Surgery: Upper Limb (Orthopedics) Flashcards

1
Q

(4) general types of fracture

(re to underlying bone pathology)

A
  • osteoporotic fracture → occurs with minimal trauma to the bone
  • pathological fracture → occurs with no trauma
  • stress fracture →when prolonged, unaccustomed activity with no specific trauma
  • usually, fractures occur with a significant trauma, when the underlying bone quality is normal
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2
Q

What’s that?

A

Stress fracture

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3
Q

What’s that?

A

Pathological fracture

(underlying abnormal bone structure)

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4
Q

Bone structure

A
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5
Q

What muscles insert at the humerus?

A
  • Pectoralis Major
  • Deltoid
  • Coracobrachialis

(insertion = attachment site that moves when the muscles contract; usually distal to the body)

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6
Q

What muscles the humerus is the origin of? (3)

A
  • Brachialis
  • Biceps
  • Brachioradialis

(origin = attachment site that doesn’t move when muscles contract; usually proximal to the body)

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7
Q

What nerves run along/close to the humerus?

A
  • Median and Ulnar→ run along the shaft (protected by muscles)
  • Radial Nerve → in direct contact along spiral groove;14 cm proximal to lateral epicondyle
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8
Q

Mode of injury and the resulting fracture

  • Direct Trauma
  • Indirect Trauma
A
  • Direct Trauma → transverse fracture
  • Indirect Trauma (arm wrestling) →spiral fracture
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9
Q

Mode of injury and the resulting fracture

  • Fall on outstretched hands or RTA
  • Minimal or no trauma
A
  • Fall on outstretched hands or RTA → high-velocity comminuted fractures
  • Minimal or no trauma → pathological fractures (osteoporosis or metastatic deposits)
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10
Q

Name tyes of fractures (picture)

A
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11
Q

What clinical examination of a suspected fracture should involve?

A
  • General Exam to assess for other associated injuries (ATLS protocol in polytrauma patients)
  • Specific examination of affected limb in isolated injury: examine joint above and below, assess overlying skin for laceration / compromise
  • Assess distal neurovascular compromise
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12
Q

What imaging techniques should we use to investigate fractures?

A
  • Plain X-rays usually satisfactory AP and lateral views
  • Very rarely CT scan to identify anatomy in complex fractures
  • MR scan and bone scan in pathological fractures

(In pathological fractures blood workup to assess serum calcium levels and try to identify primary malignancy)

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13
Q

Initial fracture of upper limb management

A
  • Pain relief
  • Splintage in cuff and collar or broad arm sling
  • X-ray examination
  • Temporary splintage till definitive management can be planned by senior intervention
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14
Q

Definitive management of humeral fractures

A
  • Conservative
  • Splintage in Sugar Tong Humeral Brace
  • Regular monitoring with serial check x-rays
  • Adjustment of splint which can get loose as swelling reduces with time
  • Intervene surgically if satisfactory alignment is difficult to maintain
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15
Q

What’s a functional brace used for?

A

Functional brace → conservative treatment for humeral shaft fractures

  • Indications
  • indicated in vast majority of humeral shaft fractures

once swelling has reduced. Suitable for most mid-shaft humeral fractures

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16
Q

Criteria for functional humeral brace use

A

criteria for acceptable alignment include:

  • < 20° anterior angulation
  • < 30° varus / valgus angulation
  • < 3 cm shortening
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17
Q

What are definitive indications for surgery in a humeral fracture? (6)

A

Definite indications for surgical treatment:

  • Open fractures
  • Presence of neurovascular injury
  • Segmental fractures
  • Polytrauma
  • Floating elbow (when there is fracture of humerus as well as forearm) or floating shoulder (fracture humerus and fracture clavicle or scapula)
  • Adequate alignment is difficult to maintain (e.g. transverse fractures)
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18
Q

Intramedullary Nailing

  • types (2)
  • indications (3)
  • disadvantages (as compared to plating)
A

Intramedullary Nailing

  • Can be done anterograde or retrograde
  • Indicated in cases with pathological fractures, segmental fractures and very osteoporotic fractures

Is inferior to plating in terms of union rate and complication rates

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19
Q

Compression plating

  • advantages compared to nailing
A

Compression plating

  • Method of choice for fixing humeral shaft fractures
  • Better union rate and lower complication rate compared with nailing
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20
Q

Complications of surgical treatment of the fractures (4)

A
  • Infection
  • Delayed union
  • Non- union
  • Nerve damage (radial nerve palsy)
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21
Q

How long does it take for the humeral fracture to heal?

A

8 - 10 weeks

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22
Q

What’s needed to be done in case of non-union?

A

Further surgery with internal fixation and bone grafting needed in cases with non-union

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23
Q

How most humeral shaft fractures are treated?

A

Conservatively → collar and cuff for three weeks

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24
Q

Which nerve involvement should be checked before and during treatment for humeral shaft fracture?

A

Radial nerve involvement

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25
Q

Management of the fracture of the clavicle

A

Conservative treatment

  • broad arm sling for 3 weeks
  • analgesia

*surgical treatment with ORIF is only needed when there is an open fracture or neurovascular compromise

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26
Q

What does the abbreviation ORIF mean?

A

Open Reduction Internal Fixation

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27
Q

What is a possible neurovascular compromise with fractures of the clavicle?

A

neurovascular compromise of a distal limb → rare but may damage: brachial plexus and subclavian artery

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28
Q

Presentation of a patient with a fracture of the humerus

A
  • pain
  • tenderness
  • swelling
  • deformity
  • inability to move the shoulder
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29
Q

Is neurovascular compromise common in the fractures of surgical neck of the humerus?

A

No, because these fractures are extracapsular → blood supply is not disturbed (avascular necrosis is rare)

30
Q

Is neurovascular compromise common in the fractures of anatomical neck of the humerus?

A

High risk of avascular necrosis

31
Q

What to assess with the fracture of the proximal humerus?

A

Deltoid sensation → to assess for axillary nerve injury

32
Q

What are (3) most common wrist&hand fractures?

A
  • Colles Fracture
  • Scaphoid Fracture
  • Boxer’s Fracture
33
Q

Wrist anatomy (bones)

A
34
Q

Anatomy of the hand (bones)

A
35
Q

Colle’s fracture

  • anatomical location and deformity
A

the distal end of the radius + dorsal angulation

36
Q

Colle’s fracture

  • mechanism of injury
  • common in what group of patients
A

Mechanism: following a FOOSH

Common group: women over 50 y old (osteoporosis)

37
Q

What’s that?

A

Colle’s fracture

38
Q

Management of Colle’s fractures

A
  • Reduction of the fracture under regional anaesthesia (Bier’s block) or LA (haematoma block) → to reverse deformities

*radiographs to confirm satisfactory reduction

  • Plaster backslap (from the elbow to metacarpophalangeal) for 6 weeks
39
Q

Possible complications of Colle’s fracture

A
  • carpal tunnel syndrome
  • mal-union → persistent dinner fork deformity
  • stiffness
  • rupture of extensor pollicis longus
40
Q

Indications for surgical management of Colle’s fracture

A
  • intra-articular involvement
  • failed reduction
  • mal-union
41
Q

Smith’s fracture

  • How does it look like?
  • Management
A
  • reverse Colle’s → anterior angulation and tilt

*it is uncommon

Management:

manipulation under anaesthesia and a plaster cast above the elbow for 6 weeks

42
Q

What is fractured in a Chauffeur’s fracture?

A

Fracture of radial styloid

43
Q

What’s most frequently fractured carpal bone?

A

Scaphoid

44
Q

Possible clinical findings in a scaphoid fracture (3)

A

Tender anatomical snuffbox may be the only sign

45
Q

What’s the danger with a scaphoid fracture?

A

Scaphoid has a retrograde blood supply ( enters via distal end) → a complete fracture may disturb a blood supply to proximal end → avascular necrosis

46
Q

What investigations to do for a suspected scaphoid fracture?

A
  • Four x-ray views (‘scaphoid series’)
  • it may not be visible at early stage

*variation in the choice of when and how to re-image for suspected scaphoid fracture. Repeat plain x-ray, isotope bone scans, CT and MRI are all used

(MRI as imaging as second line)

47
Q

When to suspect and how to manage a scaphoid fracture?

A
  • even with series of x-ray imaging, a scaphoid fracture may not be seen
  • therefore, suspect if there is tenderness over the anatomical snuffbox

Management:

  • apply scaphoid plaster (from the elbow to knuckles)
  • repeat x-ray at 2 weeks (bone may be needed) → if this show fracture → plaster cast remain for further 8 weeks
  • if the fracture has not united after 12 weeksinternal fixation is needed
48
Q

Complications of scaphoid fracture

A
  • Non-union
  • Malunion
  • Osteoarthritis
  • Scapho-lunate disassociation
  • Avascular necrosis due to interruption of blood supply by fracture
49
Q

What’s the most common metacarpal fracture?

A

Boxer’s fracture

50
Q

What’s Boxer’s fracture?

A
  • Fracture of the 5th metacarpal neck with palmar displacement of the metacarpal head
  • Transverse fracture after striking a hard object with a clenched fist, i.e. a punch
51
Q

Clinical features of Boxer’s fracture

A
52
Q

Management of a boxer’s fracture

A
  • if sustained in a fight consider other injuries
  • antibiotics for open wounds
  • x-ray should be examined for foreign bodies such as glass or teeth
  • most fractures will heal well with minimal immobilisation or splintage
  • Angulation of > 45 degrees or rotation of > 20 degrees may require operative fixation with percutaneous wires
  • T&O / Hand Clinic follow-up
53
Q
A
54
Q

Case 1

What is the initial management?

A

The initial management should be based on ATLS principles:

  • Acute control of airway (A), breathing (B), and circulation (C)
  • Prevention of hypoxia
  • Prevention of hypotension
  • A brief initial neurologic evaluation, including the Glasgow Coma Scale (GCS) (D), assessment of the pupils, and an evaluation for any focal deficit
  • Assessment of the cranium and face for external injuries
  • Evaluation of the spine for deformities and / or open abnormalities
  • Concomitant head-to-toe evaluation for other life- or limb-threatening injuries (E)
55
Q

How should you initially assess that arm clinically?

A
  • initial inspection → look for any open wounds, penetrating injuries or marked deformities
  • a quick but thorough neurovascular examination should be done and recorded
  • Any open wounds should be addressed (e.g. dressed, antibiotics, anti-tetanus cover etc.)
  • Analgesia or sedation should be given
  • The fracture should be reduced and stabilised with a back-slab immobilising the joint below (elbow) and above (shoulder)
  • A repeat neurovascular and radiological assessment should be made and recorded in the notes
56
Q

Case 1

How would the fracture be assessed (after initial/clinical examination)?

A

After clinical examination → the fracture should be assessed radiologically

  • Clear AP and lateral radiographs of the humerus pre and post-reduction would be taken
  • The Joint above and elbow would also be assessed both clinically and radiologically
57
Q

Case 1

Describe that fracture

A

This fracture is:

  • comminuted (more than one fragment)
  • transverse (fracture pattern)
  • 100% displaced (no end to end contact)
  • in the mid diaphyseal region of the left humerus
58
Q

Case 1

What would be definitive management?

A

Open reduction internal fixation (ORIF) with plate fixation (absolute stability-primary bone healing)

59
Q

Case 1

Is that the x - ray of ORIF with a plate fixation?

A

No

X-ray 2 shows an intramedullary nail fixation and this is NOT the optimal fixation method for the fracture from case 1

60
Q

Possible complications of nail fixation management

A
  • restriction of shoulder movements
  • risk of delayed union
  • rotator cuff violation /naruszenie/
  • adhesive capsulitis

Impairment of shoulder function with the antegrade interlocking nails could be because of impingement due to proximal migration of nail

61
Q

Case 2

  • What is the most likely metabolic or endocrine abnormality contributing to this patient’s presentation?
  • What other conditions should you consider?
A
  • osteoporosis
  • cancer → either metastatic or primary bone cancer
62
Q

How to investigate for osteoporosis and what value defines it?

A
  • To assess the actual bone mineral density → dual-energy X-ray absorptiometry (DEXA) scan is used
  • The DEXA scan looks at the hip and lumbar spine
  • If either have a T score of < -2.5 then treatment is recommended

T score

> -1.0 = normal

-1.0 to -2.5 = osteopaenia

< -2.5 = osteoporosis

63
Q

What is T score and what is Z score in DEXA scan?

A
  • T score: based on bone mass of young reference population
  • T score of -1.0 means bone mass of one standard deviation below that of young reference population
  • Z score is adjusted for age, gender and ethnic factors

T score

  • > -1.0 = normal
  • -1.0 to -2.5 = osteopaenia
  • < -2.5 = osteoporosis
64
Q

What other investigations would you perform?

A
  • Bloods: FBC, U+E, Calcium and 25 hydroxyvitamin D level

*Low 25 hydroxy vit D in patients sustaining low energy fractures needs further investigation

  • Dexa Scan (Dual Energy X-ray Absorptiometry)
  • CT scan to assess boney union
65
Q

Case 2

Can we consider conservative management only for this patient?

A

Conservative managemen

  • the patient is 80 years old and patient-specific risk factors need to be taken into consideration → possibly a number of co-morbidities that would make surgery extremely high risk
  • The activity level of the patient should also be considered → If the patient is a low demand patient, i.e. nursing home resident, then conservative management with regular analgesia and physiotherapy is an option
66
Q

Case 2

May this patient be considered for surgery?

A
  • patient has to fulfil certain criteria in order to be considered for surgical intervention
  • CT scan / radiographs and clinical examination must show signs of a painful non-union which is affecting the patient’s daily life
  • patient and patient’s family would need to be counselled on the risks of surgery and whether it is suitable
  • If the patient has minimal co-morbidities and is independent of all activities of daily living, surgical management by open reduction internal fixation using a locking plate construct may be offered
67
Q

Case 2

What impact such an injury could have on this patient. What assessments would you do and which agencies might you wish to consider involving?

A
  • This injury has a large impact on the patient’s life: there will be a long period (6-12 months) of rehabilitation. This may impact her independence and subsequent living situation
  • She will firstly need to be assessed by physiotherapy and occupational therapy (OT) to quantify her social needs

(Living adaptations and care packages will need to be introduced or re-evaluated)

  • Social workers liaise with physiotherapy, O.T and the family to create the best social and care package for the patient and her needs
68
Q

Case 3

Describe what you can see

A
  • fracture at the waist of the right scaphoid
  • showing signs of proximal pole sclerosis indicating avascular necrosis
69
Q

Why does avascular necrosis may occur with scaphoid fractures?

A
  • The blood supply to the scaphoid is retrograde → it comes from distal to proximal
  • Dorsal carpal branch of the radial artery provides 70% and superficial palmar branch of the radial artery provides 30%
  • If this blood supply is disrupted, the more proximal fracture has the highest non-union / AVN rate
70
Q

What can happen if a scaphoid fracture goes undiagnosed?

A
  • Undiagnosed and untreated scaphoid fractures can go into non- / malunion → increased risk of complications such as arthritis in the wrist and Scaphoid Non-Union Advanced Collapse (SNAC wrist) as the biomechanics of the wrist do not function properly
  • This will need more complex orthopaedic surgery and sometimes salvage procedures which carry a poor functional outcome
  • if it is patient’s dominant hand, it will cause issues with his grip strength and overall function
71
Q

Difference beteween Galeazzi and Monteggia fractures

A
  • Monteggia fracture → ulnar fracture with dislocation of radial head
  • Galeazzi → radial fracture with dislocation of distal radioulnar joint
72
Q

Management of:

  • Monteggia and Galeazzi fractures
A

Both → ORIF with plates or intramedullary nail