Trauma, Non Head, Non Spine

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Trauma, Non Head, Non Spine

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Title: Trauma, Non Head, Non Spine

1
Trauma, Non Head, Non Spine

By
CCM Fellows
UBC

2
Case

-19 years old girl, otherwise healthy, was
brought to ER at RCH by EHS after being hit by a
freight train.
-Earlier, she was partying with her pals, got
drunk, went through a fight with her bf, after
which she decided to walk home alone! At the
railway intersection, she was hit on her left
side by the train, which slowed down coming near
the station.

3
Upon EHS Arrival..

-When EHS arrived within 2 minutes, she was
conscious but drowsy, GCS E3 M5 (x4) V2,
vomiting, with open wounds on her posterior
scalp, and Lt knee. She was intubated at the seen
and brought to ER.

4
In ER..

AETT, C-collar.
B AC, fiO2 0.5. ABG 7.3/50/19/88/ -6.
C 110/50 (65), 110 SR, T34C.
D PERL 3mm bi, on 33 MM 100 mcg of fentanyl
given by ER MD when patient was trying to wake up
and bite on the ETT.
Trauma team are in.

5
O/E..

HEENT 3-cm Laceration wound grade I over the
occiput.
Heart Normal S1S2.
Chest paradoxical movement of Lt 3-7 ribs chest
wall, with multiple bruises on the Lt side,
decreased B/S on the Lt side.
Abdomen multiple bruises on the Lt side, with
mildly distended abdomen. DRE clear.
F/C hematuria, 70cc/hr (BWt 90kg).
Ext bruises over Lt shoulder posteriorly.
Intact/symmetrical upper pulses/BP. Lt thigh
swelling, 15-cm Lt knee grade IIIb (at least)
laceration with exposed fractured bone, Lt PT and
DP weaker than Rt

6
FAST..

No tamponade, good LVEF, coarse spleen,
evidence of fluid in the hepatorenal space and Lt
perinephric area.

7
Labs..

Hb 60, Plt 80, INR 1.5, PTT 40, Fib 0.9, WBC 16,
Cr 80, BUN 7, lytes N, LFE N. LA 4.3, Trop lt0.04,
U/A RBC 20-50, WBC 5-10.
ECG Sinus tachycardia.

8
Imaging..

CT head N. C-spine N.
Chest Lt hemopneumothorax, fractured Lt scapula
and ribs 3-7, Lt lung contusion.
T-L-S spine intact.
Abdomen Lt diaphragmatic rupture, spleen
laceration grade 4, liver injury grade 1, Lt
perinephric hematoma, evidence of hemoperitoneum.
Pelvis Lt pubic ramus fracture.
Ext Fracture Lt acetabular and femoral head
capitus, displaced femoral shaft and
intercondylar, patella and tibial plateau, with
air tracking from the knee proximally, c/w open
fracture. CTA preliminary report N.
-Lt chest tube was inserted, drained blood.

9
Question 1

Discuss the initial fluid resuscitation in trauma
patient, focusing of monitoring endpoints
(including base deficit), coagulopathy (including
hypothermia), and massive transfusion protocol
(Marios)

10
Initial trauma fluid resuscitation

Fluids
Transfusion ratios
Monitoring end-points
Coagulopathy

11
Initial fluid resuscitation

A controversial topic with nebulous answers
Guidelines used to be that you gave 2 or more
liters of crystalloid to any trauma patient you
thought was in shock
Goal was to rapidly restore circulating volume to
maintain vital organ perfusion.
There is evidence however that normalizing ones
blood pressure in the setting of an
uncontrollable hemorrhage may worsen outcome.
This has led to the concept of permissive
hypotension/hypotensive resuscitation

12
Initial fluid resuscitation

Rationale behind permissive hypotension (animal
models)
Increased blood pressure accelerates bleeding and
dislodges soft early clots (which take 30 min to
harden)
Dilution of RBC mass by crystalloid or colloid
reduces oxygen delivery despite increasing
cardiac output
Reduced hematocrit and clotting factor
concentration inhibit clot formation
Resuscitative fluids themselves may have
deleterious properties such as neutrophil
activation (RL in hemorrhagic shock 1998)

13
Initial fluid resuscitation

Human evidence for permissive hypotension
Houston study (1994)
Thoraco-abdominal gunshot or stab wounds
presenting with SBP lt 90 mmHg
Patients either treated with liberal RL or
delayed resuscitation until OR.
Patients in the early resuscitation group had a
higher mortality and rate of post-op
complications
Baltimore study (2002)
Penetrating and blunt trauma patients presenting
to the Shock Trauma Center with SBP lt 90 mmHg
Randomized to a fluid resuscitation strategy
targeted to a lower than normal SBP (gt 70 mmHg)
or to conventional care (SBP gt 100 mmHg)
Mortality was identical but fewer complications
and a shorter duration of hemorrhage were seen in
the low-pressure group

Bickell WH, Wall MJ Jr, Pepe PE, et al. Immediate
versus delayed fluid resuscitation for
hypotensive patients with penetrating torso
injuries. N Engl J Med 1994 33111051109.
Dutton RP, Mackenzie CF, Scalea T. Hypotensive
resuscitation during active hemorrhage impact on
in-hospital mortality. J Trauma 2002 (52)1141
1146.
14
Initial fluid resuscitation

Whos practicing permissive hypotension?
Current military policy is to resuscitate to a
palpable radial pulse or an SBP of no more than
90 mmHg.
This concept has now been adopted widely, and is
reflected in the latest EAST guidelines.

Dawes R, Thomas GO. Battlefield resuscitation.
Curr Opin Crit Care. 2009Dec15(6)527-35.
15
Initial fluid resuscitation

Prehospital resuscitation (EAST guidelines 2009)
Obtaining IV access in the field has not been
shown to be beneficial, and if anything has been
shown to prolong transport time
Obtaining IV access en-route to trauma centre is
recommended if wounds more than superficial.
IV should be saline-locked if no indication for
fluid therapy is present.

Cotton BA, Jerome R, Collier BR, et al. Eastern
Association for the Surgery of Trauma Practice
Parameter Workgroup for Prehospital Fluid
Resuscitation. Guidelines for prehospital fluid
resuscitation in the injured patient. J Trauma.
2009 Aug67(2)389-402
16
Initial fluid resuscitation

Prehospital resuscitation (EAST guidelines 2009)
Indications for prehospital fluid administration
(250 cc boluses) in both penetrating and blunt
trauma
Patient incoherent
Non-palpable radial pulse
Head injury with SBP lt 90
Repeat bolus if no response
Saline lock of pt responds

17
Initial fluid resuscitation

When may fluids be appropriate?
In traumatic brain injury, where hypotensive
episodes have been associated with worse outcome
In severe hypotension where pressors would
otherwise be needed, i.e. MAP lt 40 - 50 mmHg
In hypotensive patients with controllable
bleeding (extremity/superficial bleed)

18
If youre going to bolus, bolus right. Right?
Bolus with

The data on what type of fluid to give is worse
than on whether to give fluid.
EAST Guidelines states insufficient evidence to
make recommendations.
Practice therefore depends on opinion
RL is liked for its buffering capacity but
cant be mixed with blood due to the calcium
Plasmalyte doesnt have calcium but has potassium
which can exacerbate hyperkalemia secondary to
tissue injury and massive transfusion
NS doesnt have K (unless you ask for it), but
is more likely to cause a NAGMA that can
theoretically worsen coagulopathy
Hypertonic saline showed no benefit over isotonic
crystalloids
Early availability of blood and FFP avoids the
need for filler fluids

Diez C, Varon AJ. Airway management and initial
resuscitation of the trauma patient. Curr Opin
Crit Care. 2009 Dec15(6)542-7 Dawes R, Thomas
GO. Battlefield resuscitation. Curr Opin Crit
Care. 2009Dec15(6)527-35.
19
Transfusion ratios

American and British military practice is to
administer warmed FFP and PRBCs in a 11 ratio as
soon as possible.
Others in military have recently suggested
modifying this ratio by further adding platelets,
resulting in a ratio of 111 PRBCFFPplatelets
Evidence for benefit based on retrospective
trials
Benefit can therefore be indicative of a survival
bias rather than a true mortality benefit
FFP and platelets take longer to receive than
pRBCs.
Possibility that nonsurvivors did not die because
they received a lower FFP PRBC ratio, but that
they received a lower ratio transfusion because
they died.

Dawes R, Thomas GO. Battlefield resuscitation.
Curr Opin Crit Care. 2009Dec15(6)527-35. Snyder
CW, Weinberg JA, McGwin G Jr, et al. The
relationship of blood ????product ratio to
mortality survival benefit or survival bias? J
Trauma 200966358362
20
Resuscitation endpoints

If uncontrolled hemorrhage permissive
hypotension, maintaining coherence, a palpable
radial pulse, or an SBP gt 90 mmHg in TBI
Resuscitation effectiveness can be assessed by
standard measures, i.e. lactate clearance and
correction of base deficit.
Base deficit Blunt injury patients with
transient field hypotension and a BD gt 6 were
found to be more than twice as likely to have
repeat hypotension (crump).

Bilello JF, Davis JW, Lemaster D, et al.
Prehospital Hypotension in Blunt Trauma
Identifying the "Crump Factor". J Trauma. 2009
Dec 4 Tisherman SA, et al. Clinical
practiceguideline endpoints of resuscitation. J
Trauma. 2004 Oct57(4)898-912.
21
Hemorrhagic coagulopathy

Part of the lethal triad

22
Hemorrhagic coagulopathy

Impaired hemostasis is often caused by dilution
and consumption of clotting factors and
hyperfibrinolysis.
However despite replacing FFP, platelets, and
cryoprecipitate, patients may remain
coagulopathic.
Optimal coagulation requires specific
preconditions concerning acid-base balance,
calcium, hematocrit, and temperature.
If these preconditions are not fulfilled,
coagulation may remain abnormal despite
replacement of products.

Lier H, Krep H, Schroeder S, Stuber F.
Preconditions of hemostasis in trauma a review.
The influence of acidosis, hypocalcemia, anemia,
and hypothermia onfunctional hemostasis in
trauma. J Trauma. 2008 Oct65(4)951-60.
23
Hemorrhagic coagulopathy

Acidosis
A notable impairment in hemostasis arises at pH
lt 7.1 or a base deficit of 12.5 or more
Aggressive resuscitation in OR to reverse
acidosis
Some centres give THAM to raise pH to 7.2 or
higher (no outcome data)
Hypocalcemia
Coagulation defects can be attributed to
hypocalcemia if the Cai is lt 0.6 0.7 mmol/L
Adverse cardiac effects commence at levels at or
below 0.8 0.9 mmol/L
Combining these benefits, ionized calcium should
be kept above 0.9 mmol/L

Anemia
Causes demargination of platelets and decreased
adhesion to endothelial damage (decreases
fivefold from HCT of 40 to 10)
Aim is to keep HCT greater or equal to 30
Hypothermia
High risk of persistent coagulopathy at
temperatures under 35 deg C
At temperatures below 33 deg C, hypothermia
produces a coagulopathy that is equivalent to 50
of normal activity at normothermia
Should therefore aggressively aim for a Temp gt 34
or even 36 degrees Celsius

Other measures
Hypofibrinogenemia ? keep fibrinogen gt 1 g/L
Platelets ? keep above 100 x 109
Tranexamic acid
At 15 mg/kg, found to reduce blood loss in
elective surgical patients by inhibiting
fibrinolysis.
Results of CRASH II trial are pending (20 000
patients randomized to 1 g of tranexamic acid
followed by 1 g infused over 8 h).
rFVIIa
Some evidence that it reduced transfusion
requirement in blunt injury but not in
penetrating injury.
Often used in salvageable patients with
continuing haemorrhage that has failed surgical
and nonsurgical methods

Mannucci PM, Levi M. Prevention and treatment of
major blood loss. N Engl JMed. 2007 May
31356(22)2301-11. Dawes R, Thomas GO.
Battlefield resuscitation. Curr Opin Crit Care.
2009Dec15(6)527-35.
26

-After transfusing 4u of PRBCs, 4u FFP, 10u Plt,
4u cryoppt, BP dropped to 80/45, O2 sat 80,
decreased B/S on Lt, with Lt CT suddenly draining
gt1500 ml of blood.

27
Question 2

What are the indications and contraindications
for ED thoracotomy? How to manage lung contusion
and flail chest? What are the complications of
lung contusion? (Erik)

28
CBP ED Thoracotomy, Pulmonary Contusion, Flail
Chest
29
Emergency Department Thoracotomy

Indications
Contraindications
Absolute
Relative

30
Objectives of EDT

Release of pericardial tamponade.
Control of intrathoracic vascular or cardiac
bleeding.
Evacuate obstructive air embolism or control
source of broncho-pleural/vascular fistula.
Perform open cardiac massage.
Temporarily occlude the descending thoracic aorta.

31
Indications for EDT

Penetrating chest injury in extremis, or loss of
vital signs, within 10 minutes of ED arrival.
Limited evidence to support in blunt or
mutli-trauma patients, especially if arrive in ED
with VSA.
Known tamponade, air embolism.
Consider in major abdominal vascular injury
(blunt or penetrating) in extremis or witnessed
loss of vital signs.
Consider in unresponsive hypotension (SBP lt
60mmHg) or chest tube gt 1500cc.

32
Contraindications

Severe TBI
VSA in penetrating injury gt 10-15 minutes prior
to ED arrival.
VSA in blunt injury 0-5 minutes prior to ED
arrival.

33
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34
Pulmonary Contusion Flail Chest

Both PC and FC independently associated with
morbidity.
Pathophysiology ?
Mortality usually resultant
of other injuries sustained
from the blunt trauma
(e.g. CNS injury, shock).

35
Fluid Resuscitation in PC

Animals models originally suggested that
crystalloid resuscitation had greater impact
versus colloid but no outcomes were assessed.
Similarly, observational data from Vietnam War
suggested larger volume resuscitation was
associated with poor outcomes.
More recently, studies with better (though not
great) methodology show no correlation with
volume of resuscitation with worsening of PC.
P/F ratio at the time of injury more prognostic.

36
Ventilation in PC/FC

Again, animal models with inappropriate surrogate
endpoints are misleading.
Current level II evidence supports intubation and
mechanical ventilation based on standard
assessment of oxygenation/ventilation.
Advantages of different forms of mechanical
ventilation, including the use of PEEP, have not
been teased out.

37
Surgical Fixation of FC

Despite the biological plausibility supporting
the use of ORIF (e.g. Judet struts), most of the
supporting evidence is derived from Level II and
III studies (i.e. mostly small, single-limb,
observational studies of personal experience
lacking non-surgical controls).
Read about them but never used them. Thoracics
may have applied them once to my knowledge.

38
Summary PC and FC

Respiratory dysfunction after contusion may
relate more to direct traumatic and indirect
biochemical effects of the injury rather than
amounts of fluid administered.
With respect to ventilation, the bulk of current
evidence favors selective use of mechanical
ventilation, analgesia and physiotherapy as the
preferred initial strategy.
Surgical fixation may play a role in select
patients.
There is no evidence to support the use of
steroids or prophylactic antibiotics in PC.

-ED thoracotomy was performed, pulmonary arterial
bleeder was clamped. Pt was urgently taken to the
OR and surgical stabilization of the flial chest
using Judet struts was performed.

40
Question 3

How to evaluate blunt abdominal trauma? How to
manage spleen, liver, and diaphragmatic injuries?
Is there a place for conservative therapy if this
was penetrating abdominal trauma? (Neil)

41
How to evaluate blunt abdominal trauma?

Physical exam
DPL
CT
FAST

42
Diagnostic Peritoneal Lavage

Positive test
Fecal contents
Gross blood
gt 100,000 RBC/mm3

43
CT

Hemodynamically stable patient
Sensitvity 92-98
Specificity 98
NPV 99.63
Good for
Solid organs
retroperitoneum
Bad for
Mesenteric injuries
Diaphragm
Hollow viscous

44
Focused Abdominal Sonography in Trauma

3 views
Morrisons pouch
Spleno-renal
Suprapubic
Need 200 cc of fluid for positive.
Sensitivity 73-88
Specificity 98-100

45
Focused Abdominal Sonography in Trauma
46
Focused Abdominal Sonography in Trauma
47
Focused Abdominal Sonography in Trauma
48
Focused Abdominal Sonography in Trauma
49
EAST Recommendations

A. Level I
1. Exploratory laparotomy is indicated for
patients with a positive DPL.
2. CT is recommended for the evaluation of
hemodynamically stable patients with equivocal
findings on physical examination, associated
neurologic injury, or multiple extra-abdominal
injuries. Under these circumstances, patients
with a negative CT should be admitted for
observation.
3. CT is the diagnostic modality of choice for
nonoperative management of solid visceral
injuries.
4. In hemodynamically stable patients, DPL and
CT are complementary diagnostic modalities.

50
EAST Recommendations

B. Level II
1. FAST may be considered as the initial
diagnostic modality to exclude hemoperitoneum.
In the presence of a negative or indeterminate
FAST result, DPL and CT have complementary roles.
2. When DPL is used, clinical decisions should
be based on the presence of gross blood on
initial aspiration (i.e., 10 ml) or microscopic
analysis of lavage effluent.
3. In hemodynamically stable patients with a
positive DPL, follow-up CT scan should be
considered, especially in the presence of pelvic
fracture or suspected injuries to the
genitourinary tract, diaphragm or pancreas.
4. Exploratory laparotomy is indicated in
hemodynamically unstable patients with a positive
FAST. In hemodynamically stable patients with a
positive FAST, follow-up CT permits nonoperative
management of select injuries.
5. Surveillance studies (i.e., DPL, CT, repeat
FAST) are required in hemodynamically stable
patients with indeterminate FAST results.

51
EAST recommendations

Level III
1. Objective diagnostic testing (i.e., FAST,
DPL, CT) is indicated for patient with abnormal
mentation, equivocal findings on physical
examination, multiple injuries, concomitant chest
injury or hematuria.
2. Patients with seatbelt sign (SBS) should be
admitted for observation and serial physical
examination. Detection of intraperitoneal fluid
by FAST or CT in a patient with SBS mandates
either DPL to determine the nature of the fluid
or exploratory laparotomy.
3. CT is indicated for the evaluation of
suspected renal injuries.
4. A negative FAST should prompt follow-up CT for
patients at high risk for intraabdominal injuries
(e.g., multiple orthopedic injuries, severe chest
wall trauma, neurologic impairment).
5. Splanchnic angiography may be considered in
patients who require angiography for the
evaluation of other injuries (e.g., thoracic
aortic injury, pelvic fracture).

52
VGH Protocol

53
How to manage spleen, liver, and diaphragmatic
injuries?

Nonoperative management of blunt adult and
pediatric hepatic and splenic injuries is the
treatment modality of choice in hemodynamically
stable patients, irrespective of the grade of
injury. It is associated with a low overall
morbidity and mortality and does not result in
increases in length of stay, need for blood
transfusions, bleeding complications, or visceral
associated hollow viscus injuries as compared
with operative management. There is no evidence
supporting routine imaging (CT or US) of the
hospitalized, clinically improving,
hemodynamically stable patient. Nor is there
evidence to support the practice of keeping the
clinically stable patient at bedrest.
EAST GUIDELINES

54
Diaphragm injuries

Often missed and result in delayed complications
Investigations/treatment via laparoscopy/laparotom
y
Repair with non-absorbable sutures

55
Is there a place for conservative therapy if this
was penetrating abdominal trauma?
56
History

19th C. - Expectant management
Blood letting
Opium
WWI manadatory laparotomies
1960 observant and expectant mgmt
1990s more conservative with SW and GSW
Focus on morbidity of non-therapeutic laparotomy

57
Recommendations of this article
58
Recommendations of this article
59

-In the OR, Lt diaphragmatic repair and
slenectomy were performed.

60
Question 4

What are the limb-salvaging reconstruction
strategies? Are there better outcomes vs.
amputation for severe limb-threatening traumas?
What is the best timing for performing long bones
fixations in polytrauma victims? (Noemie)

61
Initial treatment

Neurologic and vascular exam
Sterile dressing and splint
Tetanus
Antibiotics

62
Approach to Vascular injury

Arteriography should be done promptly when hard
signs of vascular injury are manifest.
The interval between injury and reperfusion
should be minimized to less than six hours in
order to maximize limb salvage.
Restoration of blood flow should always take
priority over skeletal injury management

EAST Guidelines
63
External vs internal fixation

Indications for use of external fixation
Open fractures
Severe metaphyseal fractures
Severe intra-articular fractures
Polytrauma
Osteoporotic fractures
Transport

Trauma 2004 6 143? 160
64
Complications of External fixation

Pin track infections
Most common complication 0 to 60
Re-fracture
If removed too early
Nonunion
Malunion
Pin breakage

Trauma 2004 6 143? 160
65
EAST GUIDELINES

External fixation is preferable for the
immediate management of unstable, displaced,
comminuted and open fractures or dislocations.
This is especially important in those with severe
contamination, extensive soft tissue injury, or
in an unstable patient.

66
NEJM 2002 347(24)1906-1907
67

Are there better outcomes vs. amputation for
severe limb-threatening traumas?

68
Gustilo Classification

I Low energy, wound less than 1 cm
II Wound greater than 1 cm with moderate soft
tissue damage
III High energy wound greater than 1 cm with
extensive soft tissue damage
IIIA Adequate soft tissue cover
IIIB Inadequate soft tissue cover
IIIC Associated with arterial injury

69
Factors predicting high rates of amputation

Gustilo III-C injuries
Sciatic or tibial nerve transection
Severe prolonged ischemia
Older age with comorbidity
Multiple long bone fractures
Crush or extensive soft tissue trauma
Severe contamination

70
Amputation vs Reconstruction
71
LEAP Study

Multicenter observational prospective trial
569 pts
At 2 years, no difference in outcome scores or
return to work

72
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EAST Guidelines

Primary amputation should be considered in those
with tibial or sciatic nerve transection,
prolonged ischemia, massive soft tissue injury,
severe contamination, open comminuted tib-fib
fractures (Gustilo-III), or life-threatening
associated injuries.

What is the best timing for performing long bones
fixations in polytrauma victims?

76
EAST Guidelines

Polytrauma patients undergoing long bone
stabilization within 48 hours of injury have no
improvement in survival when compared to those
receiving later stabilization
However, there may be some patients who will
have fewer morbidities
There is no evidence that early stabilization
has any detrimental effect.

-Fixation of her fractured Lt femur was performed.

78
Question 5

What are the high risk factors for DVT/PE in
trauma patients? What is the best prophylaxis?
What are the types, indications,
contraindications and complications of IVC
filters? Is it safe and effective in trauma?
(Omar)

79
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80
High Risk Factors for DVT/PE

Heterogenous group of patients
Difficult to prove who is truly at highest risk

General consensus of who constitutes high risk
include
Advanced age (age at which patients become high
risk is not defined)
Spinal fractures and cord injuries
Traumatic brain injury
Prolonged mechanical ventilation
Pelvic s
Multiple long bone fractures, esp if associated
with pelvic
Venous injuries

General consensus of who constitutes high risk
include
Venous injuries
Multiple major operative procedures

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84
What is the best prophylaxis?

Beats me

85
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86

American Surgeon, 2006

87
What is the best prophylaxis?

Low does unfractionated heparin is no better than
no prophylaxis
LMWH given twice a day offers some protection
Mechanical prophylaxis is unproven, but can be
used in patients with high risk for bleeding
If high risk for DVT/PE, may use LMWH and
mechanical prophylaxis, but no proven synergism

88
What is best prophylaxis?

Fondaparinux appears to be better than LMWH in
post-op hip patients
No studies in multi-trauma patients

89
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90
Timing

ASAP
TBI
Unclear when to start
72 hours post cessation of bleeding
Splenic or liver lacn
48 hours post cessation of bleeding

What are the types, indications,
contraindications and complications of IVC
filters? Is it safe and effective in trauma?

92
IVC filters Origins

Surgical techniques
Femoral vein ligation
IVC ligation
IVC occlusion
Partial interruption of IVC
Plastic clips
Plication
Staples

Surgical technique reduced incidence of PE
significantly
.high complication rates and no decrease in
mortality

1980s
Introduction of first percutaneously inserted IVC
filter
Mobin-Uddin Umbrella filters

95
Types

Permanent
Temporary
Retrievable

96
Permanent

Birds nest filter (1982)
Greenfield Filter (1972)
Has undergone many revisions/improvements
Initially introduced via venotomy
Simon Nitinol Filter
LGM Venatech
Trap ease

97
Permanent

Different sizes
Need to determine diameter of IVC before
placement
Earlier models were incompatible with MRI and
some caused significant scatter

98
Temporary

Multiple
Anchored to skin via wire or catheter
Risk of infection
May become irretrievable if clot entrapped within
it

99
Retrievable

Most commonly used
Lowest complication rates
Require trans-jugular approach for removal

100
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102
Complications

Access site thrombosis
1-3
Tilting and malposition
2
Recurrent PEs
Up to 4 5
IVC thrombosis
15 without anticoag
7 with anticoag

103
Complications

Filter migration
1
Filter fracture during retrieval with subsequent
embolization of struts
1

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107

-Post-op, IVC filter was placed in.
-She was admitted to the ICU, started on
antibiotics for aspiration pneum/Px for knee/bone
with open fracture. She eventually became septic
from both sources, required aggressive fluid
resuscitation and vasopressors.

108

-POD 3, she became oliguric, abdomen distended,
bladder pressure increased from 18 to 20 to 30.

109
Question 6

What are the risks/predictors for developing
abdominal compartment syndrome in trauma
patients? What are the consequences? How to
manage traumatic renal injuries? (Federico)

110
Emergency Department Independent Predictors(lt 3
hrs from Hospital admission)
Predictor
All ACS Crystalloid gt 3L SBP lt 86
Primary ACS To OR gt75 min Crystalloid gt 3L
Secondary ACS Crystalloid gt 3L No urgent surgery PRBC gt 3 units
111
ICU independent predictors (lt 6 hrs from
hospital admission)

All ACS GAP CO2 gt16 Crystalloid gt7.5L UO lt 150 ml HB lt 8 g/dl CI lt 2.6 L/min/sm
Primary ACS Temp lt 34 C GAP CO2 gt 16 Hb lt 8g/dl BD gt 12 mEq/L
Secondary ACS GAP CO2 gt 16 Crystalloid gt 7.5L UO lt 150 mL
112
Outcome

ACS is a predictor of MOF and mortality

Primary ACS (n11) Secondary ACS (n15) NonACS (n162)
MOF () 55 53 17
Mortality () 64 53 17
113
Kidney Injury

Blunt trauma 80-90
Rapid deceleration / Direct blow
MUST be suspected if
Trauma to back / flank / lower thorax / upper
abdomen
Flank pain / low rib
Hematuria / Ecchymosis over the flanks
Sudden decelaration / Fall from height.
Lumbar transverse process

114
Classification of Injury

5 Classes of Renal Injury

Organ Injury Scaling Committee Moore et al. Organ
Injury Scaling Sleen, Liver and Kidney, The
Journal of Trauma, 29 1664 1989.
115
Grade I

Hematoma
Subcapsular
Non expanding
Parenchyma N

116
Grade II

Hematoma
Perirenal
Nonexpanding
Laceration
lt 1.0 cm
Renal cortex only
No urinary extravasation

117
Grade III

Laceration
gt 1.0 cm
Renal cortex only
No urinary extravasation
Intact collecting system

118
Grade IV

Laceration
Renal cortex
Renal medulla
Collecting system
Vascular
Main renal artery/vein injury with contained
hemorrage.

119
Grade V

Completely shattered kidney.
Avulsion of renal hilum (pedicule) which
devascularizes kidney.

120
Organ Injury Severity Scale

Validated lately Journal of Trauma, 2001
Predicts the need for surgery
Need for surgery nephrectomy rates
Grade I 0 0
Grade II 15 0
Grade III 76 3
Grade IV 78 9
Grade V 93 86

Santucci et al. Validation of the American
Association for the Surgery of Trauma Organ
Injury Severity Scale for the Kidney. J Trauma
50195-200 2001.
121
Management