Fracture,types and its management-MSN...
2,087 views
50 slides
Apr 06, 2024
Slide 1 of 50
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
About This Presentation
Definition
types
causes
sign and symptoms
treatment
nursing care
Slide Content
FRACTURE
DEPT. OF MEDICAL SURGICAL
NURSING
DEPT. OF MEDICAL SURGICAL
NURSING
LEARNINGOBJECTIVES
At the end of the class the students will be able to;
Define fracture
Enlist the causes
List out the types
Discuss the clinical manifestations
Enumerate the diagnostic measures
Explain the management
Describe the complications
At the end of the class the students will be able to;
Define fracture
Enlist the causes
List out the types
Discuss the clinical manifestations
Enumerate the diagnostic measures
Explain the management
Describe the complications
DEFINITION
“A fracture is a disruption or break in the
continuity of the structure of bone.”
“A fracture is a disruption or break in the
continuity of the structure of bone.”
CAUSES
Trauma –RTA , falls, blunt injuries etc.
Pathologic fracture -Secondary to some
diseases like
Osteoporosis
Osteomalacia
Cancer
Other bone infections
Long use of corticosteroids
Trauma –RTA , falls, blunt injuries etc.
Pathologic fracture -Secondary to some
diseases like
Osteoporosis
Osteomalacia
Cancer
Other bone infections
Long use of corticosteroids
Old age
Occupation –steel industries, car racer etc.
Occupation –steel industries, car racer etc.
CLASSIFICATION
Open and closed fracture
Complete and incomplete facture
Classification according to types
Open and closed fracture
Complete and incomplete facture
Classification according to types
COMPLETEFRACTURE
1.Simple fracture-The wound is non communicating
between skin and bone.
2.Open (compound) fracture-The wound is
communicating between skin and bone.
3.Complicated fracture-Along with the fracture, there is
associated injury to internal structure.
4.Comminutedfractures-A fracture with more than two
fragments.
1.Simple fracture-The wound is non communicating
between skin and bone.
2.Open (compound) fracture-The wound is
communicating between skin and bone.
3.Complicated fracture-Along with the fracture, there is
associated injury to internal structure.
4.Comminutedfractures-A fracture with more than two
fragments.
1.Linear fracture-Fracture line is linear to the long axis of
the bone.
2.Transverse fracture-Fracture line is perpendicular to the
long axis of the bone.
3.Oblique fractures-Fracture line is oblique at 45 to the
long axis of the bone.
4.Spiral fracture -Fracture line encircles the shaft of the
bone like a spiral.
5.Impacted fracture-Fractures fragments are pushed into
each other i.e.oneoverrides the other fragment.
the bone.
2.Transverse fracture-Fracture line is perpendicular to the
long axis of the bone.
3.Oblique fractures-Fracture line is oblique at 45 to the
long axis of the bone.
4.Spiral fracture -Fracture line encircles the shaft of the
bone like a spiral.
5.Impacted fracture-Fractures fragments are pushed into
each other i.e.oneoverrides the other fragment.
1.Pathological fractures-Fracture of appoint in the bone
weakened by a disease.
2.Avulsion fracture-Fracture of the bone at the site of
attachment of tendons or ligaments due to strong
pulling force.
3.EXTRACAPSULAR a fracture outside the joint capsule
and INTRACAPSULAR a fracture within the joint capsule.
weakened by a disease.
2.Avulsion fracture-Fracture of the bone at the site of
attachment of tendons or ligaments due to strong
pulling force.
3.EXTRACAPSULAR a fracture outside the joint capsule
and INTRACAPSULAR a fracture within the joint capsule.
INCOMPLETEFRACTURE
1.Greenstick fractures –Break on one cortex of the bone
with splintering of bone surface.
2.Torus fracture –Buckling of cortex.
3.Bowing fractures-A fracture with bending of bone.
1.Greenstick fractures –Break on one cortex of the bone
with splintering of bone surface.
2.Torus fracture –Buckling of cortex.
3.Bowing fractures-A fracture with bending of bone.
1.Stress fractures-These are small or micro-fractures
resulting from repeated stress during playing or exercise
as jogging or running.
2.Transchondrialfracture-Separation of articularcartilage
from main shaft of the bone.
3.Depressed fracture-Broken parts of the bone are driven
inwards. An example is skull fracture.
resulting from repeated stress during playing or exercise
as jogging or running.
2.Transchondrialfracture-Separation of articularcartilage
from main shaft of the bone.
3.Depressed fracture-Broken parts of the bone are driven
inwards. An example is skull fracture.
TYPES
TYPES
PATHOPHYSIOLOGY
Due to any etiology(crushing movement)
Fracture occurs , muscle that were attached to
bone are disrupted and cause spasm
Proximal portion of bone remains in place, the
distal portion can become displaced in response to
both causative force & spasm in the associated
muscles
Due to any etiology(crushing movement)
Fracture occurs , muscle that were attached to
bone are disrupted and cause spasm
Proximal portion of bone remains in place, the
distal portion can become displaced in response to
both causative force & spasm in the associated
muscles
In addition, the periosteumand blood vessels in the
cortex and marrow are disrupted
Soft tissue damage occurs, leads to bleeding and
formation of hematoma between the fracture
fragment and beneath the periosteum
Bone tissue surroundings the fracture site dies,
creating an intense inflammatory response
cortex and marrow are disrupted
Soft tissue damage occurs, leads to bleeding and
formation of hematoma between the fracture
fragment and beneath the periosteum
Bone tissue surroundings the fracture site dies,
creating an intense inflammatory response
release chemical mediators (histamins,
prostaglandins )
Resulting in vasodilation, edema, pain, loss of
function, leukocytes and infiltration of WBC
prostaglandins )
Resulting in vasodilation, edema, pain, loss of
function, leukocytes and infiltration of WBC
CLINICALMANIFESTATIONS
1.Pain and tendernssat the site of a fracture-
pain is serve, excruciating and increased on
movement . pain is caused by swelling at the
site putting pressure on the sensory nerves,
muscle spasms and damage to the periosteum
2.Swelling and oedema of the surrounding tissue-
There is swelling and oedema due to disruption
of soft tissues or bleeding into the surrounding
tissue producing the risk of acute compartment
syndrome.
1.Pain and tendernssat the site of a fracture-
pain is serve, excruciating and increased on
movement . pain is caused by swelling at the
site putting pressure on the sensory nerves,
muscle spasms and damage to the periosteum
2.Swelling and oedema of the surrounding tissue-
There is swelling and oedema due to disruption
of soft tissues or bleeding into the surrounding
tissue producing the risk of acute compartment
syndrome.
Increased temperature or warmth-Due to fracture, there
is increased blood flow to the part involved.
Loss of function-Due to disruption of the bone, there is
loss of function of the part involved.
Deformity due to alteration in the shape and length-In a
fracture, there is abnormally in the shape and position
of bone because the muscles pull or displace the
fragments into an abnormal position
is increased blood flow to the part involved.
Loss of function-Due to disruption of the bone, there is
loss of function of the part involved.
Deformity due to alteration in the shape and length-In a
fracture, there is abnormally in the shape and position
of bone because the muscles pull or displace the
fragments into an abnormal position
Crepitus(grating sensation)-A crepitusor grating
sensation at the site is produced by grating or
crunching together of the broken fragments. The
crepitusis palpable as crushing or abnormal sensation
Involvement of surrounding tissue-Ecchymosisof skin
surrounding the injured area , impairment or loss of
sensation or paralysis distal to injury due to entrapment
of nerve and infection occur as associated features of
the fractures.
Blood loss or shock-Hypovolemic(due to blood loss) or
neurogenicshock due to pain can occur.
sensation at the site is produced by grating or
crunching together of the broken fragments. The
crepitusis palpable as crushing or abnormal sensation
Involvement of surrounding tissue-Ecchymosisof skin
surrounding the injured area , impairment or loss of
sensation or paralysis distal to injury due to entrapment
of nerve and infection occur as associated features of
the fractures.
Blood loss or shock-Hypovolemic(due to blood loss) or
neurogenicshock due to pain can occur.
DIAGNOSIS
History and physical examination
X –Ray
CT Scan
MRI
History and physical examination
X –Ray
CT Scan
MRI
FRACTUREHEALING
Fracture hematoma: when a fracture occurs, bleeding
creates a hematoma, which surrounds the ends of the
fragments. (within 72 hours)
Granulation tissue: active phagocytosisabsorbs the
products of local necrosis. The hematoma converts to
granulation tissue. Granulation tissue produces the basis
for new bone substance called osteoid( days 3 to 14 )
Callus formation: As minerals and new bone matrix are
deposited in the osteoid, an unorganized network of bone
is formed. It usually appears by the end of the second
week after injury. Evidence of callus formation can be
verified by x-ray.
Fracture hematoma: when a fracture occurs, bleeding
creates a hematoma, which surrounds the ends of the
fragments. (within 72 hours)
Granulation tissue: active phagocytosisabsorbs the
products of local necrosis. The hematoma converts to
granulation tissue. Granulation tissue produces the basis
for new bone substance called osteoid( days 3 to 14 )
Callus formation: As minerals and new bone matrix are
deposited in the osteoid, an unorganized network of bone
is formed. It usually appears by the end of the second
week after injury. Evidence of callus formation can be
verified by x-ray.
Ossification : Ossification of the callus occurs from 3
weeks to 6 months after the fracture and continues until
the fracture has healed. During this stage of clinical
union the patient may be allowed limited mobility or the
cast may be removed.
Consolidation : As callus continues to develop, the
distance between bone fragments diminishes and
eventually closes. This stage is called consolidation, and
ossification continues. It can be equated with radiologic
union.
weeks to 6 months after the fracture and continues until
the fracture has healed. During this stage of clinical
union the patient may be allowed limited mobility or the
cast may be removed.
Consolidation : As callus continues to develop, the
distance between bone fragments diminishes and
eventually closes. This stage is called consolidation, and
ossification continues. It can be equated with radiologic
union.
Remodeling: 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. Radiologic union
occurs when there is x-ray evidence of complete bony
union. This phase can occur up to a year following
injury.
final stage of bone healing, and union is completed.
Gradual return of the injured bone to its pre injury
structural strength and shape occurs. Radiologic union
occurs when there is x-ray evidence of complete bony
union. This phase can occur up to a year following
injury.
MANAGEMENT
Goals
Anatomic realignment of bone
Immobilization to maintain
realignment
Restoration of normal to near normal function of
the injured part
Goals
Anatomic realignment of bone
Immobilization to maintain
realignment
Restoration of normal to near normal function of
the injured part
Treatment Of Fracture Phase
I: Emergency care Phase
II: Definitive care Phase
III: Rehabilitation
I: Emergency care Phase
II: Definitive care Phase
III: Rehabilitation
Phase I: Emergency care
• Begins at the site of the accident.
• It consists of ‘splint them where they lie’.
• Begins at the site of the accident.
• It consists of ‘splint them where they lie’.
Closed fracture
• Before splinting remove any ring or bangles worn
by the patient.
• Almost any available object( for eg: folded news
paper, magazine, rigid cardboard, stick, umbrella,
pillow etc.) can be used for splinting at the site of
the accident.
• Before splinting remove any ring or bangles worn
by the patient.
• Almost any available object( for eg: folded news
paper, magazine, rigid cardboard, stick, umbrella,
pillow etc.) can be used for splinting at the site of
the accident.
OPENFRACTURE
• The bleeding from the wound is stopped by
applying firm pressure using a clean piece of cloth.
• Circular bandage can apply proximal to the wound
in order to stop bleeding.
• If the wound is very dirty, it is washed with clean
tap water and covered with a clean cloth.
• The fracture is splinted
• The bleeding from the wound is stopped by
applying firm pressure using a clean piece of cloth.
• Circular bandage can apply proximal to the wound
in order to stop bleeding.
• If the wound is very dirty, it is washed with clean
tap water and covered with a clean cloth.
• The fracture is splinted
INTHEEMERGENCY DEPARTMENT
• Basic life support
• Bleeding is recognized and stopped by local
pressure.
• Wooden plank, Cramer-wire splint, Thomas’
splint, inflatable splint are some of the splints used
in emergency department.
• After emergency care is provided , suitable
radiological and other investigations are carried out.
• Basic life support
• Bleeding is recognized and stopped by local
pressure.
• Wooden plank, Cramer-wire splint, Thomas’
splint, inflatable splint are some of the splints used
in emergency department.
• After emergency care is provided , suitable
radiological and other investigations are carried out.
FOROPENFRACTURE
• Wound care
• Prophylactic antibiotics: Cephalexinis a good
broad spectrum antibiotic for this purpose.
• In serious compound fractures, a combination of
third generation cephalosporinsand an amino-
glycoside is preferred.
• Tetanus prophylaxis
• Analgesics to be given parentrallyto make the
patient comfortable.
• Wound care
• Prophylactic antibiotics: Cephalexinis a good
broad spectrum antibiotic for this purpose.
• In serious compound fractures, a combination of
third generation cephalosporinsand an amino-
glycoside is preferred.
• Tetanus prophylaxis
• Analgesics to be given parentrallyto make the
patient comfortable.
PHASEII-
Definitive care The aim of treatment is rehabilitation
of the limb to pre-injury status.
• Anatomic realignment of bone
fragments(reduction)
• Immobilization to maintain realignment
• Restoration of normal or near normal function of
the injured part
Definitive care The aim of treatment is rehabilitation
of the limb to pre-injury status.
• Anatomic realignment of bone
fragments(reduction)
• Immobilization to maintain realignment
• Restoration of normal or near normal function of
the injured part
METHODSOFTREATMENT
Not all fractures need all three of these treatment.
• Treatment by functional use of the limb: Some
fractures (eg: fractured ribs, scapula) need no
reduction or immobilization. These fractures unite
despite functional use of the body part. Analgesics
are needed for the initial few days.
• Treatment by immobilization : Fractures without
significant displacement or fractures where the
displacement is of no concern are treated this way.
Not all fractures need all three of these treatment.
• Treatment by functional use of the limb: Some
fractures (eg: fractured ribs, scapula) need no
reduction or immobilization. These fractures unite
despite functional use of the body part. Analgesics
are needed for the initial few days.
• Treatment by immobilization : Fractures without
significant displacement or fractures where the
displacement is of no concern are treated this way.
Treatment by reduction followed by immobilization:
It is required for most displaced fractures. These
otherwise result in deformity, shortening etc.
• Open reduction and internal fixation: Some
fractures , such as intra-articularfractures, are best
treated by open reduction and internal fixation.
It is required for most displaced fractures. These
otherwise result in deformity, shortening etc.
• Open reduction and internal fixation: Some
fractures , such as intra-articularfractures, are best
treated by open reduction and internal fixation.
Fracture reduction Reductionof a fracture can be
carried out by following methods
Closed reduction
Open reduction •
Continuous traction
carried out by following methods
Closed reduction
Open reduction •
Continuous traction
FRACTUREREDUCTION
Closed reduction
it is the non surgical reduction.
under local or general anesthesia.
Open reduction
surgical
ORIF
OREF
Closed reduction
it is the non surgical reduction.
under local or general anesthesia.
Open reduction
surgical
ORIF
OREF
OREF
IMMOBILIZATION
Casts
Splints
tractions
Casts
Splints
tractions
ORIF
DRUGTHERAPY
Muscle relaxants
Analgesics
Prophylactic antibiotics
Tetanus immunization
Surgical debridement and irrigation
Muscle relaxants
Analgesics
Prophylactic antibiotics
Tetanus immunization
Surgical debridement and irrigation
NUTRITIONAL
High protein
Vitamins minerals
High fluid intake
Small and frequent diet
Avoid constipation
High protein
Vitamins minerals
High fluid intake
Small and frequent diet
Avoid constipation
STAGESOFBONEHEALING
Fracture hematoma –72 hours of injury
Granulation tissue –3 to 14 days
Callus formation –end of 2
nd
week
Ossification –3 weeks to 6 months, clinical
union, cast can be removed
Consolidation –radiological union
Remodeling –up to one year
Fracture hematoma –72 hours of injury
Granulation tissue –3 to 14 days
Callus formation –end of 2
nd
week
Ossification –3 weeks to 6 months, clinical
union, cast can be removed
Consolidation –radiological union
Remodeling –up to one year
COMPLICATION
Delayed union
Nonunion
Malunion
Angulation
Pseudoarthrosis
Refracture
Myositis ossificans
Compartment syndrome
Delayed union
Nonunion
Malunion
Angulation
Pseudoarthrosis
Refracture
Myositis ossificans
Compartment syndrome
NURSINGCARE
1.increased risk of hypovolemia and shock related to trauma and
bleeding.
2. Increased risk of bone inflammation related to open fracture.
3. Increased risk of fat embolism related to fracture of the long
bones.
4. Increased risk of severe fluid, electrolyte, and metabolic
imbalances related to injury or inflammation.
5. Pain and immobility , related to diagnosis of fracture.
6. Increased risk of respiratory, cardiovascular, bowel, and skin
complications related to a long period of immobility.
7. Anxiety related to the symptoms of disease and fear of the
unknown.
1.increased risk of hypovolemia and shock related to trauma and
bleeding.
2. Increased risk of bone inflammation related to open fracture.
3. Increased risk of fat embolism related to fracture of the long
bones.
4. Increased risk of severe fluid, electrolyte, and metabolic
imbalances related to injury or inflammation.
5. Pain and immobility , related to diagnosis of fracture.
6. Increased risk of respiratory, cardiovascular, bowel, and skin
complications related to a long period of immobility.
7. Anxiety related to the symptoms of disease and fear of the
unknown.
SUMMARY
In this class we discussed the :-
Definition of fracture
Causes of fracture
Types of fracture
Clinical manifestations of fracture
Diagnostic measures of fracture
Management of fracture
Complications of fracture
In this class we discussed the :-
Definition of fracture
Causes of fracture
Types of fracture
Clinical manifestations of fracture
Diagnostic measures of fracture
Management of fracture
Complications of fracture
BIBLIOGRAPHY
Lippincott “Medical surgical nursing” 10th
edition
Joyce M Black ” Medical surgical nursing”
Brunner And Suddharth “Medical surgical
nursing”
Lippincott “Medical surgical nursing” 10th
edition
Joyce M Black ” Medical surgical nursing”
Brunner And Suddharth “Medical surgical
nursing”
THANK YOU!!!
Categories
HealthcareDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 2,087
- Slides 50
- Age 605 days
Related Slideshows
36
Clinical approach Dyspnoea A simple and practical approach.pptx
ShajahanPS
25 views
238
Cancer Awareness therapy for public by Dr Kanhu Charan Patro
kanhucpatro
24 views
41
Prof Satyadas Memorial oration Kozhikode.pptx
ShajahanPS
20 views
26
Viral Conjunctivitis and it;s managment.pptx
ZaidAzhar
34 views
30
Essential Thrombocythemia 15 Years of Experience at the Hematology Department, Algies, Algeria.pdf
sbelakehal
30 views
10
Hypertension sign symptoms cmdt style with regime
androiddabest
31 views