Title: Fluids and Blood in Trauma
1Fluids and Blood in Trauma
- Courtesy ofCharles E. Smith, MD
- Professor of Anesthesia
- MetroHealth Medical Center
- Case Western Reserve University
- Cleveland, Ohio
2Objectives
- Overview of trauma
- Dx Tx of shock
- Hypotensive resuscitation
- Crystalloid blood products
- Intraop bleeding
- Cell salvage
- O2 carrying solutions
- rFVIIa
3Trauma Costs
- Leading cause of death, ages 1 - 44 yrs
- 60 million injuries annually in USA
- 30 million require medical care
- 3.6 million require hospitalization
- 9 million are disabling
- 300 k permanent 8.7 million temporary
- Costs are staggering gt 100 billion annually, or
40 of health care
4Goals of Fluid Blood Therapy
- Restore DO2, treat injuries, maintain CPP
- Prevent progression of shock
- Repay cellular O2 debt
- Restore coagulation
- Endpoints normalization of multiple variables-
pH, lactate, BE, urine, BP, HR, SPV, SV, pt/ptt,
SvO2, CI, DO2, VO2
5Oxygen Delivery DO2
- DO2 (CaO2 x CO x 10) (PaO2 x 0.003)
- CaO2 Hg x 1.39 x sat
- CaO2 1/2 Hct, assume CO 5 L/min, 100 sat
- Hct 40 CaO2 20 CO 5 DO2 1000
- Hct 30 CaO2 15 CO 5 DO2 750
- Hct 20 CaO2 10 CO 5 DO2 500
- Hct 10 CaO2 5 CO 5 DO2 250
6Oxygen Debt
- 1. Full recovery possible
- 2. Delayed repayment of O2 debt
- 3. Excessive O2 deficit w lethal cell injury
- Ref Siegel JH. Trauma Emergency Surgery and
Critical Care
7Estimating Oxygen Debt
- Base deficit
- Lactate
- pH
- Mixed venous O2
8Arterial Pulse Waveform Analysis
- SPV difference between maximal minimal values
of systolic BP during PPV - ? down normally 5 mm Hg due to ? venous
return - SPV gt 15 mm Hg, or ? down gt 15 mm Hg
- highly predictive of hypovolemia
- LidCO/ PulseCO monitor SPV, SV, SVV
Jonas MM. Curr Opin Crit Care 20028257-61
9Hemorrhagic Shock
- Class I lt 750 ml, lt 15 blood volume
crystalloid - Class II 750-1500 ml, 15-30 blood volume
- crystalloid
- Class III 1500-2000, 30-40 blood volume
- crystalloid, RBCs
- Class IV gt 2000, gt 40 blood vol
- crystalloid, RBCs
10Hypotensive Resuscitation
- Attempts to normalize BP with fluids blood
during uncontrolled hemorrhage - disrupts clot, risk bleeding mortality
- Animal model of uncontrolled hemorrhage
- gp 1- no surgery, no fluid 100 mortality _at_ 150
min - gp 2- no fluid, surgeryfluid 50 _at_ 90 m, 90 _at_
3 d - gp 3- hypo resusc, MAP 40, surgeryfluid no
initial deaths, 40 _at_ 3 d - gp 4- resusc to MAP 80, surgeryfluid 80 _at_ 90
min, blood loss, all died
J Am Coll Surg 199518049
11Hypotensive Resuscitation, contd
- Randomized trial, penetrating torso trauma, urban
center immediate v. delayed fluids - mortality
- LOS
- complications in immediate gp
- Conclusions
- Delayed fluid resuscitation acceptable if rapid
dx tx of injury
Bickell et al NEJM 19943311005
12Dutton et al J Trauma 2002521141
- RCT, trauma pts w SBP lt 90 excluded head injury
- Gp 1- fluid resusc to SBP 100
- Gp 2- fluid resusc to SBP 70
- No difference in survival 93, although ? ISS in
gp 2 23.9 v 19.5 - Duration of bleeding similar between gps 3 h
13Crystalloids and Colloids
- LR slightly hypotonic 273 mOsm/L, contains Ca
do not mix with blood - 0.9 saline isotonic, large volumes may cause
hyperchloremic metabolic acidosis - D5W hypotonic, hyperglycemia worsens cerebral
ischemia - Hetastarch Hespan gt 20 ml/kg may cause
coagulopathy Hextend better choice
14Hypertonic Fluids
- Rapid volume expansion BP CO
- tissue edema, ICP, brain water
- Improved neuro function, CPP, survival after
TBI - Resuscitation fluid of choice for prehospital TBI
Europe
15SAFE Study NEJM 20043502247
- Multicenter trial 4 albumin vs. 0.9 saline in
hypovolemic ICU pts - RBCT, Australia NZ, n6997
- Excluded cardiac surgery, liver transplants
burns - No difference in mortality (21), ICU (6 d) or
hospital (15 d) LOS, vent days (4.5 d), new MOF - Albumin gp reqd less volume overall
- Sepsis ? mortality w saline, P0.09
- TBI ? mortality w albumin , P0.009
16Indications for Transfusion
- Acute blood loss Hct lt 25 frequently
- Hct lt 20 or Hg lt 6 g/dl almost always
- Coagulopathy factors, platelets
- Clinical judgement CV status, age, pH, BE,
additional blood loss, cardiac output, SvO2,
tissue oxygenation - Use of single trigger not recommended
www.asahq.org/publicationsAndServices/blood_compon
ent.html
17Anemia and Death
- Critical DO2- point at which VO2 becomes
dependent on DO2 - Elderly Jehovahs Witness, 4500 mL blood loss,
Hct ? 9 - Critical DO2 was 184 mL/m2/min or 5 mL/kg/min
- 350 mL/min/ 70 kg
18Anemia Myocardial Ischemia
- 52 y.o. male, high speed MCA, T10 fx, hemothorax,
rib fx, pleural effusions, femur fx, widened
mediastinum but negative CT - No head injury, Jehovahs Witness
- Day 1 Hct 20, Day 2 Hct 13
- Erythropoietin, folic acid, B12, Fe Hct ? 20 by
day 10
19Anemia Myocardial Ischemia
- GA with thio, fent, vec, volatile
- EBL 250 ml
- Postop
- HR 136
- BP 80/50
- Hg 4.8
- Rx phenylephrine, esmolol, neostig
6 mm ST ? lead II
20Hebert et al N Engl J Med 1999340409
- Multicenter, prospective, randomized trial of
restrictive v. liberal RBC transfusion - Population Canadian ICUs, n4470
- 1o Diagnosis trauma-20, respiratory-30,
CVS-20, GI-15, CNS or Sepsis-5 - Restrictive Hg 7-9, Liberal Hg 10-12
- Conclusions restrictive at least as effective,
possibly superior to liberal. - Exception acute MI, unstable angina
21Complications of Transfusion
- Impaired O2 release from Hg
- Immunosuppression infection
- leuko reduced at MHMC since 8/15/01
- Coagulopathy
- Hypothermia
- ? Ca, ? K, ? pH
- Transfusion-related acute lung injury
- Hemolytic transfusion reaction
22Changes in O2 Transport
- P50 PO2 at which Hg is 1/2 saturated with O2 at
37 C, pH 7.40 - After 15 days storage
- ? 2,3 DPG
- ? deformability access to capillaries
- Implications tissue hypoxia ischemia
23Aged Blood
- gt 14 d ? proinflammatory mediators in non-leuko
reduced blood - gt 15 d O2 uptake not improved acutely despite ?
Hg (septic ICU patients) - gt 21 d ? MOF after trauma Zallen Am J Surg
1999178570 - gt 28 d ? pneumonia after cardiac surgery odds
ratio 2.7 Leal-Noval Anesthesiology
200398807 - gt 28 d VO2 not ? in septic animals w supply
dependent anemia Fitzgerald CCM 199725726
24Red Cell Transfusions _at_ MHMC
N385 trauma pts requiring surgery w/in 24 h
admission, 2003-4
25Age of Red Cells _at_ MHMC
N385 trauma pts requiring surgery w/in 24 h
admission, 2003-4
26Causes of Intraoperative Bleeding
- Surgical
- Hypothermia
- Hemodilution w crystalloids colloids
- ? coag factors, platelets RBCs
- Consumption of coag factors platelets at site
of injury - Colloids (e.g., Hespan) hemostasis defect
- DIC
- tissue trauma, TBI, shock
- Other
- Preop defect, coumadin, antiplatelet meds,
fibrinolysis
27Incidence of Hypothermia in Trauma _at_ MHMC
N385 trauma pts requiring surgery w/in 24 h
admission, 2003-4
28Level 1 System H-1000
- Aluminum heat exchanger w counter current 42 oC
circulating water bath - Two pressures chambers for rapid infusion
- H-1200 has automatic air detection
29FMS 2000 Rapid Infusor
- Integrated volumetric infusion pump
- Magnetic induction heater
- Ultrasonic air detection line pressure sensor
coupled to automatic shut off
30Forced-Air Warming
- Efficacy safety proven
- temp 1-2 oC/h
- Inexpensive non-invasive
- Maintains thermoneutral environment
- efficacy
- vasoconstriction
- insufficient surface area covered
31Coagulation Factors
- ? Fibrinogen, F V F VIII
- ? PT, aPTT
- 1.5 to 1.8 x N
- POC testing
- Coagulopathy corrected with FFP, 10-15 ml/kg Not
Platelets
32Platelet Works
- Uses standard hematology cell counting procedure.
- Example baseline count 211,000 ADP (agonist)
count 8,000 Function (211-8)/211 x 100 96
33Contribution of RBCs to Hemostasis
- RBCs modulate biochemical functional
responsiveness of platelets - RBCs optimizes interaction of platelets w injured
endothelium - RBCs ? bleeding time in anemic patients w
thrombocytopenia - Hct 30-35 may be necessary to sustain hemostasis
in bleeding pts during massive trx
34Emergency Transfusion
- O neg pRBC
- no antigens, universal donor
- contain small amt plasma w anti-A and anti-B ab
- If gt 2 units O neg pRBC
- crossmatch or continue with O neg
- Type specific uncrossmatched
- Risk of hemolytic trx rx 11000
35Hemolytic Transfusion Reaction
- ABO incompatibility recipient antibody coats
destroys donor cells - Accounted for 182 deaths more than 1/2 MD/nurse
error mortality 20-60 - Look for hemoglobinurina, bleeding diathesis,
hypotension - Verify identify each donor unit
36Cell-Salvage
- Transfuse directly after collection or wash
- Salvage rate up to 50
- Savings 1-2 units allogeneic blood
- Processing eliminates most leukocytes, platelets,
activated factors, plasma Hg, cytokines, cell
fragments, other debris - Hct of processed blood 50-60, ? 2-3 DPG v.
allogeneic
37Evaluation of Cell Salvage _at_ MHMC
- Retrospective review of 50 patients, Jan 1-June
17, 2003 w Fresinius CATS - Elective surgery 74 emerg 26
- M/F 60/40
- Average EBL 2.7 4.2 L
- Average volume returned 2 units 0.6 0.9 L,
or 22 of overall blood loss
38Cell Salvage _at_ MHMC Results
39Cell Salvage
- Disadvantages
- requires dedicated technical support
- risk of air embolism w infusion under pressure
- risk of suctioning thrombogenic material
Avitene, QuickClot, Gelfoam/thrombin, Costasis, - leukocyte activation fat particles use filter-
e.g., Pall Leukoguard - controversial infected wounds, tumor cells,
amniotic fluid, urine - Appropriate for trauma, vascular, cardiac, ortho,
other major blood loss surgeries
40PolyHeme
- Poly SFH-P Injection
- Supports life without donated blood
- Immediately available
- Universally compatible
- ? risk of disease transmission
- Allows rapid, massive infusion
- Shelf-life more than 1 year
41PolyHeme Study, Northfield
- Phase III study to assess the survival benefit of
PolyHeme when given to severely injured and
bleeding patients in hemorrhagic shock, starting
at the scene of injury continuing 12 hr
postinjury in the hospital. -
Multicenter-12 hospitals. http//clinicaltrials.go
v/show/NCT00076648
42Assessment of Eligibility
- Inclusion criteria
- Adults w blunt or penetrating trauma
- Apparent blood loss due to injury
- Shock w SBP ? 90 mmHg at the scene of injury
- Exclusion criteria
- GCS ? 5 or other evidence of severe head injury
(e.g., blown pupil or posturing) - Asystolic or requires CPR prior to the start of
infusion - Known objection to blood products
http//clinicaltrials.gov/show/NCT00076648
43rFVIIa
- Created to treat subgroup of hemophilia patients
who developed antibodies, or inhibitors, to FVIII
IX - Multiple reports of off-label use for rescue
therapy of MVB after exsanguinating hemorrhage
trauma, major surgery, cirrhosis - Mechanism of action
- complexes w TF ? activates FX to Fxa, FIX to
FIXa. - Fxa other factors, converts prothrombin to
thrombin - leads to formation of hemostatic plug by
converting fibrinogen to fibrin inducing local
hemostasis.
www.us.novoseven.com/
44rFVIIa for Acquired Coagulopathy
- Prospective, non-randomized study, n29
- Use of drug approved by senior MD
- ? bleeding in all cases
- PT 17.5 ? 9.3 ? INR to 0.6
- 15 long-term survivors
- No thrombus formation
- Deaths irreversible shock, sepsis, or TBI
45Pitfalls in Fluid Bloods for Trauma
- 1. Failure to appreciate severity of associated
injuries - head trauma, shock, pulmonary contusion,
hemothorax, SCI, tension pneumo, blunt
penetrating cardiac injury - 2. Failure to appreciate amount of blood loss
prevent hypothermic coagulopathy - 3. Failure to utilize damage control surgery
- 4. Failure to utilize point-of-care / stat lab
- 5. Failure to utilize cell-washing
- Ongoing studies to determine role of O2 carrying
solutions rFVIIa
46Trauma Chain of Survival
ITACCS Website www.itaccs.com/