joint Dislocation: Management

Answer 55

Pull to reduce and use a buddy strap

Question 56

Bennett’s Fracture

Answer 56

A fracture of the first metacarpal base

Question 57

Bennett’s Fracture: Mechanism of injury

Answer 57

Forced hyperabduction of the thumb

Question 58

Bennett’s Fracture: Aetiology

Answer 58

Axial force applied to the thumb in flexion

Question 59

Bennett’s Fracture: Fractures can extend into what?

Answer 59

First carpometacarpal joint

Question 60

Bennett’s Fracture: Fracture can lead to what in the joint? (2)

Answer 60

Subluxation
Instability

Question 61

Bennett’s Fracture: If missed, what are the pathological impacts?

Answer 61

Articular cartilage of the joint will degenerate to cause deformity, dysfunction and arthritis

Question 62

Bennett’s Fracture: Main symptom

Answer 62

Acute pain at the base of the thumb

Question 63

Bennett’s Fracture: Pain occurs when?

Answer 63

With movement

Question 64

Bennett’s Fracture: Tenderness felt where?

Answer 64

At the Carpometacarpal joint

Question 65

Bennett’s Fracture: What clinical signs are present? (2)

Answer 65

Swelling
Ecchymosis - small bruise due to blood leaking from blood vessels

Question 66

Bennett’s Fracture: Investigation of choice

Answer 66

AP and Lateral X-Rays

Question 67

Bennett’s Fracture: Following fracture what tends to be present?

Answer 67

Small bony fragment attached to the volar beak ligament

Question 68

Bennett’s Fracture: Management

Answer 68

Surgical reduction onto the bony fragment and fixed with K wires

Question 69

Eschar

Answer 69

Thick leathery inelastic skin that can form after burns

Question 70

Cellulitis

Answer 70

Inflammation and infection of soft tissues with generalised swelling

Question 71

Cellulitis: Clinical Presentation (3)

Answer 71

Pain
Swelling
Erythema

Question 72

Cellulitis: Causative organisms (2)

Answer 72

Beta Haemolytic Streptococcus
Staphylococci

Question 73

Cellulitis: Management (4)

Answer 73

Rest and elevation
Analgesia
Splint
Antibiotics

Question 74

Abscess

Answer 74

Discrete collection of pus

Question 75

Abscess: Aetiologies (4)

Answer 75

Cellulitis
Bursitis
Penetrating wound
Infected sebaceous cyst

Question 76

Abscess: Clinical Presentation (3)

Answer 76

Defined and fluctuant swelling
Erythema
Pain

Question 77

Abscess: Management (3)

Answer 77

Rest and elevation
Surgical excision and drainage
Antibiotics

Question 78

Ganglion Cysts

Answer 78

Outpouchings of the synovium lining of joints that are filled with the synovial fluid

Question 79

Ganglion Cysts: Aetiologies (2)

Answer 79

Developmental cause
Underlying joint damage or arthritis with a build up of pressure

Question 80

Ganglion Cysts: Examples of ganglion cysts? (4)

Answer 80

Juvenile Baker’s Cyst
Adult Baker’s Cyst
Mucous cyst of the DIP joint
Wrist ganglion

Question 81

Ganglion Cysts: Why are these not a true cyst?

Answer 81

No epithelial lining

Question 82

Ganglion Cysts: Histological appearance

Answer 82

Space with myxoid material

Question 83

Ganglion Cysts: Occurs where? (2)

Answer 83

Around a synovial joint or synovial tendon sheath

Question 84

Ganglion Cysts: Physical appearance

Answer 84

Well-defined round swellings from <10mm to several cm wide

Question 85

Ganglion Cysts: Locations (3)

Answer 85

Wrist
Feet
Knees

Question 86

Ganglion Cysts: What management should not be used?

Answer 86

Do not aspirate

Question 87

Ganglion Cysts: Management options

Answer 87

Percutaneous rupture
Surgical excision

Question 88

Baker’s Cyst

Answer 88

Ganglion cyst found in the popliteal fossa

Question 89

Baker’s Cyst: Pathophysiology

Answer 89

Inflammation and swelling of the semimembranosus bursa

Question 90

Baker’s Cyst: Usually arises in conjunction with what disease?

Answer 90

Osteoarthritis of the knee

Question 91

Baker’s Cyst: Clinical presentation

Answer 91

General fullness of the popliteal fossa that is soft and tender

Question 92

Bursitis

Answer 92

Inflammation of the synvoium lined sacs that protect the bony prominences and joints

Question 93

Bursa

Answer 93

Small fluid filled sac lined by synovium around a joint to prevent friction between tendons, bones, muscle and skin

Question 94

Bursitis: Aetiology

Answer 94

Repeated trauma or pressure

Question 95

Bursitis: Examples

Answer 95

Pre-patellar bursitis
Olecranon bursitis
Bunions - over the medial 1st metatarsal head in the hallux valgus

Question 96

Bursitis: When may this develop into an abscess?

Answer 96

Secondarily infection from a small wound on the limb

Question 97

Bursitis: Management options (3)

Answer 97

NSAIDs
Antibiotics
Excision - in chronic cases

Question 98

Bursitis: Management if there is a secondary infection?

Answer 98

Incision and drainage

Question 99

Rheumatoid Nodules

Answer 99

Swellings present in the joints associated with rheumatoid patients associated with repetitive trauma

Question 100

Rheumatoid Nodules: Histology shows what?

Answer 100

Intense inflammatory changes

Question 101

Rheumatoid Nodules: Do not respond to what?

Answer 101

DMARDs

Question 102

Rheumatoid Nodules: Management

Answer 102

Excision if problematic

Question 103

Bouchard’s Nodes

Answer 103

Bone swellings of the proximal interphalangeal joints

Question 104

Bouchard’s Nodes present in what disease?

Answer 104

Osteoarthritis
Rheumatoid Arthritis

Question 105

Heberden’s Nodes

Answer 105

Bone swellings of the distal interphalangeal joints

Question 106

Heberden’s Nodes: Present in what disease?

Answer 106

Osteoarthritis

Question 107

Are Heberdens or Bouchard Nodes more common?

Answer 107

Heberdens

Question 108

Giant Cell Tumour of The Tendon Sheath

Answer 108

Benign nodular tumour found on the tendon sheath of the hands and feet

Question 109

Giant Cell Tumour of The Tendon Sheath: 2 types

Answer 109

Localised
Diffuse

Question 110

Giant Cell Tumour of The Tendon Sheath: Which type is more common?

Answer 110

Localised

Question 111

Giant Cell Tumour of The Tendon Sheath: Pathophysiology

Answer 111

Benign regenerative hyperplasia with inflammatory processes

Question 112

Giant Cell Tumour of The Tendon Sheath: Diffuse type is associated with what condition?

Answer 112

Pigemented villonodular synovitis

Question 113

Giant Cell Tumour of The Tendon Sheath: Clinical presentation

Answer 113

Firm discrete swelling on the volar aspect of digits or on toes

Question 114

Giant Cell Tumour of The Tendon Sheath: Management

Answer 114

Left if no functional complications

Question 115

Giant Cell Tumour of The Tendon Sheath: Management if there is functional complications

Answer 115

Surgical marginal excision

Question 116

Giant Cell Tumour of The Tendon Sheath: Why is surgical excision not done as a complete excision?

Answer 116

As it is adherent to the tendon sheath

Question 117

Sebaceous Cysts

Answer 117

Dematological condition originating at the hair follicles in which they are filled with caseous keratin

Question 118

Sebaceous Cysts: Pathophysiology

Answer 118

Hair follicles are filled with caseous material

Question 119

Sebaceous Cysts: Common locations (3)

Answer 119

Face
Trunk
Neck

Question 120

Sebaceous Cysts: Growth pattern

Answer 120

Slow growth

Question 121

Sebaceous Cysts: Are they painful?

Answer 121

No

Question 122

Sebaceous Cysts: Clinical presentation

Answer 122

Mobile discrete swellings

Question 123

Sebaceous Cysts: Management

Answer 123

Excision if required

Question 124

Hip Fractures: Majority of patients are of what age?

Answer 124

Over 60 years

Question 125

Hip Fractures: More common in what sex?

Answer 125

Women

Question 126

Hip Fractures: Diseases that are risk factors for this? (2)

Answer 126

Osteoporosis
Neurological impairment

Question 127

Hip Fractures: Environmental Risk Factors (4)

Answer 127

Smoking
Malnutrition
Excess alcohol intake
Low BMI

Question 128

Hip Fractures: Risk doubles when?

Answer 128

Every 10 years after the age of 50

Question 129

Hip Fractures: Typical Mechanism of injury in the elderly

Answer 129

Low impact fall

Question 130

Hip Fractures: Mechanism of injury in the young

Answer 130

High energy trauma

Question 131

Hip Fractures: Fractures are classified how?

Answer 131

Intracapsular or Extracapsular

Question 132

Hip Fractures: Shaft of the femur blood supply

Answer 132

Intra-medullary artery

Question 133

Hip Fractures: 3 blood supplies

Answer 133

Intramedullary artery
Medial and lateral circumflex branches of the profunda femoris
Artery of the ligamentum teres

Question 134

Hip Fractures: Intracapsular Fractures - Occur where?

Answer 134

Proximal to the intertrochanteric line

Question 135

Hip Fractures: Intracapsular Fractures - Involves what structures?

Answer 135

Femoral head and neck

Question 136

Hip Fractures: Intracapsular Fractures - Subdivided into what types?

Answer 136

Subcapital fracture
Transcervical fracture

Question 137

Hip Fractures: Intracapsular Fractures - Subcapital Fractures

Answer 137

Fracture line extends through the junction of the head and neck of the femur

Question 138

Hip Fractures: Intracapsular Fractures - Transcervical Fracture

Answer 138

Fracture line occurs along the femoral neck

Question 139

Hip Fractures: Intracapsular Fractures - Garden Fractures predicts what?

Answer 139

Predicts union and AVN

Question 140

Hip Fractures: Intracapsular Fractures - Undisplaced fractures

Answer 140

Pieces of fracture are not moved out of alignment

Question 141

Hip Fractures: Intracapsular Fractures - Displaced fractures

Answer 141

Pieces of fracture are moved out of alignment

Question 142

Hip Fractures: Intracapsular Fractures - Complications (2)

Answer 142

Femoral head AVN
Non-union

Question 143

Hip Fractures: Intracapsular Fractures - Can damage what structure?

Answer 143

Medial femoral circumflex artery

Question 144

Hip Fractures: What type is more likely to heal?

Answer 144

Extra-capsular

Question 145

Hip Fractures: Extracapsular Fractures - Occur where?

Answer 145

Distal to the interotrochanteric line

Question 146

Hip Fractures: Extracapsular Fractures - 4 types

Answer 146

Basicervical
Intertrochanteric
Reverse oblique
Subtrochanteric fractures

Question 147

Hip Fractures: Extracapsular Fractures - Why is AVN and non-union is rare?

Answer 147

Blood supply to the head of the femur is intact

Question 148

Hip Fractures: Extracapsular Fractures - Basi-cervical

Answer 148

Right below the capsule

Question 149

Hip Fractures: Extracapsular Fractures - Reverse Oblique requires what management?

Answer 149

Hip fracture nail

Question 150

Hip Fractures: Extracapsular Fractures - Sub-trochanteric requires what management?

Answer 150

Hip fracture nail

Question 151

Hip Fractures: What investigations are required?

Answer 151

X-Ray - Pelvic and Lateral Hip
MRI

Question 152

Hip Fractures: Shenton’s Line

Answer 152

Formed by the medial edge of the femoral neck and the inferior edge of the superior pubic ramus

Question 153

Hip Fractures: What is the sign of a fractured femur neck on the X-ray?

Answer 153

Loss of contour of the Shenton’s Line

Question 154

Hip Fractures: Symptoms (3)

Answer 154

Hip or groin pain
Swelling
Unable to weight bear

Question 155

Hip Fractures: Signs - How may this affect the limb?

Answer 155

Shortening or external rotation on affected sign

Question 156

Hip Fractures: Signs - What must be assessed? (4)

Answer 156

Neurology and vascular status
Cognitive impairment
Other injuries
Dehydration

Question 157

Hip Fractures: Management - THR

Answer 157

Total Hip Replacement

Question 158

Hip Fractures: Management - CHS

Answer 158

Compression Hip Screw

Question 159

Hip Fractures: Management - DHS

Answer 159

Dynamic Hip Screw

Question 160

Hip Fractures: Management - IMN

Answer 160

Intra-medullary Nail

Question 161

Hip Fractures: Management - Intracapsular fracture with high function that is displaced

Answer 161

Total Hip Replacement

Question 162

Hip Fractures: Management - Intracapsular fracture with high function that is undisplaced

Answer 162

Compression Hip Screw

Question 163

Hip Fractures: Management - Intracapsular fracture with Low function

Answer 163

Hemi-arthroplasty

Question 164

Hip Fractures: Management - Extracapsular fracture that is Intertrochanteric

Answer 164

Dynamic Hip Screw

Question 165

Hip Fractures: Management - Extracapsular fracture that is Subtrochanteric

Answer 165

Intra-medullary Nail

Question 166

Hip Fractures: Management - What analgesia should be used?

Answer 166

Local nerve blocks

Question 167

Hip Fractures: Complications - Intra-capsular

Answer 167

Non-union
AVN

Question 168

Hip Fractures: Complications - Extra-capsular

Answer 168

Malunion
Non-union

Question 169

Compartment Syndrome

Answer 169

Increased pressure in the enclosed space of the limb compartments due to swelling of tissue or increase in fluid

Question 170

Compartment Syndrome: What sex is this more common in?

Answer 170

Men

Question 171

Compartment Syndrome: Risk Factors - Environmental

Answer 171

Intravenous drug administration

Question 172

Compartment Syndrome: Risk Factors - Disease (4)

Answer 172

Tibial fractures
Open fractures
Forearm fractures
Burns

Question 173

Compartment Syndrome: Risk Factors - Drugs

Answer 173

Anticoagulation

Question 174

Compartment Syndrome: Main age range

Answer 174

10-35 years

Question 175

Compartment Syndrome: Pathophysiology - Increased pressure in the muscle compartment causes a reduction in what?

Answer 175

Perfusion pressure

Question 176

Compartment Syndrome: Pathophysiology - Reduction in perfusion pressure can lead to what? (4)

Answer 176

Ischaemia
Necrosis
Lactic Acidosis
Muscle, Nerve or Vessel death

Question 177

Compartment Syndrome: Pathophysiology - Significant muscle damage occurs at what pressures?

Answer 177

> 30-40 mmHg or diastolic pressure 10-30 mmHg

Question 178

Compartment Syndrome: Pathophysiology - Occurs anywhere in skeletal muscle surrounded by what?

Answer 178

Fascia

Question 179

Compartment Syndrome: Pathophysiology - Commonly occurs in what compartment?

Answer 179

Anterior and deep posterior compartments of the leg
Volar compartment of the forearm

Question 180

Compartment Syndrome: Pathophysiology - Left untreated what will happen?

Answer 180

Ischaemic muscle will necrose to cause fibrotic contracture (Volkmann’s Ischaemic Contracture)

Question 181

Compartment Syndrome: Pathophysiology - 5 stages

Answer 181

1. Increased pressure
2. Reduced blood flow
3. Venous occlusion with arterial patency
4. Rapid increase in pressure
5. Arterial occlusion

Question 182

Compartment Syndrome: Clinical Presentation - 4 Ps

Answer 182

Disproportionate pain
Paraethesia
Pallor
Pulselessness - late sign

Question 183

Compartment Syndrome: Management

Answer 183

Immediate release of dressings and casts with a fasciotomy

Question 184

Compartment Syndrome: Management - What should not be done?

Answer 184

Do not elevate

Question 185

Compartment Syndrome: Management - What should be done after surgery?

Answer 185

Open wound is left open for a few days

Question 186

Tibial Shaft Fracture: Mechanism of injury (2)

Answer 186

Low energy - due to indirect torsional injury
High energy - due to direct force

Question 187

Tibial Shaft Fracture: 4 configurations

Answer 187

Spiral
Transverse
Oblique
Comminuted

Question 188

Tibial Shaft Fracture: High risk of what happening?

Answer 188

Compartment Syndrome

Question 189

Tibial Shaft Fracture: Clinical Presentation (3)

Answer 189

Pain
Inability to weight bear
Deformity present

Question 190

Tibial Shaft Fracture: Investigation

Answer 190

X-ray - AP and Lateral

Question 191

Tibial Shaft Fracture: Conservative Management

Answer 191

Above knee cast - may require closed reduction

Question 192

Tibial Shaft Fracture: Operative Management (2)

Answer 192

Intramedullary nailing
Open Reduction and Internal Fixation

Question 193

Tibial Plateau Fracture: Mechanism of Injury in young patients

Answer 193

High energy injuries

Question 194

Tibial Plateau Fracture: Mechanism of injury in older patients

Answer 194

Osteoporotic bone

Question 195

Tibial Plateau Fracture: 80% of cases affect what structure?

Answer 195

Lateral condyle

Question 196

Tibial Plateau Fracture: How is lateral condyle impacted?

Answer 196

Valgus force with foot planted

Question 197

Tibial Plateau Fracture: What classification system is used?

Answer 197

Schatzer Classification

Question 198

Tibial Plateau Fracture: Clinical presentation (2)

Answer 198

Pain
Instability

Question 199

Tibial Plateau Fracture: Investigations (2)

Answer 199

X-ray - AP and horizontal beam lateral
CT

Question 200

Tibial Plateau Fracture: CT shows what?

Answer 200

Area of condylar involvement or depth of depression

Question 201

Tibial Plateau Fracture: Horizontal beam lateral of intra-articular fracture will show what?

Answer 201

Lipohaemarthrosis - fat floating on the blood in the suprapatellar recess

Question 202

Tibial Plateau Fracture: Small avulsed bone fragments indicates what?

Answer 202

Significant soft tissue injury

Question 203

Tibial Plateau Fracture: Conservative management

Answer 203

Above knee cast

Question 204

Tibial Plateau Fracture: Operative management options (3)

Answer 204

Open Reduction Internal Fixation
External fixation
Delayed Total Knee Replacement

Question 205

Tibial Plateau Fracture: Complications - Blow to the lateral aspect of the knee can cause what?

Answer 205

Damage the common fibular nerve

Question 206

Tibial Plateau Fracture: Complications (3)

Answer 206

Compartment syndrome
Soft tissue injury
Neurovascular injury of popliteal structures or common peroneal nerve

Question 207

Femoral Shaft Fracture: Mechanism of Injury

Answer 207

High energy injuries

Question 208

Femoral Shaft Fracture: Investigation

Answer 208

X-Ray

Question 209

Femoral Shaft Fracture: Management - Initial management

Answer 209

Thomas splint for temporary stabilisation

Question 210

Femoral Shaft Fracture: Management - Operative Management options (2)

Answer 210

Intramedullary nail
Plate fixation - Open Reduction with Internal Fixation OR Minimally invasive percutaneous plate osteosynthesis (MIMMO)

Question 211

Femoral Shaft Fracture: Complications (2)

Answer 211

Significant blood loss
Fat embolus

Question 212

Pelvic Fracture: Aetiology in Older patients

Answer 212

Osteoporotic bone

Question 213

Pelvic Fracture: Aetiology in younger patients

Answer 213

High energy injury

Question 214

Pelvic Fracture: Pathophysiology - Why are there normally multiple fractures?

Answer 214

Bony ring disruption

Question 215

Pelvic Fracture: Pathophysiology - What classification system is used?

Answer 215

Young-Burgess Classification

Question 216

Pelvic Fracture: Investigations - High energy - pelvis is only site of injury

Answer 216

X-ray first

Question 217

Pelvic Fracture: Investigations - High energy polytrauma patients

Answer 217

CT first

Question 218

Pelvic Fracture: Investigations - Low energy fractures are often …

Answer 218

Undisplaced

Question 219

Pelvic Fracture: Investigations - What is the most sensitive test?

Answer 219

MRI

Question 220

Pelvic Fracture: Management - Initial Management

Answer 220

Pelvic binder - controls circulatory loss

Question 221

Pelvic Fracture: Management - Conservative management (2)

Answer 221

Analgesia
Weight bearing as tolerated

Question 222

Pelvic Fracture: Management - Operative management options (3)

Answer 222

Open reduction with internal fixation
External fixators
Internal fixators

Question 223

Distal Radius Fracture: Mechanism of injury

Answer 223

Fall on out-stretched hand

Question 224

Distal Radius Fracture: 3 pattern types

Answer 224

Colles
Smith
Barton’s

Question 225

Distal Radius Fracture: Colles fracture

Answer 225

Fracture of the distal radial metaphyseal region with posterior displacement of the distal fragment
There is no involvement of the articular surface

Question 226

Distal Radius Fracture: Smith fracture

Answer 226

Fracture of distal radius with anterior displacement of the distal fragment

Question 227

Distal Radius Fracture: Bartons Fracture

Answer 227

Intra-articular fracture of the distal radius with dislocation of the radiocarpal joint

Question 228

Distal Radius Fracture: Barton’s Fracture is normally associated with what?

Answer 228

Sub-luxation or dislocation of the radiocarpal joint

Question 229

Distal Radius Fracture: Symptoms (2)

Answer 229

Pain
Swelling

Question 230

Distal Radius Fracture: Signs (2)

Answer 230

Ecchymosis
Diffuse tenderness

Question 231

Distal Radius Fracture: Investigations (3)

Answer 231

X-ray - AP, Lateral and Oblique
CT - evaluate intra-articular involvement
MRI - indicated in soft tissue injury

Question 232

Distal Radius Fracture: Conservative management

Answer 232

Cast or splint

Question 233

Distal Radius Fracture: Operative management options (3)

Answer 233

Open reduction with internal fixation
Manipulation under anaesthesia with K-wires
External fixation

Question 234

Distal Radius Fracture: Complications - Colles fracture

Answer 234

Median nerve compression due to stretch of nerve or bleed into the carpal tunnel

Question 235

Distal Radius Fracture: Complications - Fracture of the distal radius that have malunion may result in what?

Answer 235

Impaired grip strength - due to loss of extension

Question 236

Forearm Fractures: How are the radius and ulna connected?

Answer 236

Radioulnar joints - they form a ring

Question 237

Forearm Fractures: 3 types of fracture patterns

Answer 237

Monteggia
Galeazzi
Nightstick fracture

Question 238

Forearm Fractures: Monteggia

Answer 238

Fracture of the proximal third of the ulnar shaft with concomitant dislocation of the proximal radial head

Question 239

Forearm Fractures: Galeazzi

Answer 239

Fracture of the distal third of the radius with dislocation of the distal radioulnar joint - the ulnar remains intact

Question 240

Forearm Fractures: Night stick fracture

Answer 240

Isolated fracture of the ulnar shaft

Question 241

Forearm Fractures: Typical location of a nightstick fracture

Answer 241

Transverse fracture at the mid-diaphysis

Question 242

Forearm Fractures: Conservative management

Answer 242

Cast

Question 243

Forearm Fractures: Operative management

Answer 243

Open Reduction with Internal Fixation

Question 244

Forearm Fractures: Investigation

Answer 244

AP and Lateral X-ray

Question 245

Olecranon Fracture: Olecranon function

Answer 245

Insertion site of the triceps tendon - enables extension of the elbow

Question 246

Olecranon Fracture: Symptom

Answer 246

Pain well localised to the posterior elbow

Question 247

Olecranon Fracture: Signs (2)

Answer 247

Palpable defect - if displaced fracture present
Inability to extend the elbow - indicates discontinuity of tricep mechanism

Question 248

Olecranon Fracture: Investigations (2)

Answer 248

X-ray - AP and Lateral
CT

Question 249

Olecranon Fracture: Conservative Management

Answer 249

Cast

Question 250

Olecranon Fracture: Operative Management (3)

Answer 250

Tension band wiring
Open Reduction with Internal Fixation
Plate fixation

Question 251

Humeral Shaft Fracture: Mechanism of injury - Transverse or comminuted fracture

Answer 251

Direct trauma to the arm

Question 252

Humeral Shaft Fracture: Mechanism of injury - Oblique or spiral fractures

Answer 252

Rotational fall

Question 253

Humeral Shaft Fracture: Signs - What exam is critical?

Answer 253

Preoperative or pre-reduction neurovascular exam

Question 254

Humeral Shaft Fracture: Investigations

Answer 254

X-ray - AP and lateral

Question 255

Humeral Shaft Fracture: Conservative management

Answer 255

Humeral brace and U slab cast

Question 256

Humeral Shaft Fracture: Operative management (3)

Answer 256

Intramedullary nail
Open Reduction Internal Fixation
Plate Fixation

Question 257

Humeral Shaft Fracture: Complications

Answer 257

Risk of injury to the radial nerve

Question 258

Proximal Humerus Fracture: Aetiology

Answer 258

Low energy on osteoporotic bone

Question 259

Proximal Humerus Fracture: Pathophysiology - usually occurs where?

Answer 259

Surgical neck

Question 260

Proximal Humerus Fracture: Complications

Answer 260

Damage to the axillary nerve

Question 261

Proximal Humerus Fracture: Sign (2)

Answer 261

Extensive ecchymosis of chest, arm and forearm
Axillary nerve injury

Question 262

Proximal Humerus Fracture: Investigations (3)

Answer 262

X-Ray - AP and lateral
CT
MRI - if associated rotator cuff injury

Question 263

Proximal Humerus Fracture: Conservative Management

Answer 263

Collar and cuff

Question 264

Proximal Humerus Fracture: Operative Management

Answer 264

Open Reduction and Internal Fixation

Question 265

Shoulder Dislocation: Common in what population group?

Answer 265

Young adults

Question 266

Shoulder Dislocation: Aetiology (2)

Answer 266

Fall
Traction injury - limb being pulled away from the body

Question 267

Shoulder Dislocation: Anterior Dislocation - Main mechanism of injury

Answer 267

Fall with shoulder

Question 268

Shoulder Dislocation: Anterior Dislocation - Pathophysiology

Answer 268

Humeral head becomes anterior to the glenoid

Question 269

Shoulder Dislocation: Posterior Dislocation - Mechanism of injury

Answer 269

Fall with shoulder in internal rotation or direct blow to the anterior shoulder

Question 270

Shoulder Dislocation: Posterior Dislocation - Pathophysiology

Answer 270

Humeral head becomes posterior to the glenoid

Question 271

Shoulder Dislocation: Inferior Dislocation - Mechanism of injury

Answer 271

Arm held in abduction

Question 272

Shoulder Dislocation: Inferior Dislocation - Mechanism of injury

Answer 272

Humeral head is inferior to the glenoid

Question 273

Shoulder Dislocation: Investigations - Requires assessment of what?

Answer 273

Axillary nerve

Question 274

Shoulder Dislocation: Investigations

Answer 274

X-ray

Question 275

Shoulder Dislocation: Investigations - Posterior Dislocation X-ray sign

Answer 275

Light bulb sign

Question 276

Shoulder Dislocation: Most common type

Answer 276

Anterior Dislocation

Question 277

Shoulder Dislocation: Anterior Dislocation - Can result in compromise to what?

Answer 277

Axillary artery

Question 278

Shoulder Dislocation: Posterior shoulder dislocation is often associated with what situations?

Answer 278

Epileptic fits
Electrocution

Question 279

Shoulder Dislocation: Inferior shoulder dislocation is due to the shoulder being forced into what?

Answer 279

Hyperabduction

Question 280

Shoulder Dislocation: Needs urgent neurovascular assessment and reduction due to what?

Answer 280

Proximity of brachial plexus

Question 281

Shoulder Dislocation: Clinical presentation (2)

Answer 281

Severe shoulder pain
Inability to move the shoulder

Question 282

Shoulder Dislocation: Investigations (2)

Answer 282

X-ray - AP and Garth (Apical oblique views)
MRI Anthrogram

Question 283

Shoulder Dislocation: Management - Anterior Shoulder Dislocation

Answer 283

Analgesia and sedation IV
Oxygen
Reduction by manipulation - closed or open

Question 284

Shoulder Dislocation: Management - 3 mechanisms of reduction

Answer 284

Kocher method
Hippocratic method
Stimson method

Question 285

Shoulder Dislocation: Management - Hippocratic method

Answer 285

Foot in the axilla with in line traction to move the glenoid medial so the humerus pops back in

Question 286

Elbow Dislocation: Mechanism of injury

Answer 286

Fall onto an outstretched hand

Question 287

Elbow Dislocation: What pathophysiology may occur in a child?

Answer 287

Pulled elbow may cause sole radial head dislocation rather than a full dislocation

Question 288

Elbow Dislocation: Investigation

Answer 288

X-Ray - AP and Lateral View

Question 289

Elbow Dislocation: Management (2)

Answer 289

Reduction - traction in extension +/- pressure over olecranon
2 weeks in sling and rehabilitation

Question 290

Elbow Dislocation: Complications

Answer 290

Risk of radial head fractures and coronoid process fractures

Question 291

Interphalangeal Joint Dislocation: Mechanism of injury (2)

Answer 291

Hyperextension injury
Direct axial blow

Question 292

Interphalangeal Joint Dislocation: Most common

Answer 292

Posterior dislocation

Question 293

Interphalangeal Joint Dislocation: Clinical presentation

Answer 293

Pain and deformity of the affected digit

Question 294

Interphalangeal Joint Dislocation: Investigation

Answer 294

X-ray - AP and lateral view

Question 295

Interphalangeal Joint Dislocation: Management - PIP

Answer 295

Closed reduction and buddy taping

Question 296

Interphalangeal Joint Dislocation: Management - DIP

Answer 296

Closed reduction +/- splinting

Question 297

Interphalangeal Joint Dislocation: Management - If extremely unstable

Answer 297

Volar slab in Edinburgh position

Question 298

Interphalangeal Joint Dislocation: Management - Reduction method

Answer 298

In line traction with corrective pressure

Question 299

Interphalangeal Joint Dislocation: Complications (2)

Answer 299

Head of the phalynx button holes through the volar plate causing volar plate entrapment to block reduction
Recurrent instability

Question 300

Interphalangeal Joint Dislocation: Management. ifthere is volar plate entrapment

Answer 300

Open reduction

Question 301

Patella Dislocation: More common in what patient group

Answer 301

Teenagers

Question 302

Patella Dislocation: More common in what sex?

Answer 302

Females

Question 303

Patella Dislocation: Always dislocates in what direction?

Answer 303

Laterally

Question 304

Patella Dislocation: Aetiologies (2)

Answer 304

Direct blow
Sudden quadriceps contraction with a flexing knee

Question 305

Patella Dislocation: Aetiology in children

Answer 305

Under-developed hypoplastic lateral femoral condyle

Question 306

Patella Dislocation: Risk Factors (5)

Answer 306

Increased Q angle - Genu Valgus or Increased femoral neck anteversion
Ligamentous laxity or hypermobility
High riding patella
Hypoplastic lateral femoral condyle
Lateral quad insertions or weak vastus medialis

Question 307

Patella Dislocation: Pain located where and why?

Answer 307

Medial due to torn medial retinaculum

Question 308

Patella Dislocation: Signs on examination (2)

Answer 308

Patella apprehension test is positive
Effusion - haemarthosis

Question 309

Patella Dislocation: Investigations

Answer 309

X-ray

Question 310

Patella Dislocation: Appearance on X-ray (2)

Answer 310

Lipo-haemarthosis
Small opacification - suggests osteochondral fracture

Question 311

Patella Dislocation: Management (3)

Answer 311

May spontaneously reduce
Brace
Physiotherapy

Question 312

Patella Dislocation: Management - If intractable pain and swollen

Answer 312

Aspiration

Question 313

Patella Dislocation: Management - if repeat dislocations

Answer 313

Surgery of lateral release of medial reefing with patella tendon realignment

Question 314

Patella Dislocation: Complications - When the patella dislocates what may occur?

Answer 314

Medial patellofemoral ligament tears and osteochrondral fracture may occur as the medial facet of the patella strikes the lateral femoral condyle

Question 315

Knee Dislocation: Common in what patient group?

Answer 315

Teenagers

Question 316

Knee Dislocation: More common in what sex?

Answer 316

Females

Question 317

Knee Dislocation: Mechanism of injury

Answer 317

Serious high energy injury
Or twisting injury

Question 318

Knee Dislocation: Pathophysiology - Spontaneous relocation

Answer 318

Lateral collateral ligament injury with perineal nerve injury results in dislocation

Question 319

Knee Dislocation: Investigations - Clinical concern of vascular injury

Answer 319

Arteriography or MRI of the popliteal artery or veins

Question 320

Knee Dislocation: Investigations - What nerve needs to be tested for injury?

Answer 320

Peroneal nerve

Question 321

Knee Dislocation: Investigation of choice

Answer 321

X-ray

Question 322

Knee Dislocation: Management - Definitive

Answer 322

Sequential ligamentous pair

Question 323

Knee Dislocation: Management - Early surgical option

Answer 323

Vascular repair of 6 hour window or nerve repair

Question 324

Knee Dislocation: Management - Immediate

Answer 324

Emergency reduction under sedation

Question 325

Knee Dislocation: Management - Medial Femoral Condyle Buttoned through the capsule

Answer 325

Theatre reduction

Question 326

Knee Dislocation: Complications (4)

Answer 326

Neurovascular injury - popliteal artery or common peroneal nerve
Ligamentous injury
Arthrofibrosis
Ligament laxity

Question 327

Hip Dislocation: Mechanism of injury

Answer 327

Impact during RTA or contact sports during hip flexion

Question 328

Hip Dislocation: Most common direction

Answer 328

Posterior

Question 329

Hip Dislocation: Pathophysiology for posterior dislocations

Answer 329

Force is driven along the femur proximally so the femoral head to dislocate posteriorly with an acetabular rim fracture

Question 330

Hip Dislocation: Associated fractures

Answer 330

Posterior acetabular wall
Femoral fracture

Question 331

Hip Dislocation: Clinical presentation

Answer 331

Flexed, internally rotated and adducted knee

Question 332

Hip Dislocation: Investigations (2)

Answer 332

X-ray
CT

Question 333

Hip Dislocation: Investigations - Neurovascular assessment of what?

Answer 333

Sciatic Nerve

Question 334

Hip Dislocation: Management - Immediated

Answer 334

Urgent reduction - stabilise in tractions if required

Question 335

Hip Dislocation: Management - Definitive

Answer 335

Fixation of associated pelvic fractures and other injuries

Question 336

Hip Dislocation: Complications (5)

Answer 336

Posterior acetabular wall fracture
Femoral fractures
Sciatic nerve palsy
AVN of the femoral head
Secondary osteoarthritis of the hip

Question 337

Paediatric Fractures: Anatomical point of weakness in the bone

Answer 337

Point at which a metaphysic connects to a physis

Question 338

Paediatric Fractures: What is stronger than bones in young patients?

Answer 338

Ligaments and tendons

Question 339

Paediatric Fractures: … is thick in children meaning it often stays intact during injury

Answer 339

Periosteum

Question 340

Paediatric Fractures: Buckle Fracture

Answer 340

Fracture due to compressive force

Question 341

Paediatric Fractures: Greenstick fracture

Answer 341

Fracture due to force on one side of the bone to cause a break in only one cortex

Question 342

Paediatric Fractures: Advantage of children’s fractures compared to adult

Answer 342

Shorter immobilisation times

Question 343

Paediatric Fractures: Disadvantage of children’s fractures compared to adult

Answer 343

Mal-aligned fragments become solid sooner

Question 344

Paediatric Fractures: What should be anticipated if a child has >2 years of growth left?

Answer 344

Remodelling

Question 345

Paediatric Fractures: Two types of remodelling and their management?

Answer 345

Mild angulation
Rotational

Question 346

Paediatric Fractures: Nerve Assessment - OK sign

Answer 346

Anterior interosseous nerve

Question 347

Paediatric Fractures: Nerve Assessment - Thumbs up sign

Answer 347

Posterior interosseous nerve

Question 348

Paediatric Fractures: Nerve Assessment - Rock sign

Answer 348

Median nerve

Question 349

Paediatric Fractures: Nerve Assessment - Paper nerve

Answer 349

Radial nerve

Question 350

Paediatric Fractures: Nerve Assessment - Scissor action or crossing of fingers

Answer 350

Ulnar nerve

Question 351

Paediatric Fractures: Physeal Injury - High grade fractures are more likelt to have what impact?

Answer 351

Cause growth disturbance

Question 352

Paediatric Fractures: Physeal Injury - What classification system is used?

Answer 352

Salter Harris Classification

Question 353

Paediatric Fractures: Salter Harris Classification of Physeal Injuries - Type I

Answer 353

Fracture passes transversely through the physis to separate the epiphysis from the metaphysis

Question 354

Paediatric Fractures: Salter Harris Classification of Physeal Injuries - Type II

Answer 354

Transverse fracture through the physis but exits through the metaphysis to produce a triangular fragment

Question 355

Paediatric Fractures: Salter Harris Classification of Physeal Injuries - Type III

Answer 355

Fracture that crosses the physis and exits through the physis at the joint space

Question 356

Paediatric Fractures: Salter Harris Classification of Physeal Injuries - Type IV

Answer 356

Fracture extends upwards from the joint line through the physis and out of the metaphysis

Question 357

Paediatric Fractures: Salter Harris Classification of Physeal Injuries - Type V

Answer 357

Crush injury to the growth plate

Question 358

Paediatric Fractures: Elbow Fractures - Most are of what type?

Answer 358

Supracondylar

Question 359

Paediatric Fractures: Elbow Fractures - What acronym is used for the sequence of ossification?

Answer 359

CRITOL

Question 360

Paediatric Fractures: Elbow Fractures - Sequence of ossification

Answer 360

Capitellum
Radial head
Medial epicondyle
Trochlea
Olecranon
Lateral epicondyle

Question 361

Paediatric Fractures: Elbow Fractures - Age of ossification of the capitellum

Answer 361

1 year

Question 362

Paediatric Fractures: Elbow Fractures - Age of ossification of the radial head

Answer 362

3 years

Question 363

Paediatric Fractures: Elbow Fractures - Age of ossification of the medial epicondyle

Answer 363

5 years

Question 364

Paediatric Fractures: Elbow Fractures - Age of ossification of the trochlea

Answer 364

7 years

Question 365

Paediatric Fractures: Elbow Fractures - Age of ossification of Olecranon

Answer 365

9 years

Question 366

Paediatric Fractures: Elbow Fractures - Age of ossification of the lateral epicondyle

Answer 366

11 years

Question 367

Paediatric Fractures: Elbow Fractures - On examination of a lateral X-ray what should be checked?

Answer 367

The anterior humeral line and the radiocapitellar line should both bisect the capitellum - if it is not it suggests a displaced fracture

Question 368

Paediatric Fractures: Elbow Fractures - What fat pad sign is always abnormal?

Answer 368

Posterior fat pad sign

Question 369

Paediatric Fractures: Elbow Fractures - Most supracondylar fracture are of what type?

Answer 369

Extension

Question 370

Paediatric Fractures: Elbow Fractures - Where do supracondylar fractures occur?

Answer 370

Weakest part of the elbow joint where the humerus flattens and flares

Question 371

Paediatric Fractures: Elbow Fractures - Classification system for extension type supracondylar fractures?

Answer 371

Gartland Classification

Question 372

Paediatric Fractures: Supracondylar Elbow Fractures - Type I Gartland

Answer 372

Undisplaced fracture

Question 373

Paediatric Fractures: Supracondylar Elbow Fractures - Type I Gartland treatment

Answer 373

Conservative due to undisplaced type

Question 374

Paediatric Fractures: Supracondylar Elbow Fractures - Type IIa Gartland

Answer 374

Displaced posteriorly but intact posterior peri-steal hinge and anterior humeral line transects the capitellum

Question 375

Paediatric Fractures: Supracondylar Elbow Fractures - Type IIa Gartland Management

Answer 375

Conservative treatment

Question 376

Paediatric Fractures: Supracondylar Elbow Fractures - Type IIb Gartland

Answer 376

Displaced posteriorly but intact posterior hinge and the anterior humeral line does not transect the capitellum

Question 377

Paediatric Fractures: Supracondylar Elbow Fractures - Type IIb Gartland Management

Answer 377

Manipulation under anaesthesia +/- wires

Question 378

Paediatric Fractures: Supracondylar Elbow Fractures - Type III Gartland

Answer 378

Displaced posteriorly with no posterior peri-osteal hinge

Question 379

Paediatric Fractures: Supracondylar Elbow Fractures - Type III Gartland Management

Answer 379

Manipulation under anaesthesia +/- wires

Question 380

Paediatric Fractures: Supracondylar Elbow Fractures - Complications (2)

Answer 380

Radial artery compromise
Nerve compromise - AIN, Medial, Radial and Ulna

Question 381

Paediatric Fractures: Common fractures in toddlers

Answer 381

Undisplaced spiral fracture of the tibia with no fibular fracture

Question 382

Paediatric Fractures: Most common sites of fractures due to NAI (3)

Answer 382

Femur
Humerus
Tibia

Question 383

Impingement Syndrome

Answer 383

Inflammation and irritation of the rotator cuff tendons as they pass through the subacromial space resulting in pain, weakness and reduced ROM

Question 384

Impingement Syndrome: Most likely cause in <30 year olds

Answer 384

Rotator cuff tendonitis or subacromial bursitis

Question 385

Impingement Syndrome: Most likely cause in 30-40 year olds

Answer 385

Calcific tendonitis

Question 386

Impingement Syndrome: Most likely cause in 40-50 year olds

Answer 386

Tendinosis or Partial tear of the rotator cuff

Question 387

Impingement Syndrome: Most likely cause in 50-60 year olds

Answer 387

Rotator cuff tear

Question 388

Impingement Syndrome: Most likely cause in >70 year olds

Answer 388

Cuff Arthropathy

Question 389

Impingement Syndrome: Intrinsic Mechanisms (3)

Answer 389

Muscular weakness
Overuse of the shoulder
Degenerative tendinopathy

Question 390

Impingement Syndrome: Intrinsic Mechanisms - Pathophysiology behind muscular weakness

Answer 390

Weakness in the rotator cuff muscles can lead to the humerus shifting proximally towards the body

Question 391

Impingement Syndrome: Intrinsic Mechanisms -Pathophysiology behind overuse of the shoulder

Answer 391

Repetitive microtrauma can result in soft tissue inflammation of the rotator cuff tendons and the subacromial bursa

Question 392

Impingement Syndrome: Intrinsic Mechanisms - Pathophysiology behind degenerative tendinopathy

Answer 392

Degenerative changes of the acromion can lead to tearing of the rotator cuff to allow proximal migration of the humeral head

Question 393

Impingement Syndrome: Extrinsic Mechanisms (3)

Answer 393

Anatomical factors
Scapular musculature
Glenohumeral Instability

Question 394

Impingement Syndrome: Extrinsic Mechanisms - Pathophysiology of anatomical factors

Answer 394

Anatomical variations in the shape and gradient of the acromion

Question 395

Impingement Syndrome: Extrinsic Mechanisms - Pathophysiology of Scapular musculature

Answer 395

Reduction in the function of scapular muscles may result in a reduction in the size of the sub-acromial space

Question 396

Impingement Syndrome: Extrinsic Mechanisms - Pathophysiology of Glenohumeral Instability

Answer 396

Can lead to superior subluxation of the humerus causing an increased contraction between the acromion and sub-acromial tissue

Question 397

Impingement Syndrome: What classification system is used?

Answer 397

Neer’s Classification

Question 398

Impingement Syndrome: Stage I Neer’s Classification

Answer 398

Inflammation, oedema and Haemorrhage in <25 year olds

Question 399

Impingement Syndrome: Stage II Neer’s Classification

Answer 399

Fibrosis or Tendonitis of the bursa or cuff in 25-40 year olds

Question 400

Impingement Syndrome: Stage III Neer’s Classification

Answer 400

Partial. orfull thickness tears and degeneration in >40 year olds

Question 401

Impingement Syndrome: Examination on movement

Answer 401

ROM is limited with a painful arc and weakness in the rotator cuff

Question 402

Impingement Syndrome: What clinical tests can be conducted? (2)

Answer 402

Hawkin’s Test
Jobe’s Test

Question 403

Impingement Syndrome: Hawkin’s Test

Answer 403

With the shoulder flexed forward and the elbow bent the arm is internally rotated - pain exacerbated if positive

Question 404

Impingement Syndrome: Jobe’s Test

Answer 404

With the shoulder abducted and slightly flexed forward, instruct the patient rotate hand the hand to point their thumb towards the floor. Ask the patient to try to maintain this position while you push down on their forearms - muscle weakness is positive result

Question 405

Impingement Syndrome: Jobe’s Test - pain but no weakness on the test indicates what?

Answer 405

Supra-spinatus impingement

Question 406

Impingement Syndrome: Clinical Presentation - Tenderness felt where?

Answer 406

Below the lateral edge of the acromion

Question 407

Impingement Syndrome: Investigations

Answer 407

X-ray - AP and Garth (apical oblique) views
US or MRI for shoulder mobilityir

Question 408

Impingement Syndrome: What may appear on X-ray?

Answer 408

Bone spur

Question 409

Impingement Syndrome: Conservative management options (3) and time period

Answer 409

Rest
Pain relief - corticosteroid injections into the subacromial space
Physiotherapy
Minimum of 6 months

Question 410

Impingement Syndrome: Surgical management options (5)

Answer 410

Subacromial decompression
Subacromial or Subdeltoid Bursectomy
Release of coracoacromial ligaments
Release of calcific deposits
Excision of intraclavicular spur

Question 411

Rotator Cuff Tear: Usually occurs in what age group?

Answer 411

> 40 year olds

Question 412

Rotator Cuff Tear: Aetiology (3)

Answer 412

Degenerate changes in the tendon
Acute tear - fall onto an outstretched arm or sudden jerk
Significant injury - e.g. shoulder dislocation

Question 413

Rotator Cuff Tear: Types of tear (2)

Answer 413

Partial
Full thickness

Question 414

Rotator Cuff Tear: Tears usually involve what structure?

Answer 414

Supraspinatus

Question 415

Rotator Cuff Tear: Large tears can extend into what? (2)

Answer 415

Sub-scapularis
Infra-spinatus

Question 416

Rotator Cuff Tear: Clinical presentation - Symptoms (2)

Answer 416

Pain in front of shoulder that radiates down the arm
Weakness

Question 417

Rotator Cuff Tear: Clinical Presentation - Signs (2)

Answer 417

Wasting of supraspinatus
Tenderness in the sub-deltoid region

Question 418

Rotator Cuff Tear: Investigations (3)

Answer 418

X-ray
MRI - if reduced ROM
US - if good ROM

Question 419

Rotator Cuff Tear: Clinical Presentation - Sign on movement

Answer 419

ROM is less on active movement than passive - due to weakness of the Supraspinatus, Infraspinatus, Teres minor and Subscapularis

Question 420

Rotator Cuff Tear: What examinations should be conducted? (3)

Answer 420

Supraspinatus test
Gerber’s Lift Off
Horn Blowers test

Question 421

Rotator Cuff Tear: Supraspinatus Test

Answer 421

Arm is moved into the plane of the scapula at 90 degrees of abduction, the practitioner holds the patients wrist and hand and the other hand is used to apply a posterior force to externally rotate the humerus
Positive test - weakness represents a tear in the supraspinatus tendon or impingement

Question 422

Rotator Cuff Tear: Gerbers Lift Off Test

Answer 422

The patient has the dorsum of the hand against the mid lumbar spine and ask them to push their hand against yours away from the back

Positive Test - cannot push away to indicate scapular instability or determines subscapularis tendon rupture

Question 423

Rotator Cuff Tear: Horn Blowers Test

Answer 423

Arm is placed at a 90 degree angle in the scapular plane and flexes the elbow to 90 degrees. The patient is asked to externally rotate against resistance

Positive test - patient is unable to externally rotate

Question 424

Rotator Cuff Tear: Management - Conservative management options (3)

Answer 424

Rest
Analgesia
Sling

Question 425

Rotator Cuff Tear: Management - Chronic Cases (2)

Answer 425

Physiotherapy - Anterior Deltoid Strengthening
Steroid injections

Question 426

Rotator Cuff Tear: Management - Acute Cases (2)

Answer 426

Early intervention - physiotherapy and reassessment
Surgical options are controversial - failure in 1/3 of patients

Question 427

Rotator Cuff Tear: Management - Surgical option

Answer 427

Arthroscopic or open repair of the cuff

Question 428

Rotator Cuff Tear: Complications (2)

Answer 428

Pulls the head of the humerus upwards
Abnormal forces on the glenoid leads to osteoarthritis

Question 429

Adhesive Capsulitis: Alternate name

Answer 429

Frozen Shoulder

Question 430

Adhesive Capsulitis

Answer 430

Inflammation and fibrosis of the joint capsule leading to contracture of the shoulder joint

Question 431

Adhesive Capsulitis: Most common age

Answer 431

40-50 years old

Question 432

Adhesive Capsulitis: More common in what sex?

Answer 432

Females

Question 433

Adhesive Capsulitis: Associated with what diseases? (4)

Answer 433

Diabetes Mellitus
Hypercholesterolaemia
Endocrine Disease
Dupuytren’s Contracture

Question 434

Adhesive Capsulitis: Pathophysiology

Answer 434

Contracture and thickening of coracohumeral ligament, rotator interval and the ingerior glenohumeral ligament (axillary fold)

Question 435

Adhesive Capsulitis: Pathophysiology - Can cause a decrease in what?

Answer 435

Joint volume

Question 436

Adhesive Capsulitis: Pathophysiology - What is no t present?

Answer 436

Adhesion

Question 437

Adhesive Capsulitis: Pathophysiology - First stage and description

Answer 437

Freezing or painful stage - minimal synovitis with pain to cause a reduced ROM

Question 438

Adhesive Capsulitis: Pathophysiology - Second stage and description

Answer 438

Frozen or Transitional stage - pain decreases but proliferative synovitis with contraction of the capsule and adhesion of the axillary recess increases

Question 439

Adhesive Capsulitis: Pathophysiology - Third stage and description

Answer 439

Thawing stage - inflammation decreases and movement slowly improves

Question 440

Adhesive Capsulitis: Clinical Presentation - When is pain worse?

Answer 440

At rest and at night

Question 441

Adhesive Capsulitis: Clinical Presentation - Where is the pain located?

Answer 441

Anterior

Question 442

Adhesive Capsulitis: Clinical Presentation - When does pain reduce?

Answer 442

Around 2-9 months

Question 443

Adhesive Capsulitis: Clinical Presentation - When does stiffness increase?

Answer 443

4-12 months

Question 444

Adhesive Capsulitis: Clinical Presentation - Main restriction in ROM?

Answer 444

External rotation

Question 445

Adhesive Capsulitis: Differential Diagnosis (2)

Answer 445

Locked posterior dislocation
Glenohumeral arthritis

Question 446

Adhesive Capsulitis: Resolution time

Answer 446

18-24 months

Question 447

Adhesive Capsulitis: Conservative Management (3)

Answer 447

Physiotherapy and analgesia
Intra-articular glenohumeral steroid injections
Fluoroscopic distension

Question 448

Adhesive Capsulitis: Management - Surgery indicated when?

Answer 448

Patient cannot tolerate functional loss due to stiffness

Question 449

Adhesive Capsulitis: Management - Surgical options (2)

Answer 449

Manipulation under anaesthesia
Arthroscopic capsular release

Question 450

Glenohumeral Osteoarthritis: Age that is common

Answer 450

> 60 years old

Question 451

Glenohumeral Osteoarthritis: Onset of pain

Answer 451

Gradual onset of pain with intermittent exacerbations

Question 452

Glenohumeral Osteoarthritis: Pain worse when?

Answer 452

At rest and night

Question 453

Glenohumeral Osteoarthritis: Movement limited how?

Answer 453

On external rotation

Question 454

Glenohumeral Osteoarthritis: Investigation

Answer 454

X-ray

Question 455

Glenohumeral Osteoarthritis: Appearance on X-ray (4)

Answer 455

Joint space narrowing
Sub-chondral sclerosis
Sub-chondral cysts
Osteophyte formation

Question 456

Glenohumeral Osteoarthritis: Conservative Management Options (3)

Answer 456

Analgesia
Physiotherapy
Glenohumeral Steroid Injection

Question 457

Glenohumeral Osteoarthritis: Operative Management Options (3)

Answer 457

Shoulder Replacement
Total shoulder arthroplasty
Reverse polarity shoulder arthroplasty

Question 458

Cubital Tunnel Syndrome

Answer 458

Compression of the ulnar nerve at the elbow behind the medial epicondyle

Question 459

Cubital Tunnel Syndrome: Aetiologies (2)

Answer 459

Osborne’s Fascia - tight band of fascia forming the roof of the tunnel
Tightness at the intermuscular septum as the nerve passes through

Question 460

Cubital Tunnel Syndrome: Most common age

Answer 460

> 30 years old

Question 461

Cubital Tunnel Syndrome: More common in what sex?

Answer 461

Males

Question 462

Cubital Tunnel Syndrome: Symptoms

Answer 462

Parathesiae in the ulnar 1 and 1/2 fingers

Question 463

Cubital Tunnel Syndrome: How may this be caused at night?

Answer 463

Sleeping with arm in flexion

Question 464

Cubital Tunnel Syndrome: What nerve is affected?

Answer 464

Ulnar nerve

Question 465

Cubital Tunnel Syndrome: Where is the intramuscular septum?

Answer 465

Arcade of Struthers

Question 466

Cubital Tunnel Syndrome: Cubital Tunnel Anatomy - Roof

Answer 466

Flexor carpi ulnaris fascia and Osborne’s Ligament

Question 467

Cubital Tunnel Syndrome: Cubital Tunnel Anatomy - Floor

Answer 467

Medial collateral ligament and joint capsule

Question 468

Cubital Tunnel Syndrome: Cubital Tunnel Anatomy - Walls

Answer 468

Medial epicondyle and Olecranon

Question 469

Cubital Tunnel Syndrome: Ulnar nerve innervates what? (5)

Answer 469

Ulnar two lumbricals
All hypothenar muscles
Deep head of the flexor pollicis brevis
Adductor pollicis
Forearm flexors

Question 470

Cubital Tunnel Syndrome: Early Symptoms (3)

Answer 470

Ulnar pins and needles
Pain
Clumsiness

Question 471

Cubital Tunnel Syndrome: Late symptoms (2)

Answer 471

Numbness
Weakness

Question 472

Cubital Tunnel Syndrome: Signs - Atrophy of what muscles? (2)

Answer 472

Hypothenar muscles
Interosseous muscles

Question 473

Cubital Tunnel Syndrome: Signs - Weakness in what muscles?

Answer 473

Abductor digiti minimi

Question 474

Cubital Tunnel Syndrome: Signs - Weakness in what movement?

Answer 474

Grasp and pinch

Question 475

Cubital Tunnel Syndrome: Signs - What 4 tests are used?

Answer 475

Tinnel’s Test
Phalen’s Test
Froment’s Test
Wartenberg’s Test

Question 476

Cubital Tunnel Syndrome: Signs - Tinnel’s Test and Positive Test

Answer 476

Tapping of the cubital fossa

Positive - causes a tingling sensation

Question 477

Cubital Tunnel Syndrome: Signs - Phalen’s Test and Positive Test

Answer 477

Flexion of the elbow at 90 degrees for 1 minute

Positive - Causes tingling in the regions innervated by the ulnar nerve

Question 478

Cubital Tunnel Syndrome: Signs - Froment’s Test and Positive Test

Answer 478

The patient holds a piece of paper in between her thumb and index finger and attempt to pull the paper away from the patient

Positive - paper can be pulled away due to weakness or loss of function in the adductor pollicis muscle

Question 479

Cubital Tunnel Syndrome: Signs - Wartenberg’s Sign and Positive Result

Answer 479

Abduction of the small finger

Positive Result - Increased abduction of the fifth finger due to weakness or paralysis of the adducting palmar interosseous muscle and unopposed action of the digiti minimi and digitorum communis

Question 480

Cubital Tunnel Syndrome: Management - Mild or Moderate (3)

Answer 480

Elbow splintage
Physiotherapy
NSAIDs

Question 481

Cubital Tunnel Syndrome: Management - Severe cases

Answer 481

Surgical ulnar nerve decompression - release the nerve from the Arcade of Struthers to the heads of the Flexor Carpi Ulnaris

Question 482

Rickets Disease

Answer 482

Qualitative defect of bone with abnormal softening of the bone due to deficient mineralisation of osteoid secondary to calcium, vitamin D and phosphorus deficiency in children

Question 483

Osteomalacia

Answer 483

Qualitative defect of bone with abnormal softening of the bone due to deficient mineralisation of osteoid secondary to calcium, vitamin D and phosphorus deficiency in adults

Question 484

Rickets and Osteomalacia: Primary causes

Answer 484

Insufficient calcium absorption or phosphate deficiency due to increased renal losses

Question 485

Rickets and Osteomalacia: Other causes of disease (4)

Answer 485

Vitamin D deficiency
Hypophosphataemia
Long term anticonvulsant use
Chronic kidney disease

Question 486

Rickets and Osteomalacia: Causes of Vitamin D deficiency (3)

Answer 486

Lack of sunlight exposure
Malnutrition
Malabsorption

Question 487

Rickets and Osteomalacia: Causes of hypophosphataemia (4)

Answer 487

Re-feeding Syndrome
Alcohol abuse - impairs phosphate absorption
Malabsorption
Renal tubular acidosis

Question 488

Rickets and Osteomalacia: Pathophysiology behind the impact of CKD

Answer 488

Reduced phosphate resorption and failure of activation of Vitamin D results in secondary hyperparathyroidism

Question 489

Rickets and Osteomalacia: Pathophysiology - Vitamin D impact on calcium

Answer 489

Stimulates absorption of calcium from the GI tract, Kidney and bone

Question 490

Rickets and Osteomalacia: Pathophysiology - Vitamin D impact on osteoblasts

Answer 490

Induces release of osteocalcin from osteoclasts

Question 491

Rickets and Osteomalacia: Pathophysiology - Vitamin D deficiency has what impact on calcium and PTH?

Answer 491

Hypocalcaemia
Elevated PTH

Question 492

Rickets and Osteomalacia: Pathophysiology - Why does Vitamin D deficiency result in Osteomalacia?

Answer 492

Release of calcium from bone causes impaired mineralisation of newly formed osteoid

Question 493

Rickets and Osteomalacia: Clinical Presentation -Bone pain where?

Answer 493

Pelvis
Spine
Femur

Question 494

Rickets and Osteomalacia: Clinical Presentation -Symptoms of hypocalcaemia (6)

Answer 494

Paraesthesiae
Muscle cramps
Irritability
Fatigue
Seizures
Brittle nails

Question 495

Rickets and Osteomalacia: Clinical Presentation -Signs (3)

Answer 495

Deformities from soft bones
Proximal myopathy
Dental defects

Question 496

Rickets and Osteomalacia: Investigations (2)

Answer 496

X-ray
Bloods

Question 497

Rickets and Osteomalacia: Investigations - X-ray presentation

Answer 497

Pseudofractures - looser’s zones
- These are in the pubic rami, proximal femur, ulna and ribs

Poor cortico-medullary differentiation

Question 498

Rickets and Osteomalacia: Investigations - Blood results (3)

Answer 498

Decreased calcium
Decreased serum phosphate
Increased serum ALP

Question 499

Rickets and Osteomalacia: Management

Answer 499

D3 tablets with Calcitriol and Alfacalcidol

Question 500

Rickets and Osteomalacia: Management - D3 dose

Answer 500

400-800 IU per day after loading dose of 3200 IU per day for 12 weeks

Question 501

Rickets and Osteomalacia: Management - Considerations for Chronic Renal Disease (3)

Answer 501

Check 1-25 OH Vitamin D as may have high Vitamin D
Titrate treatment to PTH levels
Phosphate binders

Question 502

Osteogenesis Imperfecta

Answer 502

Group of genetic disorders mainly affecting the bone

Question 503

Osteogenesis Imperfecta: Genetic inheritance pattern

Answer 503

Autosomal Dominant Disorder

Question 504

Osteogenesis Imperfecta: Pathophysiology

Answer 504

Defect of the maturation and organisation of Type I collagen

Question 505

Osteogenesis Imperfecta: Examples of Autosomal Dominant Mutations (2)

Answer 505

COL1A1
COL1A2

Question 506

Osteogenesis Imperfecta: Clinical presentation - Autosomal dominant type (5)

Answer 506

Multiple fragility fractures of childhood
Short stature
Blue sclerae
Dentinogenesis imperfecta
Loss of hearing

Question 507

Osteogenesis Imperfecta: Clinical presentation - Autosomal recessive

Answer 507

Fatal in the perinatal period or associated with spinal deformity

Question 508

Osteogenesis Imperfecta: Investigation

Answer 508

X-ray

Question 509

Osteogenesis Imperfecta: Investigations - Appearance on X-ray

Answer 509

Bones are thin with thin cortices and osteopenic

Question 510

Osteogenesis Imperfecta: Management