w11 fractures

Question 1

what is a fracture

Answer 1

a disruption or break in the continuity of the structure of bone

Question 2

what is an open fracture

Answer 2

skin is broken, exposing the bone and causing soft tissue injury

Question 3

what is a closed fracture

Answer 3

the skin has not been ruptured and remains intact

Question 4

complete fracture

Answer 4

if the break is completely through the bone

Question 5

incomplete fracture

Answer 5

fracture occurs partly across a bone shaft but the bone is still in one piece (non-displaced)
-incomplete fracture is often the result of bending or crushing forces applied to a bone

Question 6

displaced fracture

Answer 6

two ends of the broken bone are separated from one another and out of their normal position
-displaced fractures are usually comminuted (more than two fragments) or oblique

Question 7

nondisplaced fracture

Answer 7

the periosteum is intact across the fracture and the bone is still in alignment
-usually are transverse, spiral, or greenstick

Question 8

what are the clinical manifestations of a fracture?

Answer 8

immediate localized pain, decreased function, and inability to bear weight on or use the affected part

• pt guards and protects the extremity against movement
• moving may damage the soft tissue and convert a closed fracture to an open fracture or create further injury to adjacent neuro-vascular structures

Question 9

1. fracture hematoma

Answer 9

when a fracture occurs bleeding creates a hematoma which surrounds the ends of the fragments

• the hematoma is extravasated blood that changes from a liquid to a semisold clot
• this hematoma occurs in the initial 72 hours after injury

Question 10

2. granulation tissue

Answer 10

• active phagocytosis absorb the products of local necrosis
• the hematoma converts to granulation tissues
• granulation tissue consists of new blood vessels, fibroblasts, and osteoblasts and produces the basis for new bone structure called osteoid during 3-14 days after injury

Question 11

3. callus formation

Answer 11

• as minerals (calcium, phosphorus, and magnesium) and new bone matrix are deposited in the osteoid, an unorganized network of bone is formed that is woven about the fracture parts
• callus is composed primarily of cartilage, osteoblasts, calcium, and phosphorus
• appears by the end of the second week after injury
• evidence of callus formation can be verified by radiography.

Question 12

4. ossification

Answer 12

Ossification of the callus occurs from 3 weeks to 6 months after the fracture and continues until the fracture has healed

• callus ossification is sufficient to prevent movement at the fracture site when the bones are gently stressed
• fracture is still evident on a radiograph
• during this stage of clinical union, the patient may be allowed limited mobility or the cast may be removed

Question 13

5. consolidation

Answer 13

as callus continues to develop distance between bone fragments diminishes and eventually closes

• ossification continues during this stage
• can occur up to one year following injury

Question 14

6. remodelling

Answer 14

• excess bone tissue is reabsorbed in the final stage of bone healing and union is completed
• gradual return of the injured bone to its pre injury structural strength and shape occurs
• bone remodels in response to physical landings stress of Wolff’s law
• weight bearing is gradually introduced
• new bone is deposited in Estes subjected to stress and resorbed at areas where there is little stress

Question 15

problems w/ fracture healing- delayed union

Answer 15

Fracture healing progresses more slowly than expected; healing eventually occurs

Question 16

problems w/ fracture healing-nonunion

Answer 16

Fracture fails to heal properly despite treatment; no radiographic evidence of callus formation

Question 17

problems w/ fracture healing- malunion

Answer 17

Fracture heals in expected time but in unsatisfactory position, possibly resulting in deformity or dysfunction

Question 18

problems w/ fracture healing- angulation

Answer 18

Fracture heals in abnormal position in relation to midline of structure (type of malunion)

Question 19

problems w/ fracture healing- pseudoarthrosis

Answer 19

Type of nonunion occurring at fracture site in which a false joint is formed with abnormal movement at site

Question 20

problems w/ fracture healing- refracture

Answer 20

New fracture occurs at original fracture site

Question 21

problems w/ fracture healing-myositis ossificans

Answer 21

-Deposition of calcium in muscle tissue at the site of significant blunt muscle trauma or repeated muscle injury

Question 22

what are the goals of fracture treatment

Answer 22

1) anatomical realignment of bone fragments (reduction)
2) immobilization to maintain realignment
3) restoration of normal or near-normal function of the injured part

Question 23

what is closed reduction

Answer 23

• non surgical manual realignment of bone fragments to their previous anatomical position
• traction and counetrtraction are manually applied to the bone to restore position, length and alignment
• perform under local or general anaesthesia

Question 24

what is open reduction

Answer 24

• correction of bone alignment through a surgical incision
• often includes internal fixation of the fracture with the use of wires, screws, pins, plates, intramedullary rods, or nails

Question 24

what is open reduction

Answer 24

• correction of bone alignment through a surgical incision
• often includes internal fixation of the fracture with the use of wires, screws, pins, plates, intramedullary rods, or nails

Question 25

disadvantage of open reduction

Answer 25

-infection, complications associated w/ anaesthesia, and the effect of pre-existing medical conditions (e.g., diabetes)

Question 26

what is traction

Answer 26

the application of a pulling force to an injured or disease part of the body/extremity

Question 27

what is counetrtraction?

Answer 27

pulls in the opposite direction

Question 28

why is traction used

Answer 28

1. prevent/reduce pain and muscle spasms associated w/ low back pain or coeval sprain (whiplash)
2. immobilize a joint or part of the body
3. reduce a fracture or dislocation
4. treat a pathological joint condition (e.g., tumour infection)
5. provides immobilization to prevent soft tissue damage
6. promote active/passive exercise
7. expands a joint space during arthroscopic procedures
8. expand a joint space before major joint reconstruction

Question 29

skin traction

Answer 29

used for short term treatments (48-72r hrs) until skeletal traction or surgery is possible
Tape, boots, or splints are applied directly to the skin to maintain alignment, assist in reduction, and help diminish muscle spasms in the injured extremity

Question 30

a buck traction boot

Answer 30

t is a type of skin traction used to immobilize a fracture, prevent hip flexion contractures, and reduce muscle spasms

Question 31

skeletal traction

Answer 31

• used for longer periods
• used to align injured bones and joints or to treat contractures and congenital hip dysplasia
• provides a long-term pull that keeps the injured bones and joints aligned

Question 32

what is the weight for skeletal traction

Answer 32

ranges from 2-20kg

-too much weight can result in delayed union or nonunion

Question 33

what is the weight for skin traction

Answer 33

2.3-4.5kg

Question 34

what is the priority assessment for skin traction?

Answer 34

skin is a priority since pressure points and skin breakdown develop quickly
-asses every 2-4 hours

Question 35

what is the disadvantage of skeletal traction

Answer 35

risk for infection in the area of the bone where the skeletal pin has been inserted and the consequences of prolonged immobility

Question 36

a cast

Answer 36

a temporary circumferential immobilization device

• common followed closed reduction
• allows pt to perform ALD’S while providing sufficient immobilization to ensure stability

Question 37

external fixation

Answer 37

• is a metallic device composed of metal pens that are inserted into the bone and attached to external rods to stabilize the fracture while it heals
• assessment for pin loosening and infection is critical
• indicated in closed fractures, complex fractures with extensive soft tissue damage, correction of body defects (congenital) nonunion or malunion and limb lengthening
• attached directly to the bones by percutaneous transfixing pins or wires

Question 38

why do we use external fixation

Answer 38

• used in attempt to salvage extremities that otherwise might require amputation
• it is long-term

Question 39

assessments for external fixation

Answer 39

• assessment for pin loosening and infection is critical

- infection is signalled by exudate, erythema, tenderness and pain -may need to remove the device

Question 40

how do we care for external pin fixation

Answer 40

half-strength hydrogen peroxide w/ normal saline

Question 41

internal fixation

Answer 41

internal fixation devices (pins, plates, intramedullary rods, metal and bioabsorbale screws) are surgically inserted at the time of realignment
-are biologically inert and made from stainless steel, vitallium, or titanium

Question 42

fractures can be classified as

Answer 42

• open or close
• complete or incomplete
• based on direction of fracture line
• displaced or nondisplaced

Question 43

neuro-vascular and musculoskeletal

Answer 43

they have the potential to cause changes in the neuro-vasucalr status of an injured extremity
-tramua, application of a cast, constructive dressing, poor positioning, and the physiological response to the traumatic injury can cause nerve or vascular damage usually distal to the injury

Question 44

assessments for neuro-vascualr

Answer 44

should include peripheral vascular assessment (color temp, cap refill, peripheral pulses, and edema)

• and a peripheral neurological assessment (sensation, motor function, and pain)
• combare both extremities to obtain accurate assessment

Question 45

what does pallor or cool to cold extremity below the injury could indicate

Answer 45

arterial insufficiency

Question 46

what dose a wam, cyanotic extremity indicate?

Answer 46

poor venous return

Question 47

normal cap refill is_?

Answer 47

less than 3 seconds

-indicates good arterial perfusion

Question 48

what dose a diminished or absent pulse distal to the injury indicate?

Answer 48

vascular dysfunction and insufficiency

Question 49

what are the two types of traction?

Answer 49

skin or skeletal

Question 50

what is the disadvantages to skeletal traction

Answer 50

disadvantages of skeletal traction are risk for infection in the area of the bone where the skeletal pin has been inserted and the consequences of prolonged immobility.

Question 51

when can u start weight bearing after u got a cast

Answer 51

24-72 hours after

Question 52

what should u not do with a cast

Answer 52

do not get a cast wet, remove any padding, insert any objects into the cast or weight bear for 48hrs (until dry)
-do not insert any objects or remove any paddings

Question 53

what should u do with a cast

Answer 53

apply ice directly over fracture for the first 24 hrs

• raise the extremity above the heart for the first 48hrs
• move joints above & below cast often

Question 54

reporting assessment w/ casts

Answer 54

increase pain, swelling w/ discolouration of toes/fingers

• pain during movement
• burning or tingling under cast
• sores or foul odours under cast

Question 55

petaling a cast

Answer 55

• once the cast is thoroughly dry, the edges may have to bepetalledto prevent skin irritation from rough edges and to prevent plaster debris from falling into the cast and causing irritation or pressure necrosis.
• several strips (petals) of tape are placed over the rough areas to ensure a smooth cast edge

Question 56

why should u never cover a a fresh plaster cast over w/ a blanket?

Answer 56

A fresh plaster cast should never be covered with a blanket because air cannot circulate and heat builds up in the cast.

Question 57

sling

Answer 57

• nurse must ensure that the axillary area is well padded to prevent skin excoriation and maceration associated w/ direct skin-to-skin contact
• sling should not put pressure on the posterior neck
• movement of the fingers (unless contraindicated) should be encouraged to enhance the pumping action of vascular and soft tissue structures to decrease edema

Question 58

Thomas/metal splint

Answer 58

for fractures of arm or leg and is used to immobilize the injured limb
-consists of a ring at one end to fit around the upper arm or leg and two metal shafts extending down the sides of the limb in a long U w/ a crosspiece at the bottom where traction is applied

Question 59

peripheral vascular assessment consists of

Answer 59

colour, temperature, cap refill, peripheral pulses and edema

Question 60

peripheral neurological assessment include

Answer 60

sensation, motor function and pain

-both extremities are compared to obtain an accurate assessment

Question 61

what are the complications of immobility

Answer 61

DVT

• infection
• compartment syndrome
• pulmonary embolism

Question 62

what is compartment syndrome?

Answer 62

condition in which swelling and increased pressure w/in a limited space (a compartment) press on and compromise in the function of blood vessels, nerves, and tendons that run through that compartment
-classified as acute, subacute, or chronic

Question 63

what are the causes compartment syndrome

Answer 63

1. decreased compartment size resulting from restrictive dressing, splints, casts, excessive traction or premature closure of fascia
2. increased compartment contents r/t bleeding, edema, chemical response to snakebite or intravenous infiltration

Question 64

infection

Answer 64

• high incidence for infections w/ open fractures and soft tissue injuries
• tetanus
• osetemoyelitis

Question 65

DVT

Answer 65

veins of lower extremities and the pelvis are highly susceptible to thrombus formation after a fracture

Question 66

manifestations of DVT

Answer 66

unilateral leg edema, pain, tenderness on palpation, warm skin, erythema, dilated superficial veins

Question 67

fat embolism syndrome

Answer 67

characterized by the prescence of systemic fat globules from fractures that are distributed into tissues and organs after a traumatic skeletal injury

Question 68

manifestations of fat embolism syndrome

Answer 68

chest pain, tachypnea, cyansosis, dyspnea, apprehension, tachycardia, and decrease Paco2

Question 69

what are the 6 p’s

Answer 69

paresthesia
pressure (increase pressure in compartment)
paralysis: loss of function
pain: distal to injury & not relieved by opioids & pain on passive stretch of muscle travelling through compartment
pallor-coolness and loss of normal colour of extremity
pulselessnes- diminished/absent peripheral pulses
*need to be immediately reported

Question 70

do we elevated a limb in compartment syndrome?

Answer 70

should never be elevated above the heart level

• elevation may raise venous pressure and slow arterial perfusion
• keep pt NPO and don’t put ice bc it cause vasoconstriction and worsen

Question 71

cold compress and compartment syndrome?

Answer 71

application of cold compress may result in vasoconstriction and may exacerbate compartment syndrome

Question 72

pulmonary embolisms s/s

Answer 72

chest pain
dyspnea
can be slow or sudden
hemoptysis (20%)
-cough, pleuritic chest, crackles, fever
-sudden change in mental status as a result of hypoxemia
-massive emboli may produce abrupt hypotension, pallor, hypoxemia
-chest pain may not be present
-ecg may indicate tachycardia and right ventricular strain
-medium size emboli often cause pleuritic chest pain, dyspnea, slight fever, productive cough w/ blood-streaked sputum
-tachycardia and pleural friction rub

Question 73

nursing care for PE

Answer 73

bed rest, semi-fowler’s
-IV line for medication and fluid therapy
-oxygen therapy as ordered
-careful monitoring of vital signs, cardiac dysrhythmia
-abgs, Lund sounds
monitor aPTT and INR
assessing for complications of anticoagulant therapy
hypoxia, hypotensions
-coughing and deep breathing should be encouraged
-provide oxygen N/P or simple mask

Question 74

why should we reposition the pt who has PE as little as possible?

Answer 74

The patient should be repositioned as little as possible before fracture immobilization or stabilization because of the danger of dislodging more fat droplets into the general circulation