Trauma Notes PDF 2020

Summary

These notes cover trauma care, including initial assessment, airway management, and other topics relevant to emergency medicine.

Full Transcript

YEAR 5 2020
TRAUMA
NOTES
CONTENT TAKEN FROM ONLINE LEARNING MATERIAL PROVIDED
VIA VULA

SPECIAL THANKS TO NASTASJIA-LEIGH PILLAY FOR HER
ADDITIONS/ASSISTANCE

JESSICA ANDRAS (ANDJES003)
CONTENTS
INITIAL MANAGEMENT & ASSESSMENT........................................................................................3
EVALUATION OF THE C-SPINE.......................................................................................................9
PENETRATING NECK INJURY (PNI)............................................................................................... 19
PENETRATING THORACIC TRAUMA............................................................................................ 34
BLUNT THORACIC TRAUMA........................................................................................................ 37
PENETRATING ABDOMINAL TRAUMA......................................................................................... 52
BLUNT ABDOMINAL TRAUMA.................................................................................................... 57
VASCULAR TRAUMA................................................................................................................... 63
HEAD INJURIES........................................................................................................................... 67
BURNS....................................................................................................................................... 78
SHOCK....................................................................................................................................... 95
(MOST) ADDITIONAL IMAGE SOURCES..................................................................................... 101

2
INITIAL MANAGEMENT & ASSESSMENT
Concepts of the initial assessment

PRIMARY
RESUSCITATION RE-EVALUATION
SURVEY

DETAILED
DEFINITIVE
SECONDARY RE-EVALUATION
CARE
SURVEY

Even though ATLS teaches a stepwise approach of ABCDE, all these procedures are done
almost simultaneously, by various members of the team

Advanced Trauma Life Support (ATLS) principles and application
Standard precautions: Gown, gloves, shoe covers, goggle and face shield
Triage is done according to the ABCDEs and available resources:

Green: Walking wounded
Yellow & Orange: Stretcher cases
Red: Resuscitation

Quick simple way to assess patient in 10s
1. Identify yourself
2. Ask patient his/her name
3. Ask patient what happened

If patient is able to answer these 2 questions, it means the patient has a patent airway, sufficient
respiratory reserve to speak and a clear sensorium
If unable to answer → Move to initial primary survey
Rapid primary survey

A: Airway with C-spine protection
B: Assist patient with breathing
C: Circulation with haemorrhage control and fluid resuscitation
D: Disability (gross neurological picture of the patient)
E: Exposure/environment

3
Airway
Objective: Maintain patent airway while protecting the C-spine
Airways can be divided into temporary and definitive:
Initial manoeuvres (chin lift, jaw thrust) and oropharyngeal airway (i.e. Guedelle) are
employed to pre-oxygenate the patient = Temporary airways
Gold standard for definitive airway in trauma is oral endotracheal intubation, if that fails
then – surgical cricothyroidotomy or laryngeal mask to temporise
Tracheostomy is the other definitive airway, usually employed for long-term ventilation
ALWAYS PROTECT THE C-SPINE until it is cleared either by collar or head blocks
o It can only be cleared clinically in an awake patient with no distracting injuries OR
by CT scan (x-rays are only a screening modality)

Breathing
There are non-invasive and invasive ways of assisting the patient with breathing
Anticipate pitfalls such as equipment failure, inability to intubate, occult airway injury and
progressive loss of airway
Non-invasive: Supplemental oxygen (via nasal prongs or face mask), CPAP, Optiflow
Invasive: Mechanical ventilation
ABG: The arterial blood gas is the most important adjunct to gauge adequacy of ventilation

Circulation
Objective: Control bleeding and restore volume
Assess organ perfusion using: Level of consciousness, skin temperature and colour, pulse
rate and character, blood pressure, urine output and ABG
Stop/control bleeding! Use Damage Control surgery/resuscitation principles:
Restore volume
o MTP – Massive Transfusion Protocol → Giving patient packed cells (RBC’s), FFP and
platelets after 1-1.5l of crystalloid
o Coagulopathic patients may benefit from
tranexamic acid (PEG/MTP) within 3
hours from trauma
Permissive hypotension → Aim for SBP of
90mmHg EXCEPT when there are head injuries

Disability
Gross neurological assessment – GCS
Pupillary response to light
o Size
o Are they equally reactive?

Environment/Exposure
Undress patient fully
Log-roll to examine back (also PR and PVs)
4
 Be mindful of hypothermia (environment) because it leads to coagulopathy
o Inhibits clotting factors
Warm IV fluids and active warming of patient if necessary

Special considerations

Trauma in the elderly, paediatric trauma and pregnant women → Physiology is different
Athletes → Obvious signs of hypovolaemic shock are not there initially
Medications → Some drugs, such as β-blockers can mask the signs of hypovolaemic shock

Adjuncts of primary survey
1. Vital signs
2. ABG
3. Pulse oximeter and capnography
4. Urinary/gastric catheter unless contraindicated
5. Urinary output
6. ECG
7. Diagnostic tools
a. DPL – Diagnostic peritoneal lavage (mostly historical)
b. FAST – Focused abdominal sonogram in trauma + e(extended) FAST
ABG

NORMAL
pH 7.35-7.45
pCO2 4.5-6kPa or 32-48 mmHg
pO2 12-14kPa or 83-108 mmHg
BE -1-1
Lactate 96% of
injuries heal spontaneously)
o If a persistent leak is present, conservative treatment is continued for a further 5 – 7
days as above (majority heal by this time)
o Indications for delayed surgery are sepsis/abscess formation or persistence

30
 Active bleeding patients in shock in whom bleeding cannot be controlled in the emergency
room require immediate surgical management

Chest radiograph showing an abnormal ‘wide’ mediastinum with a retained missile → In a
stable patient this is an indication for CTA

31
 All retained blades must be assessed (ABCDE) and thoroughly investigated for exclusion of a
vascular injury and other visceral injury
Removal is performed in the OR under controlled conditions with or without general
anaesthesia

32
33
PENETRATING THORACIC TRAUMA
Introduction/Overview
Significant cause of mortality
15-30% require operation
Most life-threatening injuries identified in primary survey
Most penetrating thoracic injury will require only suturing – those requiring “operation”,
majority will only nee thoracostomy tube (ICD) insertion

Life threatening injuries
Should be identified during the primary survey and managed immediately
Airway injury/obstruction
Tension pneumothorax
o Pathology: Air from ruptured lung enters the pleural cavity without a means of
escape. As air pressure builds up, the affected lung is compressed, and all of the
mediastinal tissues are displaced to the opposite side of the chest
o Tension pneumothorax is a clinical diagnosis and is managed by needle
decompression followed by ICD insertion
o Clinical signs: Decreased/absent breath sound on the affected side, dyspnoea,
tracheal deviation to the other side; hyper-resonance, cyanosis and hypotension are
late signs
Open pneumothorax
o All pneumothoraxes following penetrating trauma are ‘open’
o Treatment is suturing followed by ICD insertion. If facilities are not available for
suturing and ICD insertion → A semi-occlusive dressing can be used as a temporising
measure
▪ The piece of gauze is taped on 3 sides to act as a one-way valve and prevent a
tension pneumothorax
Massive haemothorax
o Defined at more than 1.5L of blood drained at the time of ICD insertion
o On CXR: Extensive opacification over the affected lung field
Cardiac tamponade
o Raised JVP, muffled heart sounds, hypotension, and pulsus paradoxus
▪ Beck’s triad = Low arterial BP, distended neck veins and muffled heart
sounds
o On CXR: Straightened heart border
o Cardiac ultrasound can also be used and is a very important too to assess for the
presence of blood in the pericardium
o On ECG: J wave
▪ Positive deflection on the
downward slope of the R wave
▪ Also seen in hypothermia and
hypocalcaemia

34
Thoracostomy
Tube insertion is done in the
5th ICS between the mid and
anterior axillary line → NEVER
OUTSIDE THE SAFE TRIANGLE

ICD (TT) insertion
Most common procedure done
for penetrating thoracic
trauma
Adhere to technique (blunt
dissection)
Landmarks = Safe triangle
o Between pectoralis
major, nipple line and
latissimus dorsi muscle
Specific indications
Never use a trocar
Most common mistakes = Wrong site, wrong technique, and not properly secured

Treatment of life-threatening injuries
During primary survey
Always ABCDE
Tension pneumothorax = Clinical diagnosis → Needle decompression → TT
Thoracostomy tube insertion for pneumo/haemothoraces

35
Indications for emergency thoracotomy
Massive haemothorax (>1.5L or >200ml/hr)
Cardiac tamponade
Internal cardiac massage – in patient with PEA
(pulseless electrical activity)
Any haemodynamically unstable patient with
penetrating chest trauma (exclude tension
pneumothorax first)
Note the antero-lateral incision

Transmediastinal GSW
Significant morbidity and mortality
Mediastinal structures: Heart, great vessels, oesophagus, trachea, bronchi
CXR is part of primary survey
If patient stable → CT/CTA to exclude vascular injuries
Contrast swallow to exclude oesophageal injury (or scope)

Summary
Life threatening injuries discovered and resolved in primary survey
Tension pneumothorax is a clinical diagnosis
In penetrating neck injuries, look for chest involvement
TT insertion = Most common procedure
Emergency thoracotomy = Life-saving procedure
Stable transmediastinal GSW require CT/CTA with or without a contrast swallow/scope

36
BLUNT THORACIC TRAUMA
Background
Majority of significant injuries occur during MVA
o Speed is a critical factor – 10 % increase in impact speed translates to 40 % rise in
case fatality risk for restrained and unrestrained occupants
MOI related to rapid deceleration at the moment of impact & interaction of occupant
(pedestrian) with mass of the vehicle
Initial priorities are:
o Ensure patent airway
o Adequate ventilation
o Restoration of effective circulation

Classification of chest injuries
Skeletal injury
o Clavicle fractures
o Rib fractures
o Sternal fractures
Pulmonary injury
o Contusions
Heart and great vessel injury
Diaphragmatic injury

Clavicular fractures
Mechanism of injury
Children: Fall on shoulders or outstretched arms
Adults: Contact sports
Signs and symptoms
Pain
Point tenderness
Evident deformity
Treatment
Immobilize the affected shoulder and arm
o Collar and cuff
o Clavicular strap
Analgesia
Heals within 4-6 weeks

37
 Fracture of the lateral third of the
clavicle

Rib fractures
Pathophysiology
Infrequent until adult life
Significant force required
Associated underlying pulmonary or cardiovascular injury
Ribs 3 - 8 fractured most often (thin & poorly protected)
Respiratory restriction as a result of pain & splinting
Associated complications include:
o Rupture of the aorta
o Tracheobronchial tree injury
o Vascular injury (intercostal vessels)
o Atelectasis
o Hypoventilation
o Inadequate cough
o Pneumonia
Associated injuries
Fractured ribs 1-3
Subclavian artery
Brachial plexus
Rupture of thoracic aorta
Fractured ribs 3-7
Haemo/pneumothorax
Pulmonary contusion
Fractured ribs 8-12
Diaphragm
38
 Intra-abdominal trauma (liver/spleen)
Clinical findings and management
Assessment
Localized pain, crepitus, audible crunch, point tenderness
Pain worsened with movement, deep breathing, coughing
Splinting on respiration
Apply ATLS principles
Non-pharmacological measures
High-concentration oxygen
Positive-pressure ventilation (if intubated)
Chest physiotherapy (adequate cough & breathing)
Pharmacological measures
Analgesics (Multimodal)
o NSAIDS
o Opioids
o Paracetamol

Red circle indicates
multiple rib fractures
of the posterior ribs

39
 Black arrows: Multiple
posterior and anterior rib
fractures on right
Red arrow: Pulmonary
contusion
White arrow: Surgical
emphysema (air in the
subcutaneous tissue)

Flail chest
Mechanism of injury
MVA
Falls from heights
Industrial accidents
Assault
Indicates significant chest trauma: 20% - 40% of patients with a flail chest have associated injuries
Mortality increased with:
Advanced age
> 7 rib fractures
> 3 associated injuries
Shock
Head injuries
Definition
Two or more adjacent ribs
Fractured in two or more
places
Produce a free-floating
segment of chest wall

40
Pathophysiology
Respiratory failure due to:
Underlying pulmonary contusion
Associated intrathoracic injury
Inadequate bellows action of the chest
Symptoms and signs
Chest wall contusion
Respiratory distress
Paradoxical chest wall movement → Pathognomonic of flail chest

Pleuritic chest pain
Crepitus
Pain and splinting of affected side
Tachypnoea
Tachycardia
Possible bundle branch block on ECG

41
Management
Airway and ventilation
High-concentration oxygen initially
CPAP – via face mask – effective in the cooperative patient (without facial fractures ) , may
avoid intubation , ventilation
Evaluate the need for endotracheal intubation
Positive-pressure ventilation may be needed
o Reverses the mechanism of paradoxical chest wall movement
o Restores the tidal volume
o Reduces the pain of chest wall movement
o Internally splint the chest until fibrous union of the chest occurs
Assess for a pneumothorax – Delayed exhalation and increased intrapulmonary pressures
Stabilize flail segment → Only current standardized indication for rib plating

Sternal fractures
Incidence: 5% - 8%
Causes
Deceleration compression injury
Steering wheel
Dashboard
A blow to the chest; massive crush injury
Severe hyperflexion of the thoracic cage

42
Morbidity/mortality
25% - 45% mortality rate
High association with myocardial or lung injury
o Myocardial contusion
o Myocardial rupture
o Cardiac tamponade
o Pulmonary contusion
o Flail chest
o Vascular disruption of thoracic vessels
Management
ATLS principles
Circulation → Restrict fluids if pulmonary contusion suspected
Pharmacological measures → Multimodal analgesia
Fixation – Sternal plating and/or wiring

Pulmonary contusion
Most common potentially lethal chest injury
Incidence: 30% - 75%
Associated with:
Rib fractures
High-energy shock waves from explosion
High-velocity missile wounds
Rapid deceleration
Extrathoracic injuries
Low velocity → Ice pick
Pathophysiology
Result of bleeding into the pulmonary parenchyma
Usually occurs beneath fractured ribs or flail segment in adults
May be present in children in absence of rib fractures (due to elasticity of their rib cage)
Significant contusions often not diagnosed until 24 hours after admission → CXR signs
typically delayed & underestimate the degree of pulmonary injury
Respiratory dysfunction in those with pulmonary contusion(s)
Due to combination of:
Lack of pulmonary function in the contused segment
Remote lung injury mediated by cytokines released by the trauma to the lung parenchyma

43
 Contusion in right lower lobe

Larger contusion in right
middle and lower lobes

Assessment findings
Tachypnoea
Tachycardia
Cough
Haemoptysis
Apprehension
Respiratory distress
Evidence of blunt chest trauma
Management
Airway and ventilation
44
 o High-concentration oxygen initially
o Positive-pressure ventilation if indicated
Circulation → Avoid fluid overload
o Restriction of fluid in the hypovolemic patient not advised
Adequate analgesia
Chest physiotherapy

Heart and great vessel injury
Myocardial contusion (blunt myocardial injury)
Incidence
o Most common cardiac injury
o 16% - 76%
Mechanism
o Chest wall strikes the dashboard / steering column (MVA)
o Crush injury
Associations
o Sternal fractures
o Multiple rib fractures
Assessment findings
o Retrosternal chest pain
o ECG changes
▪ Persistent tachycardia
▪ ST elevation, T-wave insertion
▪ Right BBB
▪ Atrial flutter; fibrillation
▪ Premature ventricular contractions
▪ Premature atrial contractions
o New cardiac murmur
o Hypotension
o Chest well contusion and ecchymosis
o Pericardial friction rub (late)
Management
o ATLS principles
o Circulation: Continuous cardiac monitoring for 48 hours
o Pharmacological measures:
▪ Antiarrhythmics
▪ Vasopressors and inotropes if indicated
o Cardiac troponins and CKMB not useful
Traumatic aortic rupture
Incidence
o 15 % of fatalities
Mechanism of injury
o Major deceleration injury
▪ Rapid deceleration in high-speed motor vehicle crashes
45
 ▪ Falls from great heights
▪ Crushing injuries to torso
Pathophysiology
o 3 mechanisms:
o Shearing stress
▪ Generated by differential movement between fixed portion of the aorta
&relatively more mobile one
o High peak of intraluminal pressure occurring during the moment of the accident
o Crushing of the aorta between chest wall & spinal column (Osseous pinch)
o Majority occur at aortic isthmus → Proximal descending aorta within 1cm of origin
of left subclavian artery – where aorta is fixed by ligamentum arteriosum
Assessment findings
o Upper-extremity hypertension with absent or decreased amplitude of femoral pulses
▪ Compression of the aorta by the expanding haematoma
o Generalized hypertension
▪ Increased sympathetic discharge
o Systolic murmur over the pericardium or interscapular region (25%)
o Paraplegia with a normal cervical &thoracic spine (rare)
o Retrosternal or interscapular pain
o Dyspnoea
o Dysphagia
o Ischemic pain of the extremities
o Chest wall contusion
Diagnostic modalities
o CXR
▪ Widening of the mediastinum
▪ Most sensitive finding
> 8 cm at arch in supine film
> 6 cm erect film
o Multi-slice CT scan with IVI contrast (CTA chest) = Gold standard
o Aortography
▪ If CT scan does not give accurate information
o Transesophageal echocardiography
▪ Highly operator dependent
▪ Certain anatomic regions difficult to visualize
Management
o Airway and ventilation:
▪ High-concentration oxygen
▪ Ventilatory support with spinal precautions
o Circulation
▪ Avoid fluid overload
▪ Maintain systolic BP < 120 mmhg
▪ Maintain HR < 90 bpm
o B Blocker (Labetalol)
o Vasodilator (Nitroprusside)

46
o Cardiothoracics (Ascending aorta affected) → Bypass required for repair
o Vascular surgery → Conservative versus endovascular management (Descending
arch affected)

Widened mediastinum

Widened
mediastinum with
globular-shaped
heart

47
 Angiogram of aorta:
Pseudo-aneurysm
of descending
aorta, distal to the
left subclavian

CTA Chest: Aorta filled with
contrast; dissection of aorta
with bilateral haemothoraces

48
Diaphragmatic rupture
Blunt trauma
o 0.8-1.6 %
o 90% of injuries associated with high-speed MVA
Areas of injury:
o L sided injuries predominate
o Underdiagnosis of R sided injuries
o Hepatic protection of R hemidiaphraghm & weakness of L side at points of
embryological fusion have been proposed to explain L sided injuries
Rupture allows intra-abdominal organs to enter the thoracic cavity causing:
o Compression of the lung with reduced ventilation
o Decreased venous return
o Decreased cardiac output
o Shock
Assessment findings
o Tachypnoea
o Tachycardia
o Respiratory distress
o Dullness to percussion
o Scaphoid abdomen (hollow or empty appearance)
▪ If a large quantity of the abdominal contents are displaced into the chest
o Bowel sounds in the affected hemithorax
o Decreased breath sounds on the affected side
o Possible chest or abdominal pain
Diagnostic modalities
o Diagnosis frequently missed in acute phase
o CXR: 33-70% diagnosed on initial CXR
▪ Elevation of hemidiaphragm (diaphragmatic rupture; visceral herniation;
phrenic nerve paralysis)
▪ If herniated stomach or bowel is constricted (“Collar sign”) as it transits torn
diaphragm
▪ If tip of NGT resides above diaphragm
o CT scan: Sensitivity low – 14-61%
▪ Improved if there is herniation of intra-abdominal contents into chest

49
 Elevation of left
hemidiaphragm and
gastric bubble → Alludes
to possible diaphragmatic
injury

Multiple air-fluid
levels with
compression of left
lung → Possible
diaphragmatic
injury

50
 Stomach
contents next
to heart with
multiple rib
fractures on left

Management
o Airway and ventilation
▪ High-concentration oxygen
▪ Positive-pressure ventilation if necessary
Caution: Positive pressure may worsen the injury
o Circulation: IV access
o Non-pharmacological measures: Do not place patient in Trendelenburg position
o Surgical repair: Acutely approached through the abdomen → 90% have associated
intra-abdominal injury
▪ Non-absorbable suture (Ethibond, Nylon)
▪ Mesh if too large to approximate

51
PENETRATING ABDOMINAL TRAUMA

Negative laparotomy: The abdomen is opened and there is NO injury or NO breach in the
peritoneal cavity or retroperitoneum
Non-therapeutic laparotomy: There is peritoneal violation BUT no surgical intervention is
required; e.g.: an injury to the liver that is NOT bleeding

52
Physical examination of the abdomen has a high accuracy (97% sensitive and 100% specific) for
determining the need for a laparotomy
There is no place for local wound exploration and diagnostic peritoneal lavage
CT and laparoscopy have specific indications

Indications for laparotomy
Haemodynamic instability
o Patients with obvious penetrating abdominal trauma who present unstable and with
progressive abdominal distention and do not respond to simple fluid resuscitation,
require immediate emergency laparotomy without any investigations
Acute abdomen/clinical signs of peritonitis
o Diffuse abdominal tenderness
o Rebound/percussion tenderness
o Guarding/rigidity
o Diminished or absent bowel sounds
Unreliable clinical examination
o Severe head injury
o Spinal cord injury
o Intoxication
o Need for sedation/intubation
Evisceration of intra-abdominal contents (organ or omentum)
o Eviscerated bowel is at risk of ischaemia due to congestion and swelling. The wound
in the abdominal wall must be extended down to the sheath and muscle to release
the entrapped bowel. Any obvious perforation must be over sewn temporarily to
prevent massive fluid losses and contamination
Radiologically proven ureter/bladder injuries
o Would follow investigation of haematuria
Fresh blood per rectum
o The lower third and entire posterior wall of the rectum is extra-peritoneal and
patients may not present with signs of peritonism in the presence of blood per
rectum
o In this scenario, diagnostic laparoscopy is used to exclude any intra-abdominal
injury and treat the rectal injury by creating diverting sigmoid loop colostomy

53
54
RUQ and right thoracoabdominal (RTA) penetrating injury
If no indication for immediate surgery, should have a CT scan to exclude liver injury

Left thoracoabdominal stab wounds LEFT THORACOABDOMINAL STAB
Incidence of occult diaphragm WOUND
laceration: 3-67%
Must prevent
complications of
diaphragmatic hernia PERITONITIC NON-PERITONITIC
which is associated with
high morbidity and
mortality
LAPAROTOMY ABDOMINAL
OBSERVATION

Non-operative management of gunshot wounds
DIAGNOSTIC
When managing patients with abdominal GSWs where there is not
LAPAROSCOPY
an indication for surgery, CT scanning is recommended
The trajectory of the missile is determined on CT and can be
categorised as:
o Extraperitoneal
o Peritoneal breach (no visceral injury)
o Peritoneal breach (with solid organ injury)
o Hollow viscous injury
▪ In line
▪ Gas locules/free air
▪ Free fluid
▪ Bowel wall oedema
▪ Mesentery stranding

Investigation of haematuria
All patients must be investigated
Gold standard is CT with IV contrast
If the trajectory involves the pelvis, a CT-cystogram must be done

The observation period
Patients not undergoing surgery, must be admitted for abdominal observation:
o At least 24 hours
o NPO
o Serial abdominal examination
o Baseline laboratory investigations
o Vital signs
o IV fluids

55
 After 24 hours, if afebrile, haemodynamically stable, no abdominal signs, pain-free, hungry,
and passing flatus → The patient is fed, and if tolerated, is discharged with an abdominal
injury form

56
BLUNT ABDOMINAL TRAUMA
Mechanisms of injury
Blunt abdominal trauma occurs as a result of:
Road traffic accidents
Fall from heights
Assault
Sporting incidents

Injuries in the abdomen occur from direct forces causing:
External compression (increases the intra-abdominal pressure)
Deceleration (causing shear forces)
Crushing of the abdominal wall against spine, pelvis and chest

Injured organs in order of frequency
Spleen (40 – 55%)
Liver (35 – 45%)
Small bowel / mesentery (5 – 10%)
Kidneys
Bladder
Colon / rectum
Diaphragm
Pancreas
Major vessels

Management challenge(s) with BAT
The evaluation of the abdomen is very challenging and can often result in missed intra-
abdominal injury or overuse of diagnostic imaging such as CT
Physical examination can be difficult in the presence of neurologic injury, alcohol, drug or
multisystem trauma
Many trauma patients for various reasons are not examinable or certain physiological
reasons make your exam less reliable
Non-examinable patients should be evaluated through CT to aid in diagnosis
Non-examinable patients:
o GCS175IU
Occult ongoing haemorrhage indicates chest, abdomen and/or pelvis involvement
Continued intra-abdominal bleeding in the setting of compromised haemodynamic status,
despite aggressive resuscitation efforts is an indication for surgery

58
 HAEMODYNAMICALLY
UNSTABLE

FAST DPL

ASPIRATION OF 10ML GROSS BLOOD
ABUNDANT FREE FLUID?
500/MM3 WBC
100000/MM3 RBC
PRESENCE OF ENTERIC CONTENT
YES - LAPAROTOMY AMYLASE >1751U

YES -
NO - EVALUATE FOR LAPAROTOMY
OTHER SOURCES OF
SHOCK

NO - EVALUATE FOR
OTHER SOURCES OF
SHOCK

CT is generally not required for unstable patients who will ultimately require surgical intervention
Approach to the stable patient

Primary and secondary survey
o Primary survey to address any life-threatening injuries
o Secondary survey to evaluate the abdomen
The secondary survey should include an inspection of the abdomen for symmetry,
distention and the location of contusions
o Lateral contusions across the abdomen (seatbelt sign) should alert you to the
possibility of internal injury
o Hypoactive or absent bowel sounds are associated with internal injury
o Gentle palpation of the abdomen and pelvis should be performed → Any increase in
pain or instability should raise the suspicion of internal injury or pelvic fracture
o Abdominal pain, rigidity and guarding are considered classic signs of internal injury

59
Using abdominal prediction rules and risk factors can help differentiate the low-risk patients who
would not require CT for diagnosis which would ultimately prevent the over-exposure to
radiation
Stable patients considered non-examinable or positive for predictors for blunt abdominal injury
should receive an abdominal CT
Predictors & risk factors of BAI
Abdominal pain and tenderness during an exam
Pelvic or femur fracture
Abdominal contusions
Lower rib fractures
Pneumothorax
Costal margin tenderness
Lumbar spine fracture
Haematuria
Positive FAST
Hypotension
ALT>125
AST>200
HCT