Transcript Welcome to
Beaumont Children’s Hospital
Pediatric Trauma: What's the
difference?
Robert Morden, MD
Pediatric Trauma Medical Director
What’s the Difference?
Pre-hospital
• Different Mechanisms: Things
children do and their changing
levels of maturity predispose them
to different injury patterns.
• Different Injuries: When involved in
the same kind of accident as adults,
children suffer quite different
injuries.
Epidemiology of Childhood Injury
( the U.S. numbers)
9
.
9.2 million medical visits
151,319 hospitalizations
16% with permanent
disability
Pediatric Trauma Factors
• Sex- males 2x risk
• Economic conditions
• Ethnic group
• Race
• Geography
How are Children Different?
• Anatomically
• Physiologically
• Cognitively
• Psychologically
Age and Injury Related Deaths
• < 1y/o: airway obstruction
• 1 to 4: drowning and
transportation related
• 5 to 9: MVA
• 10 to 14: MVA
Injury Pyramid
Injury Fatality Rate
Haddon “Matrix” and Injury
Prevention
• Injuries result from predictable
events and thus offer an opportunity
for systemic intervention
• Pre-event
• Event
• Post-event
Interventions
• Cross walk timers
• Helmets
• Seat belts
• Child proofing
• Smoke alarms
Trimodal Pattern of Trauma
Mortality and Morbidity
I.
Death at the scene ie CNS and
central vasculature. (prevention)
II. Second peak minutes to hours
after ie solid organ, CNS,
Cardiothoracic. (focus of ATLS
protocols) preventable deaths
III. Days or weeks ie complications,
RDS, infection. Uncommon in
children
The ABCDE of Pediatric Trauma
• Application of a systemic protocol
designed to standardize diagnostic
and treatment decisions so that
individual variations in patterns of
injury do not distract the caregivers
from recognizing and treating
injuries that can have a profound
impact upon outcome.
The Difference: Pre-hospital
• Kids are more difficult to intubate50% failure rate.
• IV access-50% failure.
• Unfamiliar with pediatric
resuscitation; pediatric patients
account for only 10% of paramedic
transport volume.
• Emotional factors-terrified child,
distraught parent.
Airway Priorities
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Ensure Oxygenation
Ensure Ventilation
Protect Spine
Protect Airway
Considerations
• When and When not to intubate.
O2 Sat <95% =clinical hypoxia
Assess airway (teeth, debris,blood)
• Neurologically intact and phonates
normally, and ventilates without stridor
then leave them alone and monitor only.
• Coma, combativeness, shock, or direct
trauma then needs a tube.
Pediatric Intubation
• Children’s airways
differ both
anatomically and
physiologically.
• The best trained
should intubate.
• Have appropriate
equipment and
medication available
for best results.
• Pediatric Airway Differences
• Subglottic –tube type and size
affect
• Narrow oropharynx
• Larynx—anterior and cephalad
• Epiglottis—short, floppy, angled
acutely
• Vocal Cords— difficult to
visualize and are fragile and
easily torn
• Trachea Shorter—endobronchial
intubation and dislodgement are
more common in kids.
More Pediatric Airway
Considerations
• Nose breather—first 4
to 6 months
• Large tongue—relative
to adults (jaw lift)
• Large head—occiput
flexes head forward
(support neck for
neutral position)
Video Laryngoscope
Breathing (the differences)
• Laryngeal Mask Airway
– unsuccessful then
• Cricothyrotomy >10 and needle 16 or 18
gauge if <10
• Tracheostomy—ONLY IN OR
• Impaired spontaneous ventilatory drive
– head injury
• Impaired lung expansion
– thoracic injury
• Mortality rate for thoracic trauma in children
is 25%
Breathing
• Pediatric mediastinum mobile
– more susceptible to tension pneumo
• Compliant chest wall
– more susceptible to injury to the
cardiothoracic structures. (severe lung
contusions)
Circulation
Seriously injured children often
have normal vital signs even with
significantly decreased circulating
volume as a result of a remarkable
cardiovascular reserve.
Circulation
• In children, hypotension in the
presence of blood loss = OMINOUS
SIGN
• Child’s blood volume 80-90ml/kg vs
adult 65-70ml/kg
• Fixed stroke volume infants. To
increase cardiac output can only
increase heart rate.
Circulation
Clinical Signs of Shock
System
< 25% Blood Loss
25%-45% Blood
> 45% Blood Loss
Loss
Cardiac
CNS
Skin
Renal
Weak, thready
Tachycardia
pulse; increased
heart rate
Lethargic, irritable, Changing level of
confused
consciousness;
dulled response to
pain
Cool, clammy
Cyanotic, decreased
capillary refill, cold
extremities
No decrease in
Decreased urine
output, increased
output
specific gravity
Hypotension,
tachycardia to
bradycardia
Comatose
Pale, cold
No urine output
Circulation
• Vascular access-2 lines (above and
below)
• Central lines (if experienced)
• Cut downs (saphenous easiest)
• Interosseous (<6, 14 or 16 gauge,
IO needle preferred)
• Fluids 20ml/kg RL
• If after 40ml/kg –give pRBC
10ml/kg(AB0)
Intraosseous Line
• Less than 6 years of age
• Fluids, blood products, and
drugs can be given
• Proximal tibia or distal
femur best location
• Fracture of the bone only
contraindication
• Obtain alternate access
ASAP
Circulation
Signs of adequate perfusion
-Slowing HR (<100)
-Increase in Pulse Pressure(>20)
-Normal skin color
-Increase warmth of extremities
-Improving GCS
-Increase systolic BP (>80)
-Urinary output-1-2 infant/ 1 child
Circulation
If hemodynamic remains unstable
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hemorrhage intraabdominal or pelvic
cardiac dysfunction
tension pneumothorax
CNS (atlantooccipital dissociation)
profound hypothermia
Disability
• A rapid CNS evaluation
A—alert
V—voice responsive
P—pain responsive
U—unresponsive
• Pupillary responsiveness and
symmetry
Disability
• GCS 13-15 mild TBI; 9-12 moderate TBI;
3-8 severe TBI (70% mortality)
• May have significant blood loss from
associated scalp laceration
• Basilar skull fracture
– Raccoon's eyes, hemotympanum, otorrhea,
rhinorrhea
– Indicates significant force but not important
to immediate outcome
– No prophylactic antibiotics
Disability
• Open sutures (the fontanelles)
-Ant. Open age 12-18mo
-Post. Open 2mo
• Thinner cranial bones
• Head relatively larger
-heat loss
-higher center of gravity-more
head trauma
Exposure
• Relatively small size
– greater likelihood of multiple organ injury
• Higher BMR and surface area
– heat loss and increase oxygen consumption
• Increased glucose needs and low
glycogen
– small glycogen stores therefore monitor
glucose levels.
Exposure
• Hypothermia effects
– cognitive function
– cardiac activity
– coagulation
• Keep core temp 35 to 36 degrees
Celsius
– warm room, bed, fluids, gases
Other thoughts
• Gastric dilatation-NG tube
– respiratory compromise and vagal
bradycardia. Decreases risk of
aspiration.
– no if facial fx or rhinorhea
• Foley only after perineal
assessment
• ECG-rarely abnormal but if it is then
multiple possibilities.
CNS Injury
• Cause of 70% of the deaths.
• <2 Non-Accidental Trauma (abuse)
is the most common cause.
• >2 falls, MVA, bicycle, pedestrian.
• Traumatic Brain Injury
-Primary or Secondary
Primary
• Structural derangement of cerebral
architecture from direct mechanical
impact
-cellular and vascular disruption
-infarction
-tissue loss
-epidural hematoma(thin skull)
-subdural (less common)
Secondary
• Decreased cerebral perfusion after
the event
– brain swelling leads to impairment of O2 and
substrate.
– treatment principle is to protect cerebral
perfusion and is the difference between
disaster and success.
CPP=MAP-ICP
Secondary
• Maintain ICP <20mmHg in all ages
• CPP >45mmHg in <8 years
• CPP>70 to 80 mmHg older than 8 years
– intubate and controlled hyperventilation
• Pco2 30 to 35, Po2>100,and PH 7.4
-ventriculostomy to optimize CPP
-osmotherapy (Mannitol or 3%Saline)
-mild to moderate hypertension
• Decompressive craniectomy when ICP
refractory
Spinal Cord Injury
• C1 and C2 fx unlike adults C6/C7
• Compression and flexion distraction
fx
– (Chance)
• SCIWORA-Spinal cord injury
without radiologic abnormality
– 10-20% of SCI
– a documented neurologic deficit that
may have changed or resolved
• MRI
The Childs Chest
• Narrow airway-obstructs easier
• Anterior/Superior glottis-difficult
intubation
• Shorter trachea-endobronchial intubation
• Diaphragmatic breathing-hypoxia with
abdominal distension
• Compliant rib cage-retraction and injury
• Mobile mediastinum-tension pnemo
Clinical Predictors of Chest Injury
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Hypotension
Increased respiratory rate
Abnormal physical exam of chest
Femur Fx
GCS<15
– 98% of proven chest injuries had 1 or
more of these.
Thoracic Injuries
• Second leading cause of death
• In absence of external signs of
trauma significant intrathoracic
injury
– pliable chest
– mobile mediastinum
• >50% of rib fx in <3 year olds
– abuse
Thoracic Injury
• Pneumothorax-blunt burst type injury
usually
• Not all need chest tubes. If <20% and
O2 Sat OK.
• 4th or 5th intercostal space
• Newborn 12 –16F
• Infant 16 –18 F
• School age 18-24 F
• Adolescent 28 –32 F
Pneumothorax
Tension Pneumothorax
(usually a major injury if seen)
• Severe distress,trachea shift, neck
vein distension, collapsed lung with
flattened diaphragm, reduced
venous return to heart.
• Treatment immediate needlecatheter (without waiting for Xray)
2nd intercostal space anteriorly or
lateral in 4th or 5th .
Hemothorax
• Most bleeding stops-low pressure
pulmonary circulation
• Massive-laceration of vessel (intercostal
commonest)
• Thoracotomy consider:
-Initial blood 20-25% of EBV
-4ml/kg/hr
-Increasing bleeding
-If can’t get out clot
Pulmonary Contusion
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Commonest Injury
Rare to need ventilation
Rare to go on to ARDS
Differentiate from Aspiration
Most clear in 7 to 10 days.
Trachea and Bronchi
• Rare but often fatal
• Presentation-Voice disturbance,
cyanosis, hemoptysis,
• Massive sub Q air and mediastinal
emphysema
• Large leak from chest tube.
• ATLS and then OR unless stable
Heart and Pericardium
• Concussion –commotio cordis
• Contusion-commonest and difficult
to diagnosis (rarely of clinical
significance in children)
• Myocardial rupture-commonest
cause of death in blunt trauma. (if
survive may see tamponade.)
Pericardial Tamponade
• Suspect when-tachycardia,
peripheral vasoconstriction, jugular
venous distension, persistent
hypotension despite fluids.
• Beck’s triad-elevated jugular
venous pressure, systemic
hypotension, muffled heart sounds
(rarely seen in acute trauma)
• Diagnosis –FAST exam and
transthoracic echo.
Traumatic Asphyxia
• Unique to Children
• Compression of Chest and/or Abdomen
against a closed glottis
• Increase in intrathoracic pressure leads
to increase in the SVC pressure and the
veins from the upper body that drain into
it.
• Extravasation of blood into skin, sclera,
brain
• Seizures, disorientation, petechiae of
upper body and conjunctivae
• Most recover
Petechiae
Pediatric Abdomen Difference
• Thin musculature (particularly <2)
• Ribs flexible-don’t protect or
dissipate energy
• Solid organs larger
• Lower fat content
• Elastic attachments
• Higher bladder
The Abdomen Exam
• Abdominal wall bruising:
– 74% of children with had major injury
– 99% of children without had none
• Lower rib fracture:
– associated with 31% splenic injury
and 15% hepatic injury
The FAST?
• Focused Assessment Sonography in
Trauma
• Useful – free fluid detection, pericardial
+/• Not useful-solid organ injury (does not
determine grade)
• Limitations: user dependent, high false
negative results.
• Conclusions: Get CT if suspicious.
Solid Organ Injury
Splenic Laceration
Liver Laceration
Solid Organ Injury
• The non-operative management:
– Universally successful and the
standard of care >90%
– Yet: The operative rate is 4 to 6 times
greater in non-pediatric centers.
• Operate when hemodynamic
instability unresponsive to
crystalloid and blood transfusion
.
Lab studies and blunt abdominal
trauma
• CBC,TandC
• U/A
• Transaminases : elevated AST and
ALT strong association alone with
injury.
• Pancreatic enzymes: controversial
but baseline importance.
Seat Belt Sign
Bowel Injuries
CT or not CT
• Glasgow coma scale 14 or >
• No evidence of abdominal wall
trauma
• No abdominal tenderness
• No complaints of abdominal pain
• No vomiting
• No thoracic wall trauma
• No decreased breath sounds.
Case Study: KW
• 11 yo female presented 16 hours
following fall on cement block
• CC epigastric pain, nausea and
emesis
• PMH/PSH negligible
Case Study: KW
• Physical Exam
• Afebrile, HR 120, BP 90/50
• NAD, Pale, lethargic, dry mucous membranes
• Abdomen soft, ND, TTP epigastrium, abrasion
across left subcostal extending across anterior
chest
Pancreatic Injury
Pancreatic Injury
• Treated non-operatively
• NPO/IVF/TPN
• PTD 7, +Clears introduced
• PTD 14 discharged home on TPN and
clear diet
• 10/2 ultrasound, no pseudocyst, diet
advanced
Pediatric Renal Trauma
• Most commonly injured abdominal organ in
blunt trauma.
– Fetal lobulations predispose to renal seperation
– Less protection by pliable thoracic cage and less
developed musculature
– Higher incidence of pedicle injury
• 80 % with renal injury has associated nonrenal injuries
Pediatric Renal Trauma
• Pre-existing renal abnormalities are 3-5 times
more common in peds patients undergoing
screening CT for trauma than in adults.
• Classically, congenital renal abnormality
presents with hematuria disproportionate to
severity of trauma
Organ Injury Scale
Case Study: BF
• 15 y/o male presents to OSH after he was hit
with a line drive while playing indoor baseball
• C/O pain to R abdomen/rib/flank
• Pain is getting progressively worse and
patient is now vomiting
Case Study BF: Exam
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No acute abdominal tenderness
Unilateral rib x-rays negative
Labs drawn-CBC, CMP, PT/PTT
Given Vicodin and Zofran for pain and
nausea
• UA ordered and staff recognized gross
hematuria, A/P CT was ordered
Case Study BF: Diagnosis
• CT shows at least AAST grade III laceration
involving the medial interpolar right kidney
with moderate surrounding perinephric
hematoma.
• Patient transferred to RO Beaumont for eval.
Case Study BF: Admit
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Admit to Peds Urology
q6hr Hgb
-strict bed rest
-IVF
-pain control
-PICU for monitoring
-Type and Cross
Case Study BF: Disposition
• Patient was treated non-operatively
• He remained in Pediatric ICU for 2 days, and
was transferred to the peds floor for 4 more
days.
• Was discharged on day 6; home care
included bedrest for 1 month and no school
Case Study: GSW
• 3 year old boy found fathers 45 under
mattress inserted in mouth and pulled
the trigger. Presents with bleeding from
mouth and exit wound below mandible
on right.
• A: Unable to visualize cords (blood and
swelling)
• B: Harsh breath sounds
• C: BP normal, mild Tachycardia
• D: Crying (Glasgow 15)
Case Study: GSW
Child Abuse “Red Flags”
• Discrepancies in story
• Changing history
• Inappropriate response
– parents and child
• Multiple injuries in past
• Classic abuse injuries
• Child’s development
• Sexual abuse
Injuries that would be suspicious for
abuse
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Multiple SDH, retinal hemorrhage
Ruptured viscus without antecedent history
Perianal, genital trauma
Multiple scars, fractures of varying age
Long bone fractures less than 3 years old
Bizarre injuries: bites, cigarette burns, rope
marks
• Sharply demarcated burns
Overview: What’s the difference
Characteristic
Result
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Large BSA
Poor neck musculature
Large blood volume in head
Decreased alveolar surface area
High metabolic rate
Small airway
Heart high in chest
Small pericardial sac
Compliant skeleton
Thin walled, small abdomen
Poorly developed renal function
Hypothermia
Flex/extension injury
Cerebral edema
Rapid desats
Rapid desats
Inc airway resistance
Injury/tamponade
Injury/tamponade
Fracture less common
Organs not protected
Risk renal failure
Questions?