Musculoskeletal injuries 1

Question 1

Stable fracture

Answer 1

The broken ends of the bone line up and are barely out of place.

Question 2

Open, compound fracture.

Answer 2

The skin may be pierced by the bone or by a blow that breaks the skin at the time of the fracture. The bone may or may not be visible in the wound.

Question 3

Transverse fracture.

Answer 3

This type of fracture has a horizontal fracture line.

Question 4

Oblique fracture.

Answer 4

This type of fracture has an angled pattern.

Question 5

Comminuted fracture.

Answer 5

In this type of fracture, the bone shatters into three or more pieces.

Question 6

Spiral fracture.

Answer 6

Complete fractures of long bones that result from a rotational force applied to the bone. Spiral fractures are usually the result of high energy trauma and are likely to be associated with displacement.

Question 7

Segmental fracture.

Answer 7

A fracture composed of at least two fracture lines that together isolate a segment of bone, usually a portion of the diaphysis of a long bone. This fracture pattern is frequently associated with high energy mechanism and devascularisation of the segmental fracture fragment(s) meaning these injuries are associated with increased morbidity and long term complications such as: delayed union, non-union and/or infection.

Question 8

Greenstick fracture

Answer 8

Incomplete fractures of long bones and are usually seen in young children, more commonly less than 10 years of age. They are commonly mid-diaphyseal, affecting the forearm and lower leg.

Question 9

Torus fractures (aka buckle fractures)

Answer 9

Incomplete fractures of the shaft of a long bone that is characterised by bulging of the cortex. They result from trabecular compression from an axial loading force along the long axis of the bone. They are usually seen in children, frequently involving the distal radial metaphysis.

Question 10

impacted fracture

Answer 10

the affected bone shatters and the resulting fragments are driven into the bone pieces.

Question 11

avulsion fracture

Answer 11

A bone fracture which occurs when a fragment of bone tears away from the main mass of bone as a result of physical trauma

Question 12

Valgus deformity

Answer 12

A condition in which the bone segment distal to a joint is angled outward (angled laterally, that is, away from the body’s midline).[

Question 13

Varus deformity

Answer 13

An inward angulation (medial angulation, that is, toward the body’s midline) of the distal segment of a bone or joint

Question 14

Salter-Harris Type I

Answer 14

fracture through the physeal plate (often not detected radiographically)

Question 15

Salter-Harris Type II

Answer 15

fracture through the metaphysis and physis (most common; up to 75% of all physeal fractures)

Question 16

Salter-Harris Type III

Answer 16

fracture through the epiphysis and physis

Question 17

Salter-Harris Type IV

Answer 17

fracture through the metaphysis, physis and epiphysis

Question 18

Salter-Harris Type V

Answer 18

crush injury involving part or all of the physis

Question 19

Compartment syndrome: definition

Answer 19

Muscle and nerve ischemia which being caused when the tissue pressure within a closed muscle compartment exceeds the perfusion pressure. It typically occurs subsequent to a traumatic event, most commonly a fracture.

Question 20

Compartment syndrome: S/Sx (6Ps)

Answer 20

Pain
Parasthesia
Pallor
Paralysis
Pulselessness
Poikiothermia (cold)

Question 21

Spine: anatomy

Answer 21

• 7 cervical (neck)
• 12 thoracic (upper back)
• 5 lumbar (lower back)
• 5 sacral* (sacrum–located within the pelvis) –> fused
• coccygeal* (coccyx–located within the pelvis)

Question 22

Anterior longitudinal ligament (spine): definition

Answer 22

Runs anterior to the bony spine from C1 down nearly to the sacrum, and limits hypertextension

Question 23

Posterior longitudinal ligament (spine): definition

Answer 23

Similar to the anterior ligament, this is thicker and runs posterior to the vertebral bodies and limits hyperflexion

Question 24

Ligamentum flavum (spine): definition

Answer 24

Runs between each transverse process

Question 25

Supraspinal ligament

Answer 25

Runs along the dorsal surface, bridging each of the spinous processes

Question 26

Anulus Fibrosis

Answer 26

surrounds the soft intervertebral discs

Question 27

Cervical strain

Answer 27

The most common, usually hyperflexion/extension injuries, also known as whiplash

Question 28

Cervical spondylosis

Answer 28

Over-use, wear and tear, of the intervertebral discs

Question 29

Cervical radiculopathy

Answer 29

Compression/irritation of the nerve roots, often involves pain radiating to the extremities (ie pinch nerves)

Question 30

Cervical fracture

Answer 30

Less common, but must not be missed

Question 31

Neck pain + HA/girdle pain

Answer 31

Giant cell arteritis (aka temporal arteritis), RA

Question 32

Neck pain + fever

Answer 32

malignancy, meningitis

Question 33

Neck pain + neuro signs

Answer 33

myelopathy, spinal cord injuries, carotid injury

Question 34

Neck pain + parasthesias

Answer 34

radiculopathy, MS

Question 35

L’Hermittes sign: definition

Answer 35

It is elicited with the neck flexed and causes an electrical sensation that runs down the back and into the limbs. The sensation can feel like it goes up or down the spine. It is generally considered uncomfortable.

Question 36

L’Hermittes sign: indication

Answer 36

Possible MS, and compression of the spinal cord in the neck from any cause such as cervical spondylosis, disc herniation, tumor, and Arnold-Chiari malformation

Question 37

Physical exam for neck pain/injury

Answer 37

1. Vertebral tenderness (palpate or percuss the spinous processes)
2. Paraspinal muscle tenderness
3. Neurological exam
4. Carotid exam
5. NEXUS
6. Spurlings’ maneuver

Question 38

Spurling’s maneuver/test

Answer 38

Turn head and apply axial load. Reproduction of sx ipsilateral side is positive.
A technique to determine if neck pain is the result of radiculopathy
*Never attempt in the case of suspected fracture

Question 39

NEXUS Criteria

Answer 39

National Emergency X-Ray Utilization Study

1. There is noposterior or midlinecervicaltenderness
2. There is no evidence of intoxication
3. The patient is alert and oriented to person, place, time, and event
4. There is nofocalneurological deficit
5. There are no painful distracting injuries (e.g., long bone fracture)

Question 40

Cervical spine imaging (plain films): swimmers

Answer 40

It shows C7

Question 41

Cervical spine imaging (plain films): odontoid

Answer 41

shot through the Pt’s open mouth

Question 42

Who needs radiographic studies of the cervical spine?

Indications for X-ray

Answer 42

1. Mental status less than alert or intoxicated
2. Reports neck pain
3. Midline neck tenderness
4. Neurologic signs and symptoms
5. Distracting injury (i.e. painful injuries elsewhere, e.g. extremity fractures)

Question 43

Criteria for excluding cervical spine fractures on a clinical basis

Answer 43

1. No neck pain
2. No neck tenderness on palpation
3. Having full, painless, active ROM of c-spine
4. No history of loss of consciousness, no mental status change, no neurologic deficit from neck injury
5. No distracting symptoms.
   If patient meets all these criteria, cervical spine injury is excluded on clinical basis and the cervical collar may be removed.

Question 44

A patient arrived at the ED on backboard and a cervical collar. He has a blood alcohol level of 0.2. He does not complain of any neck pain. Shoud he get a complete cervical series?

Answer 44

Yes, because he is intoxicated (ie may not feel the pain)

Question 45

An adequate spine series

Answer 45

An adequate spine series includes three views: a true lateral view (which must include all seven cervical vertebrae as well as the C7-T1 junction), an AP view, and an open-mouth odontoid view.
These three views do not require the patient to move his neck, and should be obtained without the removal of the cervical collar.

Question 46

For a Pt who receive neck imaging frequently, which organ may be affected

Answer 46

thyroid

Question 47

Why is a swimmer view is important?

Answer 47

All 7 cervical vertebrae and C7-T1 junction must be visualized because the cervicothoracic junction is a common place for traumatic injury.

Question 48

Cervical spine imaging: the advantages of CT

Answer 48

1. CT is excellent for characterizing fractures and identifying osseous compromise of the vertebral canal because of the absence of superimposition from the transverse view. The higher contrast resolution of CT also provides improved visualization of subtle fractures.
2. CT provides patient comfort by being able to reconstruct images in the axial, sagittal, coronal, and oblique planes from one patient positioning.

Question 49

Cervical spine imaging: the limitations of CT

Answer 49

1. difficult to identify those fractures oriented in axial plane (e.g. dens fractures).
2. unable to show ligamentous injuries.
3. relatively high costs.