Head, Facial, & Neck Trauma
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Transcript Head, Facial, & Neck Trauma
Head, Facial, & Neck
Trauma
Sections
Introduction to Head, Facial, & Neck
Injuries
Anatomy and Physiology of the Head,
Face, & Neck
Pathophysiology of Head, Facial, &
Neck Injury
Assessment and Management of Head,
Facial, & Neck Injuries
Head, Facial, & Neck Injury
Management
Introduction to Head, Facial,
& Neck Injuries
Common major trauma
4 million people experience head
trauma annually
Severe head injury is most frequent cause of trauma
death
GSW to cranium: 75-80% mortality
At Risk population
Males 15-24
Infants
Young Children
Elderly
Introduction to Head, Facial,
& Neck Injuries
Injury Prevention Programs
Motorcycle Safety
Bicycle Safety
Helmet & Head Injury Awareness Programs
Other Sports
Football
Rollerblading
Contact Sports
Introduction to Head, Facial,
& Neck Injuries
TIME IS CRITICAL
Intracranial Hemorrhage
Progressing Edema
Increased ICP
Cerebral Hypoxia
Permanent Damage
Severity is difficult to recognize
Subtle signs
Improve differential diagnosis
Improves survivability
Anatomy & Physiology
Head, Face & Neck
Anatomy & Physiology of the Head
Scalp
Cranium
Meninges
Cerebrospinal Fluid
Brain
CNS Circulation
Blood-Brain Barrier
Cerebral Perfusion Pressure
Cranial Nerves
Ascending Reticular Activating System
Anatomy & Physiology
of the Head
Scalp
Strong Flexible mass of
Skin
Fascia
Muscular Tissue
Highly Vascular
Hair provides Insulation
Structures Beneath
Galea Aponeurotica
• Between scalp and skull
• Fibrous connective sheath
Subaponeurotica (Areolar) Tissue
• Permits venous blood flow from the dural sinuses to the venous
vessels of scalp
Emissary Veins: Potential route for Infection
Anatomy & Physiology
of the Head
Recalling Structures of the Scalp
S - skin
C - connective tissue
A - aponeurotica
L - layer of areolar tissue
P - periosteum of skull
Anatomy & Physiology
of the Head
Skull comprised of
Facial bones
Cranium
Vault for the brain
Strong, light, rigid, spherical bone
Unyielding to increased intracranial pressure (ICP)
Bones
•
•
•
•
•
•
Frontal
Parietal
Occipital
Temporal
Ethmoid
Sphenoid
Sphenoid
Parietal
Suture Line
Frontal
Temporal
Orbits
Maxillae
Mandible
Temporal Mandibular Joint
Nasal Bones
Foramen Magnum (Hole in Base)
Occiptal Zygomatic Arch
Anatomy & Physiology
of the Head
Skull
Other Structures
Foramen Magnum
• Largest opening of the skull
• Spinal cord exits
Cribriform Plate
• Inferior aspect (Base)
• Rough surface
• Brain can be easily injured
Abrade
Contusion
Laceration
Anatomy & Physiology
of the Head
Meninges
Protective mechanism for the CNS
Dura Mater
Layers
• Outer: Cranium’s inner periosteum
• Inner: Dural Layer
• Between: Dural Sinuses:
Venous drains for brain
Provides continuous connective tissue
Forms partial structural divisions
• Falx cerebri
• Tentorium cerebelli
Large arteries above
• Provide blood flow to the surface of the brain
Anatomy & Physiology
of the Head
Meninges
Pia Mater
Closest to brain and spinal cord
Delicate tissue
Covers all areas of brain and spinal cord
Very Vascular
• Supply superficial areas of brain
Arachnoid Membrane
“Spider-like”
Covers inner dura
Suspends brain in cranial cavity
• Collagen & Elastin fibers
Subarachnoid Space beneath
• CSF
• Cushions brain
Anatomy & Physiology
of the Head
Cerebrospinal Fluid
Clear, colorless fluid
Comprised of
Water
Protein
Salts
Cushions CNS
Made in largest two ventricles of brain
Medium for nutrients and waste products to
diffuse into and out of brain
Anatomy & Physiology
of the Head
Brain
Occupies 80% of cranium
Comprised of 3 Major Structures
Cerebrum
Cerebellum
Brainstem
High metabolic rate
Receives 15% of cardiac output
Consumes 20% of body’s oxygen
Requires constant circulation
IF Blood supply stops
Unconscious within 10 seconds
Death in 4-6 minutes
Anatomy & Physiology
of the Head
Cerebrum
Function
Center of conscious thought, personality, speech, and
motor control
Visual, auditory, and tactile perception
Lobes
Frontal
• Personality
Parietal
• Motor & Sensory Activity
• Memory & Emotion
(continued)
Anatomy & Physiology
of the Head
Occipital
• Sight
Temporal
• Long-term memory
• Hearing, Speech, Taste & Smell
Anatomy & Physiology
of the Head
Cerebrum
Falx Cerebri
Divides cerebrum into right and left hemispheres
Central Sulcus
Fissure splits cerebrum into right and left hemispheres
Each hemisphere controls the opposite side of the body
Tentorium
Fibrous sheet within occipital region
Brainstem perforates thru incisura tentorri cerebelli
Occulomotor Nerve (CN-III) travels along
• Controls pupil size
• Compression results in pupillary disturbances
Anatomy & Physiology
of the Head
Cerebrum
Hemisphere Functions
Left: DOMINANT
•
•
•
•
Mathematical computations: Occipital
Writing: Parietal
Language interpretation: Occipital
Speech: Frontal
Right: NON-DOMINANT
• Non-verbal imagery
Anatomy & Physiology
of the Head
Cerebellum
Located under tentorium
Function
“Fine tunes” motor control
Allows smooth movement
Balance
Maintenance of muscle tone
Anatomy & Physiology
of the Head
Brainstem
Central processing center
Communication junction among
Cerebrum
Spinal cord
Cranial nerves
Cerebellum
Structures
Midbrain
Pons
Medulla Oblongata
Anatomy & Physiology
of the Head
Midbrain
Upper portion of brainstem
Structures
Hypothalamus
• Endocrine function, vomiting reflex, hunger, thirst
• Kidney function, body temperature, emotion
Thalamus
• Switching center between pons & cerebrum
• Critical Element in Ascending Reticular Activating System (A-RAS)
ESTABLISHES CONSCIOUSNESS
• Major pathways for optic & olfactory nerves
Associated Structures
Anatomy & Physiology
of the Head
Pons
Communication interchange between
cerebellum, cerebrum, midbrain, and spinal
cord
Bulb shaped structure above medulla
Sleeping phase of the RAS
Anatomy & Physiology
of the Head
Medulla Oblongata
Bulge in the top of the spinal cord
Centers
Respiratory Center
• Controls depth, rate and rhythm
Cardiac Center
• Regulates rate and strength of cardiac contractions
Vasomotor Center
• Distribution of blood
• Maintains blood pressure
Anatomy & Physiology
of the Head
CNS Circulation
Arterial
Four Major Arteries
• 2 Internal Carotid Arteries
From the common carotid
• 2 Vertebral Arteries
Circle of Willis
• Internal Carotids and Vertebral Arteries
• Encircle the base of the brain
Venous
Venous drainage occurs through bridging veins
Bridge Dural Sinuses
Drain into internal jugular veins
Anatomy & Physiology
of the Head
Blood-Brain Barrier
Less permeable than elsewhere in body
DO NOT allow flow of interstitial proteins
Reduced lymphatic flow
Very protected environment
Blood acts as irritant resulting in cerebral
edema
Anatomy & Physiology
of the Head
Cerebral Perfusion Pressure
Pressure within cranium (ICP) resists blood
flow and good perfusion to the CNS
Pressure usually less than 10 mmHg
Mean Arterial Pressure (MAP)
Must be at least 50 mmHg to ensure adequate
perfusion
MAP = DBP + 1/3 Pulse Pressure
Cerebral Perfusion Pressure (CPP)
Pressure moving blood through the cranium
CPP = MAP - ICP
Anatomy & Physiology
of the Head
Calculating MAP
BP 120/90
DBP 90
Pulse Pressure 120- 90 30
MAP 80 13 30 90
Calculating CPP
MAP 90 & ICP 10
CPP MAP - ICP
CPP 90 - 10 80
Anatomy & Physiology
of the Head
Cerebral Perfusion Pressure
Autoregulation
Changes in ICP result in compensation
Increased ICP = Increased BP
• This causes ICP to rise higher and BP to rise
Brain injury and death become imminent
Expanding mass inside cranial vault
Displaces CSF
If pressure increases, brain tissue is displaced
Anatomy & Physiology
of the Head
Cranial Nerves
12 pair with distinct pathways
Senses, facial innervation, & body function control
Ascending Reticular Activation System
Tract of neurons in upper brainstem, pons, and
midbrain
Responsible for sleep-wake cycle
Monitors input stimulation
Regulates body functions
Respiration
Heart Rate
Peripheral Vascular Resistance
Injury may result in prolonged waking state
CN
Name
F
Innervation
I
Olfactory
S
Smell
II
Optic
S
Sight
III
Oculomotor
M
Pupil Const, Rectus & Obliques
IV
Trochlear
M
Superior Obliques
Trigeminal
S
Opthalmic (FH), Maxillary (cheek) Mandible (chin)
V
M
Chewing muscles
VI
Abducens
M
Lateral rectus muscle
S
Tongue
M
Face Muscles
VII
Facial
VIII
Acoustic
S
Hearing balance
S
Posterior pharynx, taste to anterior tongue
IX
Glossopharyngeal
M
Face Muscles
S
Taste to posterior tongue
M
Posterior palate and pharynx
X
Vagus
XI
Accessory
M
Trapezius & Sternocleido. Muscles
XII
Hypoglossal
M
Tongue
Anatomy & Physiology
Head, Face & Neck
Anatomy & Physiology of the Face
Structure
Ear
Eye
Anatomy & Physiology
of the Face
Structure
Facial Bones
Zygoma
• Prominent bone of the cheek
• Protects eyes
• Attachment for muscles controlling eye & jaw movement
Maxilla
• Upper jaw
• Supports the nasal bone
• Provides lower border of orbit
Mandible
• Jaw bone
Nasal Bones
Anatomy & Physiology
of the Face
Structure
Covered with skin
Flexible and thin
Highly vascular
Minimal layer of subcutaneous tissue
Circulation
External carotid artery
Supplies facial area
Branches
• Facial, Temporal & Maxillary Arteries
Anatomy & Physiology
of the Face
Nerves
Trigeminal (CN-V)
Facial Sensation
Some eye motor control
Enables chewing process
Facial (CN-VII)
Motor control for facial muscles
Sensation of taste
Anatomy & Physiology
of the Face
Nasal Cavity
Upper Border
Bones
• Junction of Ethmoid, Nasal, & Maxillary Bones
Bony Septum
• Right & Left Chamber
Turbinates
• Vascular mucosa support
• Warm, Humidify, and Filter incoming air
Lower Border
Bony Hard Palate
Soft Palate
• Moves upward during swallowing
Nasal Cartilage
Forms Nares
Anatomy & Physiology
of the Face
Oral Cavity
Formed Structures
Maxillary bone
Palate
Upper teeth meeting the mandible and lower teeth
Floor
Tongue
• Connects to hyoid bone
Free-floating U-shaped bone inferior & posterior of the
mandible
Mandible
Articulates with the TMJ joint
Anatomy & Physiology
of the Face
Special Structures
Salivary Glands
First stage in digestion
Location
• Anterior and inferior to the ear
• Under tongue
• Inside the inferior mandible
Tonsils
Posterior wall of the pharynx
(continued)
Anatomy & Physiology
of the Face
Sinuses
Hollow spaces in cranium and facial bones
Function
•
•
•
•
Lighten head
Protect eyes and nasal cavity
Produce resonant tones of voice
Strengthen area against trauma
Anatomy & Physiology
of the Face
Cranial Nerves
CN-XII (Hypoglossal)
Swallowing & tongue movement
CN-IX (Glossopharyngeal)
Saliva production & taste
CN-V (Trigeminal)
Sensations from facial region & aids in chewing
CN-VII (Facial)
Muscles of facial expression & taste
Anatomy & Physiology
of the Face
Pharynx
Posterior & Inferior to the oral cavity
Aids in swallowing
Bolus of food propelled back & down by tongue
Epiglottis moves downward
Larynx moves up
• Combined effect seals airway
Peristaltic wave moves food down esophagus
Anatomy & Physiology
of the Face
Ear
Function
Hearing
Positional sense
Structures
Pinna
• Outer visible portion
• Formed of Cartilage & has Poor blood supply
External Auditory Canal
• Glands that secrete cerumen (wax)
Middle & Inner Ear
• Structures for hearing and positional sense
Anatomy & Physiology
of the Face
Ear
Structures for Hearing
Tympanic membrane
Ossicle bones
Cochlea
Auditory Nerve
Structures for Proprioception
Semicircular canals
• Sense position & motion
Present when eyes are closed
Vertigo
• Continuous movement sensation
Anatomy & Physiology
of the Face
Eye
Structures
Sclera
Cornea
Conjunctiva
Anterior Chamber
• Aqueous humor
• Iris
Pupil
Lens
Posterior Chamber
• Vitreous humor
Retina
Lacrimal Fluid
Bathes, protects, and nourishes cornea
Anatomy & Physiology
of the Face
Eye
Innervation
CN-III (Oculomotor)
• Pupil dilation
• Conjugate movement
Movement of eyes together
• Normal range of motion
CN-IV (Trochlear)
• Downward & inward movement
CN-VI (Abducens)
• Abduction (outward) gaze
Anatomy & Physiology
of the Neck
Vasculature of the Neck
Carotid Arteries
Arise from
• RIGHT: Brachiocephalic Artery
• LEFT: Aorta Artery
Split
• Internal & External Carotid Arteries
• Upper border of the Larynx
• Carotid Bodies & Sinuses located
Bodies: Monitor CO2 and O2 levels
Sinuses: Monitor Blood Pressure
(continued)
Anatomy & Physiology
of the Neck
Jugular Veins
External
• Superficial, lateral to the trachea
Internal
• Sheath with the carotid artery and vagus nerve
Anatomy & Physiology
of the Neck
Airway Structures
Larynx
Epiglottis
Thyroid & Cricoid Cartilage
Trachea
Posterior border is anterior border of esophagus
Anatomy & Physiology
of the Neck
Other Structures
Cervical Spine
Musculoskeletal Function
• External Skeletal support of the head and neck
• Attachment point for spinal column ligaments
• Attachment point for tendons to move head and shoulders
Nervous Function
• Spinal Cord contained within
• Peripheral Nerve
Exit between vertebrae
Anatomy & Physiology
of the Neck
Other Structures
Esophagus
Cranial Nerves
CN-IX (Glossopharyngeal)
• Carotid Bodies & Carotid Sinuses
CN-X
• Speech, swallowing, cardiac, respiratory & visceral function
Thoracic Duct
Delivers lymph to the venous system
(continued)
Anatomy & Physiology
of the Neck
Glands
Thyroid
• Rate of cellular metabolism
• Systemic levels of calcium
Brachial Plexus
Network of nerves in lower neck and should that control
arm and hand function
Pathophysiology of
Head, Facial, & Neck Injury
Mechanism of Injury
Blunt Injury
Motor vehicle collisions
Assaults
Falls
Penetrating Injury
Gunshot wounds
Stabbing
Explosions
“Clothesline”
Scalp Injury
Contusions
Lacerations
Avulsions
Significant Hemorrhage
ALWAYS Reconsider MOI for severe
underlying problems
Cranial Injury
Trauma must be extreme to fracture
Linear
Depressed
Open
Impaled Object
Basal Skull
Unprotected
Spaces weaken
structure
Relatively
easier to fracture
Cranial Injury
Basal Skull Fracture
Signs
Battle’s Signs
Retroauricular Ecchymosis
Associated with fracture of
auditory canal and lower
areas of skull
Raccoon Eyes
Bilateral Periorbital
Ecchymosis
Associated with orbital
fractures
Cranial Injury
Basilar Skull
Fracture
May tear dura
Permit CSF to drain
through an external
passageway
• May mediate rise of ICP
• Evaluate for “Target” or
“Halo” sign
Brain Injury
As defined by the National Head
Injury Foundation
“a traumatic insult to the brain capable of
producing physical, intellectual, emotional,
social and vocational changes.”
Classification
Direct
• Primary injury caused by forces of trauma
Indirect
• Secondary injury caused by factors resulting from the
primary injury
Direct Brain Injury Types
Coup
Injury at site of
impact
Contrecoup
Injury on
opposite side
from impact
Direct Brain Injury Categories
Focal
Occur at a specific location in brain
Differentials
Cerebral Contusion
Intracranial Hemorrhage
• Epidural hematoma
• Subdural hematoma
Intracerebral Hemorrhage
Diffuse
Concussion
Moderate Diffuse Axonal Injury
Severe Diffuse Axonal Injury
Focal Brain Injury
Cerebral Contusion
Blunt trauma to local brain tissue
Capillary bleeding into brain tissue
Common with blunt head trauma
Confusion
Neurologic deficit
• Personality changes
• Vision changes
• Speech changes
Results from
Coup-contrecoup injury
Focal Brain Injury
Intracranial Hemorrhage
Epidural Hematoma
Bleeding between dura
mater and skull
Involves arteries
Middle meningeal artery
most common
Rapid bleeding &
reduction of oxygen to
tissues
Herniates brain toward
foramen magnum
Focal Brain Injury
Intracranial Hemorrhage
Subdural
Hematoma
Bleeding within meninges
Beneath dura mater &
within subarachnoid
space
Above pia mater
Slow bleeding
Superior sagital sinus
Signs progress over
several days
Slow deterioration of
mentation
Focal Brain Injury
Intracranial Hemorrhage
Intracerebral Hemorrhage
Rupture blood vessel within the brain
Presentation similar to stroke symptoms
Signs and symptoms worsen over time
Diffuse Brain Injury
Due to stretching forces placed on
axons
Pathology distributed throughout
brain
Types
Concussion
Moderate Diffuse Axonal Injury
Severe Diffuse Axonal Injury
Diffuse Brain Injury
Concussion
Mild to moderate form of Diffuse Axonal
Injury (DAI)
Nerve dysfunction without anatomic damage
Transient episode of
Confusion, Disorientation, Event amnesia
Suspect if patient has a momentary loss
of consciousness
Management
Frequent reassessment of mentation
ABC’s
Diffuse Brain Injury
Moderate Diffuse Axonal Injury
“Classic Concussion”
Same mechanism as concussion
Additional: Minute bruising of brain tissue
Unconsciousness
If cerebral cortex and RAS involved
May exist with a basilar skull fracture
Signs & Symptoms
Unconsciousness or Persistent confusion
Loss of concentration, disorientation
Retrograde & Antegrade amnesia
Visual and sensory disturbances
Mood or Personality changes
Diffuse Brain Injury
Severe Diffuse Axonal Injury
Brainstem Injury
Significant mechanical disruption of
axons
Cerebral hemispheres and brainstem
High mortality rate
Signs & Symptoms
Prolonged unconsciousness
Cushing’s reflex
Decorticate or Decerebrate posturing
Intracranial Perfusion
Review
Cranial volume fixed
80% = Cerebrum, cerebellum & brainstem
12% = Blood vessels & blood
8% = CSF
Increase in size of one component diminishes
size of another
Inability to adjust = increased ICP
Intracranial Perfusion
Compensating for Pressure
Compress venous blood vessels
Reduction in free CSF
Pushed into spinal cord
Decompensating for Pressure
Increase in ICP
Rise in systemic BP to perfuse brain
Further increase of ICP
• Dangerous cycle
ICP
BP
Intracranial Pressure
Role of Carbon Dioxide
Increase of CO2 in CSF
Cerebral Vasodilation
• Encourage blood flow
• Reduce hypercarbia
• Reduce hypoxia
Contributes to ICP
Causes classic
Hyperventilation & Hypertension
Reduced levels of CO2 in CSF
Cerebral vasoconstriction
• Results in cerebral anoxia
Factors Affecting ICP
Vasculature Constriction
Cerebral Edema
Systolic Blood Pressure
Low BP = Poor Cerebral Perfusion
High BP = Increased ICP
Carbon Dioxide
Reduced respiratory efficiency
Pressure & Structural
Displacement
Increased pressure
Compresses brain tissue
Against & around
• Falx Cerebri
• Tentorium Cerebelli
Herniates brainstem
Compromises blood supply
Signs & Symptoms
• Upper Brainstem
Vomiting
Altered mental status
Pupillary dilation
• Medulla Oblongata
Respiratory
Cardiovascular
Blood Pressure disturbances
Signs & Symptoms
of Brain Injury
Altered Mental
Status
Altered orientation
Alteration in
personality
Amnesia
Retrograde
Antegrade
Cushing’s Reflex
Increased BP
Bradycardia
Erratic respirations
Vomiting
Without nausea
Projectile
Body temperature
changes
Changes in pupil
reactivity
Decorticate
posturing
Signs & Symptoms
of Brain Injury
Pathophysiology of Changes
Frontal Lobe Injury
Alterations in personality
Occipital Lobe Injury
Visual disturbances
Cortical Disruption
Reduce mental status or Amnesia
• Retrograde
Unable to recall events before injury
• Antegrade
Unable to recall events after trauma
“Repetitive Questioning”
Focal Deficits
Hemiplegia, Weakness or Seizures
Signs & Symptoms of Brain Injury
Physiological Changes
Upper Brainstem Compression
Increasing blood pressure
Reflex bradycardia
Vagus nerve stimulation
Cheyne-Stokes respirations
Pupils become small and reactive
Decorticate posturing
Neural pathway disruption
Signs & Symptoms of Brain Injury
Physiological Changes
Middle Brainstem Compression
Widening pulse pressure
Increasing bradycardia
CNS Hyperventilation
Deep and Rapid
Bilateral pupil sluggishness or inactivity
Decerebrate posturing
Signs & Symptoms of Brain Injury
Physiological Changes
Lower Brainstem Injury
Pupils dilated and unreactive
Ataxic respirations
Erratic with no pattern
Irregular and erratic pulse rate
ECG Changes
Hypotension
Loss of response to painful stimuli
Signs & Symptoms of Brain Injury
Pediatric Head Trauma
Different pathology than older patients
Skull can distort due to anterior and posterior
fontanelles
Bulging
Slows progression of increasing ICP
Intracranial hemorrhage contributes to hypovolemia
Decreased blood volume in ped’s
General Management
Avoid hyperextension of head
Tongue pushes soft pallet closed
Ventilate through mouth and nose
Signs & Symptoms of Brain Injury
Glasgow Coma Scale
Signs & Symptoms of Brain Injury
Eye Signs
Physiological Issues
Indicate pressure on
CN-II, CN-III, CN-IV, & CN-VI
• CN-III (Oculomotor Nerve)
Pressure on nerve causes eyes to be sluggish, then
dilated, and finally fixed
Reduced peripheral blood flow
Pupil Size & Reactivity
Reduced Pupillary Responsiveness
Depressant drugs or Cerebral Hypoxia
Fixed & Dilated
Extreme Hypoxia
Facial Injury
Facial Soft Tissue Injury
Highly vascular tissue
Contribute to hypovolemia
Superficial injuries rarely life threatening and
rarely involve the airway
Deep Injuries can result in blood being
swallowed and endanger the airway
Soft tissue swelling reduces airflow
Consider likelihood of basilar skull fracture or
spinal injury
Facial Injury
Facial Dislocations & Fractures
Common Fractures
Mandibular
• Deformity along jaw & loss of teeth
• Possible airway compromise if patient placed supine
• Evaluate for multiple fracture sites
Maxillary & Nasal
• Le Fort I, II and III Criteria
Orbit
• Involve Zygoma, Maxilla, and/or interior shelf
• Reduction of eye movement
Possible Diplopia
• Limitation of jaw movement
Facial Injury
Nasal Injury
Rarely life threatening
Swelling & Hemorrhage interfere with
breathing
Epistaxis
Most common problem
AVOID NASOTRACHEAL INTUBATION
Passage of ET tube into the cerebral cavity
Facial Injury
Ear Injury
External Ear
Pinna is frequently injured due to trauma
Poor blood supply
Poor healing
Internal Ear
Well protected from trauma
My be injured due to rapid pressure changes
• Diving, Blast, or Explosions
• Temporary or permanent hearing loss
• Tinnitus may occur
Facial Injury
Eye Injury
Penetrating trauma
can result in long term damage
Suspect small foreign body if patient complains of sudden
eye pain and sensation of something on the eye
DO NOT REMOVE ANY FOREIGN OBJECT
Corneal Abrasions & Lacerations
Common & usually superficial
Hyphema
Blunt trauma to the anterior chamber of the eye
Blood in front of iris or pupil
Sub-conjunctival Hemorrhage
Less serious condition
May occur after strong sneeze, severe vomiting or direct
trauma
Facial Injury
Eye Injury
Acute Retinal Artery Occlusion
Non-traumatic origin
Painless loss of vision in one eye
Occlusion of retinal artery
Retinal Detachment
Traumatic origin
Complaint of dark curtain/obstruction in the field of
view
Possibly painful depending on type of trauma
Soft Tissue Lacerations
Neck Injury
Blood Vessel Trauma
Blunt trauma
Serious hematoma
Laceration
Serious exsanguination
Entraining of air embolism
• Cover with occlusive dressing
Airway Trauma
Tracheal rupture or dissection from larynx
Airway swelling & compromise
Neck Injury
Cervical Spine Trauma
Vertebral fracture
Paresthesia, anaesthesia, paresis or paralysis beneath the
level of the injury
Neurogenic shock may occur
Other Neck Trauma
Subcutaneous emphysema
Tension pneumothorax
Traumatic asphyxia
Penetrating Trauma
Esophagus or Trachea
Vagus nerve disruption
• Tachycardia & GI disturbances
Thyroid & Parathyroid glands
• High vascular
Assessment of
Head, Facial & Neck Injuries
Scene Size-up
Initial Assessment
Airway, Breathing, Circulation
Rapid Trauma Assessment
Head, Face, Neck
Glasgow Coma Scale Score
Vital Signs
Focused History & Physical Exam
Detailed Assessment
Ongoing Assessment
Head, Facial, & Neck
Injury Management
Airway
Suctioning
Patient Positioning
OPA & NPA Use
Endotracheal
Intubation
Orotracheal
Digital
Nasotracheal
Retrograde
Direct
RSI
Cricothyrotomy
Breathing
Oxygen
15 LPM/NRB
Ventilations
12-20/min
Hyperoxygenate
Circulation
Hemorrhage Control
Blood Pressure
Maintenance
Fluid resuscitation
Consider PASG
Needle Cricothyrostomy
Locate Site
Cricothyroid Membrane
Cleanse upper
anterior neck
Aseptic Technique
Iodine & Alcohol
Prepare Equipment
14 ga IV catheter
Syringe
Transtracheal jet
insufflation device
6.0 ET Hub
Insert Catheter into
membrane
Downward Angle
Feel “pop”
Advance Catheter
Attach BVM or jet
ventilator
Evaluate breath
sounds
Secure Catheter
• Similar to impaled object
Consider 2nd
catheter for
exhalation
Surgical Cricothyrotomy
Locate Site
Cricothyroid Membrane
Cleanse upper
anterior neck
Aseptic Technique
Iodine & Alcohol
Prepare Equipment
Commercial device
Scalpel
4” ET Tube
Insert scalpel into
membrane
Downward Angle
Feel “pop”
Enlarge opening
Place short ET tube
Evaluate breath
sounds
Secure device
Head, Facial, & Neck
Injury Management
Hypoxia
Prevent/Reduce
Hyperoxygenation with BVM
Hypovolemia
Reduces cerebral perfusion & hypoxia
Consider early management with 2 large bore IV’s
and isotonic fluids
Prevents slower compensatory mechanism
Maintain SBP 90-100 mmHg
Consider PASG
Medications: Oxygen
Primary 1st line drug
Administer high flow
Hyperventilation is contraindicated
Reduces circulating CO2 levels
NRB: 15 LPM
BVM: 12-20 times per minute
Keep SaO2 > 95%
Medications: Diuretics
Mannitol (osmotrol)
MOA
Large glucose molecule
• Does not leave blood stream
• Osmotic Diuretic
Effective in drawing fluid from brain
Contraindication
Hypovolemia & Hypotension
CHF
Dose
1gm/kg
CAUTION
Forms crystals at low temperatures
Reconstitute with rewarming & gentle agitation
USE IN-LINE filter & PREFLUSH line
Medications: Diuretics
Furosemide (Lasix)
MOA
Loop Diuretic
+
Inhibits reabsorption of Na in Kidneys
• Increased secretion of water and electrolytes
+
–
++
++
Na , Cl , Mg , Ca .
Venous dilation & Reduces cardiac preload
May be given in combination with Mannitol
Contraindication
Pregnancy: fetal abnormalities
Dose
Slow IVP or IM over 1-2 minutes
0.5-1 mg/kg: Commonly 40 or 80 mg
Medications: Paralytics
Succinylcholine (Anectine)
MOA
Depolarizing Medication
• Causes Fasciculations
Onset & Duration
Onset: 30-60 seconds
Duration: 2-3 minutes
Precaution
Paralyzes ALL muscles including those of respiration
Increases intraoccular eye pressure
Contraindication
Penetrating eye injury & Digitalis
Dose
1-1.5 mg/kg IV
Consider administration of 0.5 mg of Atropine to reduce
fasciculations
Medications: Paralytics
Pancuronium
(Pavulon)
MOA
Non-depolarizing
agent
Does not affect LOC
Onset & Duration
Onset: 3-5 min
Duration: 30-60 min
Dose
Must premed with
sedative
0.04-0.1 mg/kg
Vecuronium
(Norcuron)
MOA
Non-depolarizing
agent
Does not affect LOC
Onset & Duration
Onset: < 1 min
Duration: 25-40 min
Dose
Consider premed with
sedative
0.08-0.1 mg/kg
Medications: Sedatives
Diazepam
(Valium)
MOA
Benzodiazepine
Anti-anxiety
Muscle relaxant
Onset & Duration
Onset: 1-15 min
Duration: 15-60 min
Dose
5-10 mg
Midazolam
(Versed)
MOA
Benzodiazepine
3-4x potent than
valium
Dose
SLOW IVP
• 1 mg/min
1-2.5 mg titrated
Medications: Sedative
Morphine
MOA
Opium alkaloid
• Analgesic
• Sedation
• Anti-anxiety
Reduces vascular volume & cardiac preload
• Increases venous capacitance
Side Effects
Respiratory depression
Hypovolemia
Dose
5-10 mg IVP
Consider using promethezine with to reduce nausea
Naloxone (Narcan) is antagonist
Medications: Atropine
MOA
Anticholinergic
Parasympathetic
Reduces parasympatholyic stimulation
Reduce oral and airway secretions
Reduce fasciculations
Pupillary dilation
Dose
0.5-1 mg rapid IVP
Medications: Dextrose
Consider if patient is hypoglycemic
Only if VERIFIED by GLUCOMETER
Dose
25 gm IVP
Consider Thiamine if known alcoholic
100 mg Thiamine
Medications: Thiamine
Vitamin B1
Essential for the processing of
glucose through Kreb’s cycle
Chronic alcoholics can have B1
depletion
Dose
100 mg IV or IM
Medications: Topical
Anesthetic Spray
Medications
Xylocaine or Benzocaine
Anesthetize oral and pharyngeal mucosa
• Reduces gag reflex
• Reduces likelihood of ICP associated with vomiting
Inhibits nerve sensation
Onset & Duration
• Onset: 15 seconds
• Duration: 15 minutes
PRECAUTION
• Patient has reduced ability to remove oral fluids
• ASPIRATION can occur
Transport Considerations
Limit external stimulation
Can increase ICP
Can induce seizures
Cautious about Air Transport
Seizures
Emotional Support
Have friend or family provide
constant reassurance
Provided constant reorientation to
environment if required
Keeps patient calm
Reduces anxiety
Special Injury Care
Scalp Avulsion
Cover the open wound with bulky dressing
Pad under the fold of the scalp
Irrigate with NS to remove gross contamination
Pinna Injury
Place in close anatomic position as possible
Dress and cover with sterile dressing
Special Injury Care
Eye Injury
General Injury
Cover injured and uninjured eye
• Prevents sympathetic motion
Consider sterile dressing soaked in NS
Corneal Abrasion
Invert eyelid and examine eye for foreign body
Remove with NS moistened gauze or Morgan’s Lens
Avulsed or Impaled Eye
Cover and Protect from injury
General Care
Calm & reassure patient
Special Injury Care
Dislodged Teeth
Rinse in NS
Wrap in NS soaked gauze
Impaled Objects
Secure with bulky dressing
Stabilize object to prevent movement
Indirect pressure around wound