Chest Trauma PDF

Summary

This presentation provides an overview of chest trauma, including mechanisms, evaluation, and treatment strategies. It covers various types of chest injuries and their management strategies.

Full Transcript

Chest Trauma
 INTRODUCTION
Responsible directly for 25% of mortality from
RTAs.

Contributes to mortality in another 25%

Most injuries do not require operative
intervention for successful management

Injury recognition and basic trauma skills save
majority of salvageable patients
 MECHANISM OF INJURY
Blunt or Penetrating
Different pathophysiologies
Different clinical courses
Blunt injuries tend to be managed
conservatively
Penetrating injuries more likely to require
operative intervention
80-90% of chest injuries do not require
operative intervention
 INITIAL EVALUATION
Hypoxia and hypoventilation are the primary
killers of acute trauma patients
Life-threatening injuries should be identified
and treated immediately.
Injuries may develop over time, and become
life-threatening during the course of
resuscitation.
Re-assessment and evaluation is therefore
extremely important, especially if the
patient's condition deteriorates.
 EVALUATION PLAN
Primary survey
– Identify and treat immediately life-threatening
conditions

Secondary survey
– Identify all injuries and plan further investigation
and treatment

Re-assess especially if condition
deteriorates or patient fails to improve
 PHYSICAL EXAMINATION
This is the primary tool for diagnosis of acute
thoracic trauma.

An adequate exam may be difficult in the ER –
noise, uncooperative patient.

Signs of significant thoracic injury may be
subtle or even absent.

An initial normal examination does not exclude
thoracic injury or any other injury.
 THE DEADLY
DOZEN
–THE LETHAL SIX

–THE HIDDEN SIX
 THE LETHAL SIX
Airway Obstruction

Tension Pneumothorax

Open Pneumothorax

Massive Haemothorax

Flail Chest

Cardiac Tamponade
 THE HIDDEN SIX
Pulmonary Contusion

Myocardial Contusion

Tracheobronchial Injuries

Esophageal Perforation/Rupture

Aortic Injury/Rupture

Diaphragmatic Rupture
THE LETHAL SIX
 UPPER AIRWAY OBSTRUCTION
Obstruction from the nose/mouth to the
tracheal bifurcation

CAUSES
– Tongue falling back
– Oral foreign bodies – debris, teeth, dentures
– Laryngeal/Tracheal injury
– Facial trauma (mandibular or maxillary fractures)
– Haematoma
 DIAGNOSIS OF UPPER AIRWAY
OBSTRUCTION
In a conscious patient:
– Marked respiratory distress + stridor
– Altered voice
– Anxious and combative
– Absent/Reduced air entry
– Tachycardia (bradycardia + CV collapse occur late)

In an unconscious patient:
– Inability to ventilate with a bag-mask device
 MANAGING THE OBSTRUCTED
AIRWAY
SUPPLEMENTAL OXYGEN
– Nasal prongs, face mask, etc

OPEN THE AIRWAY
– Head tilt, chin lift, manual evacuation, suction

MAINTAIN THE OPEN AIRWAY
– Oropharyngeal/nasopharyngeal airway, laryngeal
mask, endotracheal intubation
 TENSION PNEUMOTHORAX
Air under progressively increasing positive
pressure in the pleural space

Air-leak + ‘One-way-valve’ effect

May develop insidiously

It is a clinical diagnosis
 DIAGNOSIS OF TENSION
PNEUMOTHORAX
Progressive respiratory distress

Chest moves little with respiration.

Raised JVP/distended neck veins

Tracheal deviation away from lesion

Increased percussion note

Diminished or absent breath sounds
TENSION PNEUMOTHORAX
 MANAGEMENT OF TENSION
PNEUMOTHORAX

–Needle thoracostomy
Large bore needle
2nd space, MCL
+
–Chest tube thoracostomy
 OPEN PNEUMOTHORAX
A pneumothorax associated with a
through-and-through chest wall defect.

The pneumothorax communicates with
the exterior.
SUCKING CHEST WOUND
 TREATMENT OF OPEN
PNEUMOTHORAX
Place an occlusive dressing over the wound

Place an intercostal chest drain.

Oxygen supplementation

Surgically close the defect
 MASSIVE HAEMOTHORAX

Accumulation of > 1.5litres of blood in the
pleural cavity

Patients usually in shock esp. if blood loss is
rapid.

May require surgical intervention
MASSIVE HAEMOTHORAX
Massive haemothorax
Hypotension and
tachycardia
Ipsilateral lung
collapse
There may be
mediastinal shift
 TREATMENT OF MASSIVE
HAEMOTHORAX
ABC’s with spine control

Replace blood loss (large peripheral cannula
#14, #16 in adults)

Chest tube thoracostomy – evacuates pleural
space & monitors bleeding

Control bleeder(s) if haemorrhage continues –
requires surgery
FLAIL CHEST
f The fracture of 4
or more ribs in 2
or more places or
the equivalent of
bilateral
costochondral #s
 FLAIL CHEST
Respiratory distress often extreme

Paradoxical chest wall motion – “see-saw
respiratory movements”

Lung contusion is a frequent accompaniment

Signs of respiratory insufficiency
Pendelluft

Mediastinal flutter
 MANAGEMENT OF FLAIL CHEST
Pulmonary Contusion

Associated Haemopneumothorax

Respiratory insufficiency

Paradoxical breathing

Management of other associated injuries
 PULMONARY CONTUSION

– Adequate pain control

– Face mask oxygen

– Fluid restriction ± diuretics

– Manage airway secretions: chest physio, mucolytics

– Antibiotics
 ASSOCIATED HAEMOPNEUMOTHORAX
– Chest tube thoracostomy

RESPIRATORY INSUFFICIENCY
– Mechanical ventilation

PARADOXICAL BREATHING
– Bulky dressing to flail segment
– Internal pneumatic stabilization
– Operative fixation??
BULKY DRESSING FOR SPLINT OF
FLAIL CHEST

Do not strangulate the chest!
 CARDIAC TAMPONADE
Requires only 150-200ml haemopericardium to
attain significance

The classic signs of distended neck veins and
muffled heart sounds are almost universally
absent

Needle pericardiocentesis may be falsely
negative (clotted haemopericardium)
 DIAGNOSIS OF TRAUMATIC CARDIAC
TAMPONADE
High index of suspicion:
– Hypotension out of proportion to estimated blood
loss

– Hypotension in spite of adequate volume status

– Persistent hypotension with elevated venous
pressure after fluid administration

Echocardiogram if available
MANAGEMENT OF TAMPONADE
OPTIMIZATION
– Fluid resuscitation
– Pericardiocentesis (even 25-50ml is beneficial)
– Transfer to appropriate facility

OPTIONS FOR PERICARDIAL EVACUATION
– Pericardiocentesis
– Sub-xiphoid pericardial window
– Exploration via sternotomy or thoracotomy
SUB-XIPHOID PERICARDIAL
WINDOW
THE HIDDEN SIX
 DIAPHRAGMATIC RUPTURE
Frequent in
thoracoabdominal
trauma

– Blunt trauma
– Stab wounds
– Gunshot wounds

May be no immediate
herniation of
abdominal contents
 DIAPHRAGMATIC RUPTURE
No distinctive signs / symptoms seen
Associated injuries are common
May be asymptomatic
SOL in chest
Respiratory distress
Bowel sounds in lower chest
Mediastinal shift
Shoulder tip pain occasionally
CXR most helpful modality
LEFT SIDED TEARS

“Elevated
hemidiaphragm”
Obscuration of
hemidiaphragm
Extraneous
shadows
Air-fluid levels in
hemithorax
Mediastinal shift
NG tube in chest
NG TUBE
Liver is “protective” on right side
“Elevated hemidiaphragm”
Mushroom hump over rt.
hemidiaphragm
Features similar to lt.
sided tears
 Treatment of Diaphragmatic Rupture

Treatment is surgical no matter how
small the perforation
Surgery is on semi-urgent basis
Nasogastric decompression
Hemodynamic stabilization
Approach
– Left: thoracotomy or laparotomy
– Right: thoracotomy + separate laparotomy to
deal with intra-abdominal injury
 PULMONARY CONTUSION
Damage to lung parenchyma from compression
-deccompression injury

Pathology – edema, hemorrhage, patchy
atelectasis

Frequently progressive leading to respiratory
insufficiency

Mortality ranges from 14-40%
PULMONARY CONTUSION
EFFECTS
- Poor gas exchange
- Increased pulmonary
vascular
resistance
- Decreased lung
compliance

ULTIMATELY PROGRESSES
TO RESPIRATORY
FAILURE
 DIAGNOSIS OF PULMONARY
CONTUSION
– Clinical findings may be lacking initially
(dyspnea, hemoptysis, crackles)

– Blood gases worsen 2-3 days as edema
increases

– CXR changes may lag 12 - 48hrs behind

– CXR may underestimate the true extent
 TREATMENT OF PULMONARY
CONTUSION
Mostly supportive – resolution by 5-8 days
Supplemental oxygen
Pain control
Fluid restriction ± diuretics
Intubation and mechanical ventilation when
indicated
Management of secretions
Antibiotics
 MYOCARDIAL CONTUSION
Physical bruising of
the cardiac muscle

Usually associated
with fractures of
the sternum
Any severe anterior
chest injury
 DIAGNOSIS OF MYOCARDIAL
CONTUSION
Tachycardia

Ectopic beats

ST elevation

Pump failure

Enzymes may be normal
 TREATMENT OF MYOCARDIAL
CONTUSION

Monitor

Treat dysrhythmias*

Analgesia

Inotropic support
 TRAUMATIC AORTIC RUPTURE
Often rapidly fatal

Only 10% survive to hospital

Only 20% survive > 1 hour

90% who reach hospital will die

EARLY DX and aggressive tx best chance
 Aortic Rupture - Diagnosis

– Widened mediastinum
on CXR (>8cm)
– 40% normalizes with
sitting up
– Blurring of aortic knob
 Aortic Rupture - Treatment

Contained injury
=> BP control

Operative repair
 TRACHEOBRONCHIAL
DISRUPTION
Most occur within 2.5cm of the carina

Many affected patients have no other serious
injury

Tracheal tears occur at junction of
membranous and cartilaginous trachea

Bronchial tears are usually transverse,
complete or incomplete
 DIAGNOSIS OF TRACHEOBRONCHIAL
TEARS
TYPE 1 TYPE 2
Large pneumothorax Small or absent
Profuse bubbling pneumothorax
from intercostal drain Lung re-expands
Failure of lung promptly after
expansion even under intercostal drain
suction Delayed but persistent
Dyspnea, hemoptysis, atelectasis after 2
subcutaneous and -3weeks
mediastinal
emphysema
TREATMENT OF TRACHEOBRONCHIAL
TEARS

Bronchoscopy on suspicion to delineate
lesion

Chest tube insertion to facilitate lung
expansion

Surgery to reconstruct tracheobronchial tree
 ESOPHAGEAL INJURIES
Most due to penetrating
trauma
Blunt trauma is rare
Diagnosis often delayed:
sepsis and high mortality
Contrast studies
Esophagoscopy
Treatment
– Expectant
– Primary repair < 24hrs
– Diversions + Gastrostomy
after 24hrs