Download
1 / 32
360 likes | 772 Views
EXAMINATION: If thou examinest a man having a dislocation in a vertebra of his neck, shouldst thou find him unconscious of his two arms (and) his two legs on account of it, while his phallus is erected on account of it, (and) urine drop from his member without his knowing it; ... DIAGNOSIS: Thou s
E N D
1. Trauma Anesthesia John Killpack, CRNA, MSN
Director, Anesthesia Services
US Air Force Center for Sustainment of Trauma and Readiness Skills (CSTARS) - Maryland
RA Cowley Shock Trauma Center
University of Maryland Medical System
Baltimore, MD Disclaimer: Any statements or data provided in this presentation are purely the work of the author and should not be construed as reflecting on the Department of Defense, US Air Force or the University of Maryland Medical System.Disclaimer: Any statements or data provided in this presentation are purely the work of the author and should not be construed as reflecting on the Department of Defense, US Air Force or the University of Maryland Medical System.
2. The more things change, the more things stay the same.The more things change, the more things stay the same.
4. Trauma awareness Multiple organizations to study trauma care, promote prevention and educate providersMultiple organizations to study trauma care, promote prevention and educate providers
5. Interesting Trivia Direct costs of trauma ~ 7% total health care expenditures
1/3 of hospital admissions
(19 million hospital days)
> cardiac care, 4X > cancer
Elderly = 33% of trauma care, are 5X more likely to die from trauma
6. Nationwide Incidence of Trauma by Age If any of you want to believe in the stupid male theory, this supports your prejudice
Note the dramatic increase in female victims after age 74, due to increased female longevity
Also note increase in percentage of death as age increases, probably due to co-morbiditiesIf any of you want to believe in the stupid male theory, this supports your prejudice
Note the dramatic increase in female victims after age 74, due to increased female longevity
Also note increase in percentage of death as age increases, probably due to co-morbidities
7. Nationwide Incidence and Death Rates by Mechanism of Injury Ped = Pedestrian struck
Note increase in percentage of deaths with penetrating
No listing for incidence of “I was just minding my own business when these two dudes came up and started beating/stabbing/shooting me…”Ped = Pedestrian struck
Note increase in percentage of deaths with penetrating
No listing for incidence of “I was just minding my own business when these two dudes came up and started beating/stabbing/shooting me…”
8. Will not guide care, but more as quality assurance/ research tool
http://www.trauma.org/scores/rts.html score calculatorWill not guide care, but more as quality assurance/ research tool
http://www.trauma.org/scores/rts.html score calculator
9. Pathophysiology Blood loss leads to Hypovolemia
Activation of hypothalamic-pituitary-adrenal axis
Renin/ angiotensin
Vasopressin
Acth
Catecholamine release
Hyperglycemia
Renin released from juxtaglomerular cells in kidney
Renin releases angiotensin, converted in lung to angiotensin II
Angiotensin, like name indicates, causes vasoconstriction
ACTH (stress hormone) released, may lead to eventual exhaustion of catecholamine
Catecholamine release
Increase heart rate, pump what’s still in the pipes faster, raising bp
Vasoconstrict with alpha receptors
Frequently see blood sugar > 150, some discussion on when to treat
- improved outcomes if keep sugar 80-120 in ICU
- debate still rages about acute treatment
Aldosterone and Anti-diuretic Hormone late responseRenin released from juxtaglomerular cells in kidney
Renin releases angiotensin, converted in lung to angiotensin II
Angiotensin, like name indicates, causes vasoconstriction
ACTH (stress hormone) released, may lead to eventual exhaustion of catecholamine
Catecholamine release
Increase heart rate, pump what’s still in the pipes faster, raising bp
Vasoconstrict with alpha receptors
Frequently see blood sugar > 150, some discussion on when to treat
- improved outcomes if keep sugar 80-120 in ICU
- debate still rages about acute treatment
Aldosterone and Anti-diuretic Hormone late response
10. Blood Loss Where does blood loss happen?
What is shock? Can lose significant volumes of blood from these spaces
Thorax- up to entire blood volume
Abdomen- up to entire blood volume, but not seen as often
Pelvis/retroperitoneal- up to entire blood volume, can tamponade it with stabilization/ closure of broken pelvis
Thigh- up to 1200 cc
Humerus- up to 750 cc
Ribs up to 150 cc/ rib fracture
Street- entire blood volume
Cranium closed space, usually limits itself to <400 ccCan lose significant volumes of blood from these spaces
Thorax- up to entire blood volume
Abdomen- up to entire blood volume, but not seen as often
Pelvis/retroperitoneal- up to entire blood volume, can tamponade it with stabilization/ closure of broken pelvis
Thigh- up to 1200 cc
Humerus- up to 750 cc
Ribs up to 150 cc/ rib fracture
Street- entire blood volume
Cranium closed space, usually limits itself to <400 cc
11. hypovolemia Other signs of hypovolemia
- precipitous drop with administration of narcotic
- severe drop in cardiovascular tone with induction out of proportion to dosage
- respiratory variation >10 mm on arterial line with positive pressure ventilation
-- High Peak inspiratory pressures can confound
- alteration in shape of arterial line tracing (wide and round vs. tall and peaked), may be result of cardiac function, valve abnormalities
- loss of dicrotic notch (not always reliable)
Urine output best indicator of end organ perfusion (without pulmonary catheter and mixed venous sats %), don’t be confused by mannitol, diuretics, early/late Acute Renal Failure, etc.Other signs of hypovolemia
- precipitous drop with administration of narcotic
- severe drop in cardiovascular tone with induction out of proportion to dosage
- respiratory variation >10 mm on arterial line with positive pressure ventilation
-- High Peak inspiratory pressures can confound
- alteration in shape of arterial line tracing (wide and round vs. tall and peaked), may be result of cardiac function, valve abnormalities
- loss of dicrotic notch (not always reliable)
Urine output best indicator of end organ perfusion (without pulmonary catheter and mixed venous sats %), don’t be confused by mannitol, diuretics, early/late Acute Renal Failure, etc.
12. Resuscitation Responder vs. non-responder
When is enough enough?
Fluid choice
“I can’t see the benefit of putting water into a leaking wine skin” Responder vs. non-responder
Administer fluid challenge (500-1000 ml) and note results
Responder SBP, HR return to normal
Transient- SBP, HR approach normal, gradually drop
Indicates ongoing blood loss
Non-Responder- no response to challenge
Indicates high loss of blood, may not be able to replace blood as fast as its lost
Surgery most likely best answer, too unstable to CT scan/ other monitoring
Lab Tests for adequate resuscitation
Mixed venous saturations (>70%)
Rarely have swan in place
Lactate/ base deficit
May rise as tissue reperfuses
Monitor trend
Hgb may not indicate volume status
body will vasoconstrict to counteract blood loss/ hypovolemia. As Hgb is measurement of concentration, and concentration has not changed (less total Hgb, but still 10 gm/dL in less volume), total Hgb may appear artificially high.
will frequently see drop in Hgb with adequate resuscitation
PULSE OXIMETER TEST- MULTIPLE PULSE OXIMETERS ON EAR, NOSE, FINGERS TO TRY AND PICK UP PULSE
Adequte Early Resuscitation will decrease late MODS
Oxygen Debt
Develops as tissue deprived of circulation, oxygen
Needs to be repaid early to avoid bad outcome
Hct> 30 correlates with better outcome
Lactate normal at 24 hours = best response
Lactate elevated at 48 hours = worst MODS/mortality
Vital signs may also confuse you
Tachycardia with pain, drugs, strong emotions, etc.
Normotensive vs. hypotensive
Increased SBP may pop off clot, resume bleeding
Improved outcomes with SBP of 80 in liver injuries (one center), penetrating thoracic (one urban city)
Unclear if hypotension benefits blunt trauma
Crystal vs. colloid
Crystalloid
1:3 replacement
crystal cheaper
no reactivity
LR slightly hypo-osmotic
transient intravascular, contributes to edema
excess normal saline leads to hyperchloremic acidosis
may worsen lactic acidosis, coagulopathy
Colloid
1:1 replacement
remains intravascular (hopefully)
more expensive than crystalloid
shows worse outcomes (albumin, mainly from tissue leakage)
can worsen/ cause coagulopathy
possible allergic reactions
Blood
replaces oxygen carrying capability
replaces coag factors
risk of infection
risk of reaction
chilled, must be warmed
excess citrate leads to hypocalcemia
religious/ personal refusal
expensive to gather, test, store
HBOC
Obtained from bovine/ genetically altered bacterium
Carry oxygen similar to RBC encapsulated hgb
Encapsulated to circulate at sub-micron level
Sterile, non-disease transmitting
Can be stored 3-6 months
Can cause vasoconstriction (scavenge nitric oxide in vessels)
Undefined effect in trauma, currently have several Level III trials ongoing
Perfluorcarbon
Related to Teflon
Can be oxygenated, circulated
Rapidly breaks down in circulation
Rarely able to re-oxygenate in lung
Performs like hemoglobin
Mainly useful in PTCAResponder vs. non-responder
Administer fluid challenge (500-1000 ml) and note results
Responder SBP, HR return to normal
Transient- SBP, HR approach normal, gradually drop
Indicates ongoing blood loss
Non-Responder- no response to challenge
Indicates high loss of blood, may not be able to replace blood as fast as its lost
Surgery most likely best answer, too unstable to CT scan/ other monitoring
Lab Tests for adequate resuscitation
Mixed venous saturations (>70%)
Rarely have swan in place
Lactate/ base deficit
May rise as tissue reperfuses
Monitor trend
Hgb may not indicate volume status
body will vasoconstrict to counteract blood loss/ hypovolemia. As Hgb is measurement of concentration, and concentration has not changed (less total Hgb, but still 10 gm/dL in less volume), total Hgb may appear artificially high.
will frequently see drop in Hgb with adequate resuscitation
PULSE OXIMETER TEST- MULTIPLE PULSE OXIMETERS ON EAR, NOSE, FINGERS TO TRY AND PICK UP PULSE
Adequte Early Resuscitation will decrease late MODS
Oxygen Debt
Develops as tissue deprived of circulation, oxygen
Needs to be repaid early to avoid bad outcome
Hct> 30 correlates with better outcome
Lactate normal at 24 hours = best response
Lactate elevated at 48 hours = worst MODS/mortality
Vital signs may also confuse you
Tachycardia with pain, drugs, strong emotions, etc.
Normotensive vs. hypotensive
Increased SBP may pop off clot, resume bleeding
Improved outcomes with SBP of 80 in liver injuries (one center), penetrating thoracic (one urban city)
Unclear if hypotension benefits blunt trauma
Crystal vs. colloid
Crystalloid
1:3 replacement
crystal cheaper
no reactivity
LR slightly hypo-osmotic
transient intravascular, contributes to edema
excess normal saline leads to hyperchloremic acidosis
may worsen lactic acidosis, coagulopathy
Colloid
1:1 replacement
remains intravascular (hopefully)
more expensive than crystalloid
shows worse outcomes (albumin, mainly from tissue leakage)
can worsen/ cause coagulopathy
possible allergic reactions
Blood
replaces oxygen carrying capability
replaces coag factors
risk of infection
risk of reaction
chilled, must be warmed
excess citrate leads to hypocalcemia
religious/ personal refusal
expensive to gather, test, store
HBOC
Obtained from bovine/ genetically altered bacterium
Carry oxygen similar to RBC encapsulated hgb
Encapsulated to circulate at sub-micron level
Sterile, non-disease transmitting
Can be stored 3-6 months
Can cause vasoconstriction (scavenge nitric oxide in vessels)
Undefined effect in trauma, currently have several Level III trials ongoing
Perfluorcarbon
Related to Teflon
Can be oxygenated, circulated
Rapidly breaks down in circulation
Rarely able to re-oxygenate in lung
Performs like hemoglobin
Mainly useful in PTCA
13. Hypothermia Cause
Effects
Increased Oxygen demand
Decreased peripheral perfusion
Coagulopathy
Decreased immune response/ healing
Treatments Effects of hypothermia
body attempts to conserve heat by shifting blood to core, leading to peripheral vasoconstriction
O2 delivery reduced, cellular metabolism may increase faster than O2 delivery
may worsen anaerobic metabolism, dropping pH, worsening coagulopathy
May have higher rates wound infection, slower healing
Coagulopathy
cold reduces actions enzymes
10% per degree C below 35
decreased liver flow may reduce production/ distribution coag factors.
Actions to raise Temp
Best treatment is prevention
KEEP PATIENT COVERED!!
simple, but frequently missed
Warm fluids
Ranger, Hot Line, Level One
Raise room temp (let the surgeon complain, it’s easier than chasing your tail with DIC)
Warm lavage w/ foley, NG tube
Extreme cases – Venous-Venous bypass.
Effects of hypothermia
body attempts to conserve heat by shifting blood to core, leading to peripheral vasoconstriction
O2 delivery reduced, cellular metabolism may increase faster than O2 delivery
may worsen anaerobic metabolism, dropping pH, worsening coagulopathy
May have higher rates wound infection, slower healing
Coagulopathy
cold reduces actions enzymes
10% per degree C below 35
decreased liver flow may reduce production/ distribution coag factors.
Actions to raise Temp
Best treatment is prevention
KEEP PATIENT COVERED!!
simple, but frequently missed
Warm fluids
Ranger, Hot Line, Level One
Raise room temp (let the surgeon complain, it’s easier than chasing your tail with DIC)
Warm lavage w/ foley, NG tube
Extreme cases – Venous-Venous bypass.
14. ARDS High incidence in trauma victims
Long bone fractures
Head injuries
Multiple transfusions
Pulmonary/ thoracic injuries
sepsis
Signs and symptoms?
Onset?
Intraoperative measures? Signs/symptoms
Cotton candy on Xray
Leakage of plasma and erythrocytes into interstitial and alveolar spaces
Complement activation with release toxic oxygen radicals and lysosomal proteases
Micro emboli
Early signs
Tachypnea
Dyspnea
ABG- respiratory alkalosis (hyperventilation, mild hypoxemia)
Later signs
Hypoxemia refractory to oxygen administration
Right to left shunt from fluid filled/ collapsed alveoli
Increased peak inspiratory pressures
Onset
12-24 hours after injury
Treatment goals
Reduce peak inspiratory pressures
Maintain oxygenation
Increase PEEP (keep <10 cm water)
Increase inspiratory time (inverse I:E ratios)
Goal is to increase mean airway pressures without increasing Peak inspiratory pressures/ PEEP
APRV mode used at our facility
Signs/symptoms
Cotton candy on Xray
Leakage of plasma and erythrocytes into interstitial and alveolar spaces
Complement activation with release toxic oxygen radicals and lysosomal proteases
Micro emboli
Early signs
Tachypnea
Dyspnea
ABG- respiratory alkalosis (hyperventilation, mild hypoxemia)
Later signs
Hypoxemia refractory to oxygen administration
Right to left shunt from fluid filled/ collapsed alveoli
Increased peak inspiratory pressures
Onset
12-24 hours after injury
Treatment goals
Reduce peak inspiratory pressures
Maintain oxygenation
Increase PEEP (keep <10 cm water)
Increase inspiratory time (inverse I:E ratios)
Goal is to increase mean airway pressures without increasing Peak inspiratory pressures/ PEEP
APRV mode used at our facility
15. Assume: Full Stomach
Cervical Spine Injury with Blunt Force
hypotension with tachycardia from hypovolemia
altered LOC from injury/ hypoperfusion/hypoxia, not just intoxication
hypothermia
…The worst until proven otherwise…
16. requirements Method to secure airway
Induction drugs/ amounts?
Sniffing position?
2 large bore IV
Subclavian vs. IJ cortis
Method to deliver high fluid volumes
Ris vs. level one Inductions drugs
Most any acceptable
Pentothal “guaranteed kill” in Vietnam, we routinely give it (at 100-200 mg)
Propofol has increased hypotensive effect
Ketamine usually good, can cause hypotension if catecholamines exhausted
Etomidate can cause hypotension if enough given
Lidocaine usually good to blunt airway response
Frequently only induction drug is Lidocaine/ succinylcholine
Reduce dosages in hypotension
More on airway later
IV access
Often have subclavian/ femoral access for central line
If working on chest/ doing CPR, femoral easy to get at
Don’t rely on it if have intra-abdominal injury
Access above and below injury
Subclavian over IJ as neck usually not cleared
If do subclavian, keep syringe flat to chest (no hooking it under clavicle)
Place in side with chest tube in place
1-5% chance pneumothorax, put it in a side where they can’t blame you
Double or triple lumen slow to infuse, even 14/16 g catheters
Try to get it in place before drapes go up
Level one expensive (~$200/ kit), shouldn’t be used with crystalloid bags (may push in air embolism)
Rapid Infusion System
Reservoir
Can mix products, crystalloid, blood
Warms as infuses
Fastest rate ~1.5 liters/ minuteInductions drugs
Most any acceptable
Pentothal “guaranteed kill” in Vietnam, we routinely give it (at 100-200 mg)
Propofol has increased hypotensive effect
Ketamine usually good, can cause hypotension if catecholamines exhausted
Etomidate can cause hypotension if enough given
Lidocaine usually good to blunt airway response
Frequently only induction drug is Lidocaine/ succinylcholine
Reduce dosages in hypotension
More on airway later
IV access
Often have subclavian/ femoral access for central line
If working on chest/ doing CPR, femoral easy to get at
Don’t rely on it if have intra-abdominal injury
Access above and below injury
Subclavian over IJ as neck usually not cleared
If do subclavian, keep syringe flat to chest (no hooking it under clavicle)
Place in side with chest tube in place
1-5% chance pneumothorax, put it in a side where they can’t blame you
Double or triple lumen slow to infuse, even 14/16 g catheters
Try to get it in place before drapes go up
Level one expensive (~$200/ kit), shouldn’t be used with crystalloid bags (may push in air embolism)
Rapid Infusion System
Reservoir
Can mix products, crystalloid, blood
Warms as infuses
Fastest rate ~1.5 liters/ minute
17. Skills to Master Fluid Management
Hypothermia
Coagulopathies
Electrolyte disturbances
Effects of rapid transfusion on multiple organ systems
18. Skills to Master, Cont Inline Intubation/ Control Traumatized Airway
19. Airway Management challenges RSI
Cervical spine injury
Airway injury
Suboptimal conditions
Options?
Awake nasal intubation RSI required on all trauma victims
No one waits until after their accident to go to McDonalds
Do not allow assistant to release cricoid until you tell them
Everyone is excited, it’s your job to make sure things go smoothly
Cervical spine injury
1-3% all major trauma
10% in head first fall/ high speed MVA
X-Ray, CT, painful neck
Makes life exciting
All victims will get inline stabilization
Assistant will kneel to left side and hold neck (full contact, no Vulcan mind meld fingertip to the temple)
Once head secure, remove collar
Assistant may not release head until collar replaced
May be several minutes, suggest sitting on stool at side
Some may stabilize from below, institution preference
Usually so much is going on that they’ll be in the way
Airway injury
Edema
Blood
Mucking about by pre-hospital providers / ED docs/ med students
Through and through GSW of neck with dissection infra-glottal
Good view with direct laryngoscopy, but no breath sounds/ EtCO2
Unable to locate rings with surgical airway
Passed tube through entry wound
Suboptimal conditions
Blood, foreign objects
Over bed/ under objects
Neutral neck, cricoid pressure, inline stabilization, no shoulder/ head bump
Options
Fiberoptic
Usually don’t have time
Blood/ secretions make it more difficult than other times
Bullard
Slightly easier to use than fiber optic
Expensive, may not have available
FASTrac LMA
Cricoid pressure deforms pharyngo-laryngeal space, makes it more difficult to use
Hard to find all the pieces in the heat of the moment
Concerns over aspiration risks
Gum elastic bougie/ Eschmann
Useful in Grade III/IV views
Blindly pass under epiglottis, feel for tracheal rings from bent tip
place ETT over bougie, advance with rotation motion
Awake nasal intubation
Contraindicated in basalar skull fracture
Underlying coagulopathy may lead to unacceptable bleeding
RSI required on all trauma victims
No one waits until after their accident to go to McDonalds
Do not allow assistant to release cricoid until you tell them
Everyone is excited, it’s your job to make sure things go smoothly
Cervical spine injury
1-3% all major trauma
10% in head first fall/ high speed MVA
X-Ray, CT, painful neck
Makes life exciting
All victims will get inline stabilization
Assistant will kneel to left side and hold neck (full contact, no Vulcan mind meld fingertip to the temple)
Once head secure, remove collar
Assistant may not release head until collar replaced
May be several minutes, suggest sitting on stool at side
Some may stabilize from below, institution preference
Usually so much is going on that they’ll be in the way
Airway injury
Edema
Blood
Mucking about by pre-hospital providers / ED docs/ med students
Through and through GSW of neck with dissection infra-glottal
Good view with direct laryngoscopy, but no breath sounds/ EtCO2
Unable to locate rings with surgical airway
Passed tube through entry wound
Suboptimal conditions
Blood, foreign objects
Over bed/ under objects
Neutral neck, cricoid pressure, inline stabilization, no shoulder/ head bump
Options
Fiberoptic
Usually don’t have time
Blood/ secretions make it more difficult than other times
Bullard
Slightly easier to use than fiber optic
Expensive, may not have available
FASTrac LMA
Cricoid pressure deforms pharyngo-laryngeal space, makes it more difficult to use
Hard to find all the pieces in the heat of the moment
Concerns over aspiration risks
Gum elastic bougie/ Eschmann
Useful in Grade III/IV views
Blindly pass under epiglottis, feel for tracheal rings from bent tip
place ETT over bougie, advance with rotation motion
Awake nasal intubation
Contraindicated in basalar skull fracture
Underlying coagulopathy may lead to unacceptable bleeding
20. Interesting Airway Consults 16 y.o. male riding ATV collided with tree
Walked 1.5 miles to home, called ems
Vs stable, Speech slightly slurred, gcs 15
Left radial pulse < right
100 % SAT on 10 L/min nrb
Reported “stick in the neck” 16 year old male riding 4 wheel ATV ran into tree. Walked 1.5 miles to his home and called EMS.
EMS report “stick in neck”,
Speech slightly slurred
Oxygenation 100% on NRB 10 L/min
VS stable
16 g. IV to left anterocubital vein
This is how he presented
How do you control this airway?
This is what we did
We called in a tree surgeon and performed a limb salvage procedure16 year old male riding 4 wheel ATV ran into tree. Walked 1.5 miles to his home and called EMS.
EMS report “stick in neck”,
Speech slightly slurred
Oxygenation 100% on NRB 10 L/min
VS stable
16 g. IV to left anterocubital vein
This is how he presented
How do you control this airway?
This is what we did
We called in a tree surgeon and performed a limb salvage procedure
21. Pre Hospital Report
Mechanism of injury
Glascow Coma Score (GCS) including extremity check
A. M. P. L. E.
Lethal six Report should include mechanism of injury, including:
Extraction time
Death at scene
Bulls eye of windshield
Deformation of car
With head on crash suspect:
Sub dural hemorrhage/ Closed head injury
Skull fracture (including basilar, no NG or nasal intubation)
Facial/ mandibular fracture from impact dash/ steering wheel
mandible fx easier to intubate as can lift whole jaw, look for misaligned/missing teeth
Facial fracture frequently very bloody
Look for foreign objects/ teeth
Cervical spine injury
Clavicular/ neck vascular injury from seatbelt
Flail chest/ rib fractures/ pneumothorax
Aortic dissection (ligamentum arteriosum), spot where aorta has most mobility
Frequently die at scene, but may survive to hospital
Cardiac contusion/ tamponade/ pulmonary contusion from impact w/ steering wheel
Signs/Symptoms of cardiac and pulmonary contusion
dysrhythmias, increased cardiac enzymes, decreased cardiac output, CHF symptoms
pulmonary edema, pulmonary secretions, decreased saturations, pain
May develop into ARDS
Occult Pneumo may become significant with positive pressure ventilation
Wrist/ forearm fracture from bracing self on dash
Femur neck fracture
Pelvis (open book, can be life threatening due to blood loss)
Knees/lower extremity/ankles due to entrapment, force on brake pedal or dead pedal
Side Impact
Epidural Closed head injury (wake up and die) due to frequent injury of temporal bone/ middle meningeal artery causing epidural bleed
C-Spine
Aortic dissection
Shoulder/ humerus/ clavicle injury
It takes significant force to break humerus, suspect underlying pulmonary contusion/ rib fractures
Pelvis (crush)
femur
unilateral lower extremity
Ejection
All bets are off
Fall
Aortic dissection
Pelvic (shearing)
bilateral calcaneal fracture
head/chest/ abdomen
possible impalement
Penetrating
Assume the worst
More likely to have hollow organ injury
AMPLE
Allergies
Medications including tobacco, ETOH, street drugs
Prior medical/surgical history
Last meal (a waste of time, assume full stomach)
What if injury occurred > 8 hours ago? Increased sympathetic tone from catecholamine release (pain, shock, fear, anxiety) will reduce gastric emptying/ motility, so stomach still assumed full
Events that lead to injury (did the patient have loss of consciousness, amnesia)
Other questions
Should also try to obtain name, contact number of family
Where does it hurt?
Lethal 6- lacerations of brain, brain stem, upper spinal cord, heart, aorta or other large vessels (decapitation, aortic dissection, penetrating brain stem injury, massive hemorrhage)
Package up w/ backboard, C-Collar, IV, O2
don’t use sandbags, can shift and push on C-Spine
Nasal Cannula usually not adequate
high O2 demand, NRB necessary
Should be able to turn patient on side without motion in spineReport should include mechanism of injury, including:
Extraction time
Death at scene
Bulls eye of windshield
Deformation of car
With head on crash suspect:
Sub dural hemorrhage/ Closed head injury
Skull fracture (including basilar, no NG or nasal intubation)
Facial/ mandibular fracture from impact dash/ steering wheel
mandible fx easier to intubate as can lift whole jaw, look for misaligned/missing teeth
Facial fracture frequently very bloody
Look for foreign objects/ teeth
Cervical spine injury
Clavicular/ neck vascular injury from seatbelt
Flail chest/ rib fractures/ pneumothorax
Aortic dissection (ligamentum arteriosum), spot where aorta has most mobility
Frequently die at scene, but may survive to hospital
Cardiac contusion/ tamponade/ pulmonary contusion from impact w/ steering wheel
Signs/Symptoms of cardiac and pulmonary contusion
dysrhythmias, increased cardiac enzymes, decreased cardiac output, CHF symptoms
pulmonary edema, pulmonary secretions, decreased saturations, pain
May develop into ARDS
Occult Pneumo may become significant with positive pressure ventilation
Wrist/ forearm fracture from bracing self on dash
Femur neck fracture
Pelvis (open book, can be life threatening due to blood loss)
Knees/lower extremity/ankles due to entrapment, force on brake pedal or dead pedal
Side Impact
Epidural Closed head injury (wake up and die) due to frequent injury of temporal bone/ middle meningeal artery causing epidural bleed
C-Spine
Aortic dissection
Shoulder/ humerus/ clavicle injury
It takes significant force to break humerus, suspect underlying pulmonary contusion/ rib fractures
Pelvis (crush)
femur
unilateral lower extremity
Ejection
All bets are off
Fall
Aortic dissection
Pelvic (shearing)
bilateral calcaneal fracture
head/chest/ abdomen
possible impalement
Penetrating
Assume the worst
More likely to have hollow organ injury
AMPLE
Allergies
Medications including tobacco, ETOH, street drugs
Prior medical/surgical history
Last meal (a waste of time, assume full stomach)
What if injury occurred > 8 hours ago? Increased sympathetic tone from catecholamine release (pain, shock, fear, anxiety) will reduce gastric emptying/ motility, so stomach still assumed full
Events that lead to injury (did the patient have loss of consciousness, amnesia)
Other questions
Should also try to obtain name, contact number of family
Where does it hurt?
Lethal 6- lacerations of brain, brain stem, upper spinal cord, heart, aorta or other large vessels (decapitation, aortic dissection, penetrating brain stem injury, massive hemorrhage)
Package up w/ backboard, C-Collar, IV, O2
don’t use sandbags, can shift and push on C-Spine
Nasal Cannula usually not adequate
high O2 demand, NRB necessary
Should be able to turn patient on side without motion in spine
22. Monitors Standard
BP
HR
Sat
Respiratory rate and effort
Use your eyes, can tell BP by peripheral pulses, will note deterioration in mental status, change in respiratory pattern/ effort
What’s your name? What happened?
Airway open/ clear
Has enough breath to answer your questions
Perfusing to head
If can process question and respond appropriately, then doing ok for nowStandard
BP
HR
Sat
Respiratory rate and effort
Use your eyes, can tell BP by peripheral pulses, will note deterioration in mental status, change in respiratory pattern/ effort
What’s your name? What happened?
Airway open/ clear
Has enough breath to answer your questions
Perfusing to head
If can process question and respond appropriately, then doing ok for now
23. Assessment Rapid Identification and Treatment of life threatening injuries
Primary Survey
Airway w/ CSpine
Breathing
Circulation w/ Hemorrhage Control
Disability
Expose
Secondary Survey
Head to toe, full assessment/ XRays, tubes
Primary Survey – Fast (<30 seconds) identify and treat life threatening injuries
Occluded Airway
Hypoxemia
Tension Pneumothorax
Cardiac Tamponade
Hypovolemia/ ongoing bleeding
Closed head injury
Holes in the back where patient is leaking
When to intubate?
GCS< 8
Unable to clear/ maintain airway
ETOH classic
If need to do RSI, need to place OG
Severe head injury
Airway trauma
“Social Intubation”
Injury to self, providers
Pain control
Secondary Survey- Two minutes, identify all obvious injuries
Rapid Identification and Treatment of life threatening injuries
Primary Survey
Airway w/ CSpine
Breathing
Circulation w/ Hemorrhage Control
Disability
Expose
Secondary Survey
Head to toe, full assessment/ XRays, tubes
Primary Survey – Fast (<30 seconds) identify and treat life threatening injuries
Occluded Airway
Hypoxemia
Tension Pneumothorax
Cardiac Tamponade
Hypovolemia/ ongoing bleeding
Closed head injury
Holes in the back where patient is leaking
When to intubate?
GCS< 8
Unable to clear/ maintain airway
ETOH classic
If need to do RSI, need to place OG
Severe head injury
Airway trauma
“Social Intubation”
Injury to self, providers
Pain control
Secondary Survey- Two minutes, identify all obvious injuries
24. Pre-operative assessment IDEAL The preoperative visit is ideally accomplished 1-2 days before…surgery, ideally by the anesthesia provider who will be providing the anesthetic. During the visit, the preoperative status of the patient is evaluated by a thorough review of the chart and interview followed by a physical examination.
REALITY Found down, no history
25. Intra Operative Anesthesia is anesthesia is anesthesia
Our job is not that different from out patient/ “healthy” anesthesia, just different techniques
Be more aware of potential complications i.e. new onset/ worsening pneumothorax, continuing blood loss, etc
May be difficult to maintain CSpine precautions, document that CSpine under care of surgeons, pre and post neuro checks
Monitor room temperature (surgeons will prep belly, then take 20 minutes to scrub, want the thermostat at near artic levels, etc)
Minimum requirements (Cardiac anesthesia easy, drugs/lines in place. It’s not hard to give the right dosage of a drug, it is challenging to find the drug, place the IV under the drapes on a body that is already vasoconstricting, etc., mix the drug, find the IV pump, etc.)
2 Large bore IV’s, Central cortis a plus (Triple or double lumen doubly dangerous, slow to infuse and give a false sense of security)
CVP/PA cath not always necessary to judge resuscitation, rarely placed initially
+/- Arterial line depending on situation (large, ongoing blood loss, neuro, pulmonary status, across midline GSW, etc. If in doubt, place it)
Foley (poor man’s CVP)
Make sure blood products (6 red, 4-6 yellow depending on injury) immediately available, not “sending someone to get it”
Volunteer got lost, intercity employee took cigarette break, forgot patient ID, etc.
Most hospitals take forever to get type and cross
Hourly labs (will probably give Calcium, FFP, Blood and adjust vent based on labs.
Rainbow (chem 10, CBC, Lactate, Coags)
Pneumothorax my appear/ worsen, BP may drop as warm up/vasodilate, increased lactate as reperfuse, pulmonary status may worsen d/t underlying damage, pulmonary edema, etc.
Exhaustion of catecholamines
S/S hypocalcemia
Hypotension not responsive to fluid challenge
Tachycardia/normocardia with hypotension
New/worsening pneumothorax
Embolism
Hypovolemic shock
Worsening epidural bleed
Tamponade
Hypocalcemia/ hyperkalemia
ARDS/aspiration
Brain stem herniation
Anesthesia is anesthesia is anesthesia
Our job is not that different from out patient/ “healthy” anesthesia, just different techniques
Be more aware of potential complications i.e. new onset/ worsening pneumothorax, continuing blood loss, etc
May be difficult to maintain CSpine precautions, document that CSpine under care of surgeons, pre and post neuro checks
Monitor room temperature (surgeons will prep belly, then take 20 minutes to scrub, want the thermostat at near artic levels, etc)
Minimum requirements (Cardiac anesthesia easy, drugs/lines in place. It’s not hard to give the right dosage of a drug, it is challenging to find the drug, place the IV under the drapes on a body that is already vasoconstricting, etc., mix the drug, find the IV pump, etc.)
2 Large bore IV’s, Central cortis a plus (Triple or double lumen doubly dangerous, slow to infuse and give a false sense of security)
CVP/PA cath not always necessary to judge resuscitation, rarely placed initially
+/- Arterial line depending on situation (large, ongoing blood loss, neuro, pulmonary status, across midline GSW, etc. If in doubt, place it)
Foley (poor man’s CVP)
Make sure blood products (6 red, 4-6 yellow depending on injury) immediately available, not “sending someone to get it”
Volunteer got lost, intercity employee took cigarette break, forgot patient ID, etc.
Most hospitals take forever to get type and cross
Hourly labs (will probably give Calcium, FFP, Blood and adjust vent based on labs.
Rainbow (chem 10, CBC, Lactate, Coags)
Pneumothorax my appear/ worsen, BP may drop as warm up/vasodilate, increased lactate as reperfuse, pulmonary status may worsen d/t underlying damage, pulmonary edema, etc.
Exhaustion of catecholamines
S/S hypocalcemia
Hypotension not responsive to fluid challenge
Tachycardia/normocardia with hypotension
New/worsening pneumothorax
Embolism
Hypovolemic shock
Worsening epidural bleed
Tamponade
Hypocalcemia/ hyperkalemia
ARDS/aspiration
Brain stem herniation
26. Post operative Continually reassess patient
Serial labs
Post op intubation likely
Possible transfer to major center Resuscitation is ongoing
Monitor lactate/ base deficit vs. mixed venous
Need experienced caregivers that recognize hypoxemia/ hypovolemia
Run of the mill PACU nurses probably not adequate
Don’t let surgeon arrogance kill the patient
Patient one has 16 IV pumps
Patient two has nine chest tubes, down from 12 the day before
On striker frame to prone, unload lungsResuscitation is ongoing
Monitor lactate/ base deficit vs. mixed venous
Need experienced caregivers that recognize hypoxemia/ hypovolemia
Run of the mill PACU nurses probably not adequate
Don’t let surgeon arrogance kill the patient
Patient one has 16 IV pumps
Patient two has nine chest tubes, down from 12 the day before
On striker frame to prone, unload lungs
27. Abdominal Trauma Signs/ symptoms
Peritoneal signs
Rigid abdomen
Pain on palpation
May be subtle/ overshadowed by ETOH, altered LOC, other painful areas
Diagnostic Techniques
Focused Abdominal Ultrasonagraphy Test (FAST)
Coming into vogue
Requires operator proficiency
Does not show blood, only liquid in abdomen
May show hemopneumothorax
Military using in backpack portable ED/ OR (MFAST/ FAST teams)
Direct Peritoneal Lavage
Hole in abdomen wall, infuse liter Normal Saline, withdraw fluid
May show intrabdominal blood
Going out of favor in preference to FAST
CAT Scan
Gold standard for blood throughout abdomen, retroperitoneal
New helical scans take < 60 seconds for abdomen/ head/ neck
Requires interpretation/ availability of CT
Known as “Tunnel of Death” due to extubation (circuits not long enough to travel through scanner), deterioration from ongoing blood loss, hypoxemia from new onset airway compromise, etc.
Blunt vs. Penetrating
Blunt more likely to affect solid organ (liver, spleen)
Stiffer, limited flexibility, stiff outer coating
encapsulated more likely to suffer acceleration /deceleration injuries
Squeezing a golf ball vs. a tennis ball
Stomach may be affected when struck against seat belt, steering wheel
New techniques in angiography often allow embolization of bleeding without open surgery
Penetrating more likely to hit hollow organs (more of them in abdomen)
Usually need to open if wound penetrates abdominal peritoneum
Obvious bowel extrusion
Obvious omental extrusion
Entry wound variation by sex
Males from high to low
Females low to high
Abdominal stabs often hit diaphragm, suspect pneumothorax
Celiotomy
Celiac plexus
Level of T12-L1
Blockage/ removal limits:
Pancreatic pain
Increases intestinal motility
Regions of the Abdomen
Upper abdomen- bony thorax, diaphragm, liver, spleen, stomach and transverse colon
Retroperitoneal space- aorta, vena cava, pancreas, kidneys, ureters, portions of the colon and duodenum
Pelvis- rectum, bladder, illiac vessels, internal genitalia (females)Signs/ symptoms
Peritoneal signs
Rigid abdomen
Pain on palpation
May be subtle/ overshadowed by ETOH, altered LOC, other painful areas
Diagnostic Techniques
Focused Abdominal Ultrasonagraphy Test (FAST)
Coming into vogue
Requires operator proficiency
Does not show blood, only liquid in abdomen
May show hemopneumothorax
Military using in backpack portable ED/ OR (MFAST/ FAST teams)
Direct Peritoneal Lavage
Hole in abdomen wall, infuse liter Normal Saline, withdraw fluid
May show intrabdominal blood
Going out of favor in preference to FAST
CAT Scan
Gold standard for blood throughout abdomen, retroperitoneal
New helical scans take < 60 seconds for abdomen/ head/ neck
Requires interpretation/ availability of CT
Known as “Tunnel of Death” due to extubation (circuits not long enough to travel through scanner), deterioration from ongoing blood loss, hypoxemia from new onset airway compromise, etc.
Blunt vs. Penetrating
Blunt more likely to affect solid organ (liver, spleen)
Stiffer, limited flexibility, stiff outer coating
encapsulated more likely to suffer acceleration /deceleration injuries
Squeezing a golf ball vs. a tennis ball
Stomach may be affected when struck against seat belt, steering wheel
New techniques in angiography often allow embolization of bleeding without open surgery
Penetrating more likely to hit hollow organs (more of them in abdomen)
Usually need to open if wound penetrates abdominal peritoneum
Obvious bowel extrusion
Obvious omental extrusion
Entry wound variation by sex
Males from high to low
Females low to high
Abdominal stabs often hit diaphragm, suspect pneumothorax
Celiotomy
Celiac plexus
Level of T12-L1
Blockage/ removal limits:
Pancreatic pain
Increases intestinal motility
Regions of the Abdomen
Upper abdomen- bony thorax, diaphragm, liver, spleen, stomach and transverse colon
Retroperitoneal space- aorta, vena cava, pancreas, kidneys, ureters, portions of the colon and duodenum
Pelvis- rectum, bladder, illiac vessels, internal genitalia (females)
28. Surgeon vs. radiologist Exploratory laparatomy
Penetrating
Blunt with evidence internal bleed
Injured diaphragm
Injury to bladder, ureters
CT evidence of pancreatic, GI, kidney
Unstable liver/ spleen bleed Laparatomy not always indicated
No peritonitis/ pain, CT negative, just observe
Grade I/II splenic or hepatic laceration may not require intervention
May observe, do serial CT scans
“Emergent” abdominal surgery only for unstable bleed
Give couple liters in 5 minutes, if no response, to OR
Prep from knees to shoulders
Get cold quickly
Cover ekg leads with opsite/ tape
Be prepared to go into chest
Have everything ready because opening the abdomen may release tamponade, drop cardiac return and make you scramble
Many trauma centers will embolize spleen, RA Cowley will also do liver
Personal experience with operative liver is 4/6 (grade V-VI, coagulopathic)
15 blood volumes (75 Liters blood/ blood products)
Epinephrine wide open
Puddle of blood 4 inches deep around bedLaparatomy not always indicated
No peritonitis/ pain, CT negative, just observe
Grade I/II splenic or hepatic laceration may not require intervention
May observe, do serial CT scans
“Emergent” abdominal surgery only for unstable bleed
Give couple liters in 5 minutes, if no response, to OR
Prep from knees to shoulders
Get cold quickly
Cover ekg leads with opsite/ tape
Be prepared to go into chest
Have everything ready because opening the abdomen may release tamponade, drop cardiac return and make you scramble
Many trauma centers will embolize spleen, RA Cowley will also do liver
Personal experience with operative liver is 4/6 (grade V-VI, coagulopathic)
15 blood volumes (75 Liters blood/ blood products)
Epinephrine wide open
Puddle of blood 4 inches deep around bed
29. neurotrauma Cerebral perfusion pressure (CPP) = Mean Arterial Pressure (MAP) – Intracranial Pressure (ICP), keep CPP > 70 mm
Assume ICP in head injured at least 20 cm water (normal <5 cm)
Reduce ICP by:
promote venous drainage
raise the head of the bed 45 degrees
keep the neck neutral, not turned/ kinked
monitor neck constriction by collar, ETT tape, etc.
Minimize PEEP if on positive pressure ventilation (and probably should be)
reduce blood flow
keep MAP just right
may, in extreme cases, not routinely, hypoventilate to EtCO2 30-35 mm (hypocarbia will constrict all vessels, leading to decreased blood flow to damaged areas and worse outcomes)
Give Mannitol
osmotic diuretic, pulls fluid from interstitial/ intercellular, reducing edema
may have direct cellular benefit
each 50 cc bottle of 25% solution equals 12.5 gm (give 25-50 gm/ dose, or 2-4 bottles)
replace 1 cc Normal Saline per 1 cc Urine output
Place drain with adjustable valve, drain CSF
Decompressive Craniotomy
Decompressive Laparotomy
Anticipate phenytoin in closed head injured, steroid in spinal injured
Closed head injuries associated with basaler skull fractures
no NG, nasal intubation
anticipate antibiotic therapyCerebral perfusion pressure (CPP) = Mean Arterial Pressure (MAP) – Intracranial Pressure (ICP), keep CPP > 70 mm
Assume ICP in head injured at least 20 cm water (normal <5 cm)
Reduce ICP by:
promote venous drainage
raise the head of the bed 45 degrees
keep the neck neutral, not turned/ kinked
monitor neck constriction by collar, ETT tape, etc.
Minimize PEEP if on positive pressure ventilation (and probably should be)
reduce blood flow
keep MAP just right
may, in extreme cases, not routinely, hypoventilate to EtCO2 30-35 mm (hypocarbia will constrict all vessels, leading to decreased blood flow to damaged areas and worse outcomes)
Give Mannitol
osmotic diuretic, pulls fluid from interstitial/ intercellular, reducing edema
may have direct cellular benefit
each 50 cc bottle of 25% solution equals 12.5 gm (give 25-50 gm/ dose, or 2-4 bottles)
replace 1 cc Normal Saline per 1 cc Urine output
Place drain with adjustable valve, drain CSF
Decompressive Craniotomy
Decompressive Laparotomy
Anticipate phenytoin in closed head injured, steroid in spinal injured
Closed head injuries associated with basaler skull fractures
no NG, nasal intubation
anticipate antibiotic therapy
30. Neuro trauma, cont. Develop proficiency in reading Xrays, otherwise will look like thisDevelop proficiency in reading Xrays, otherwise will look like this
31. Lessons I have Learned Epinephrine is your friend
Know your vascular anatomy
Always Double Glove!
One 14 g in the AC is worth two triple lumens in the IJ
Bullets and blades make little %$#@ out of everyone
Universal Precautions aren’t just for JCAHO visits
Trauma providers are lifeguards for the shallow end of the gene pool
32. Questions?
