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Sepsis Guidelines
International guidelines for management of severe sepsis and septic shock: 2008Critical Care Medicine 2008 Vol.36 (1)
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Septic Shock Mortality
Dellinger: Crit Care Med, Vol 31(3).March 2003.946-955
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ACCP / SCCM Consensus Panel, 1992
Definitions
SIRS: 2 or more of the following:Ø Core T >=38 or <= 36Ø HR >=90 Ø RR >=20 or PaCO2 <=32Ø WBC >=12,000 or <=4,000
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ACCP / SCCM Consensus Panel, 1992
Definitions• Sepsis: SIRS + known or suspected
infection• Severe sepsis: Sepsis with hypoperfusion
or organ dysfunction (see next slide)
• Septic shock: ongoing tissue hypoperfusion = hypotension despite adequate fluid resuscitation or lactate >= 4
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Organ Dysfunction
• CV: SBP <=90 mmHg or MAP <=70 mmHg for at least 1 hour despite adequate volume resuscitation, or the use of vasopressors to achieve the same goals.
• Renal: Urine output <0.5 mL/kg/h, or acute renal failure• Pulmonary: PaO2/FiO2 <= 250 if other organ dysfunction
present or <= 200 if the lung is the only dysfunctional organ.• Hepatic dysfunction (eg, hyperbilirubinemia, transaminitis)• CNS: Acute alteration in mental status (eg, delirium).• Hematologic: Platelet count <80,000/mm3 or decreased by 50
percent over three days, or disseminated intravascular coagulation.• Metabolic: pH <=7.30 or base deficit >5.0 mmol/L and plasma
lactate >1.5 x upper limit of normal.
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Pathophysiology
n Hypovolemia loss of cardiac fillingØ Capillary leak (absolute hypovolemia)Ø Venodilation (relative hypovolemia)
n Cardiogenic decrease in contractility
n Obstructive rise in PVR
n Distributive hypoperfusion despite nl / incr COØ Macrovascular (decreased splanchnic flow)Ø Microvascular (shunting)
n Cytotoxic cellular inability to utilize O2 despite adequate supply
Dellinger: Crit Care Med, Volume 31(3).March 2003.946-955
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Multiorgan Dysfunction
n Host immunosupression (anergy, lymphopenia, hypothermia)
n Apoptosis initiated by proinflammatory cytokines
n Tissue injury and multiorgan dysfunction
NEJM 355(16):1699-1713
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Sepsis Progression
n Early: systemic O2 supply / demand imbalanceHypovolemia, myocardial depression, increased metabolic rate and vasoregulatory perfusion abnormalities.
• Global tissue hypoxia: delivery dependent Transition to severe disease. Elevated lactate, decreased ScvO2. Can occur with normal vital signs.
n Septic shock: Ø Hypodynamic state of O2 delivery dependency (high lactate and low
ScvO2)Ø hyperdynamic (O2 consumption is independent of O2 delivery;
normal or increased lactate and high ScvO2)
Otero, R et al EGDT in Severe Sepsis Revisited Chest 130(5) 1579-1595
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Oxygen Content Equation
CaO2 = (SaO2 x Hgb x 1.34) +0.003(PaO2)
n CaO2 in ml/dl arterial bloodn SaO2 expressed as decimal fractionn HgB in g/dln 1.34 = O2-binding capacity of Hgb (ml O2/g Hgb)n 0.003 = solubility constant (0.003 ml O2/dl/mm Hg PaO2)
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O2 delivery
n Arterial O2 delivery = C.O. x CaO2n Venous O2 delivery = C.O. x CvO2n If C.O. = 5 L/min and CaO2 = 20 ml O2/dl
O2 delivery = 1000 ml/min
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Oxygen uptake
n O2 uptake = art O2 – ven O2 deliveryn VO2 = C.O. x (CaO2 – CvO2)
VO2 = 5 L/min x (0.2 L O2/L – 0.15 L O2/L) = 5 x 0.05 = 0.25 L = 250 ml
n O2ER: VO2 / DO2 x 100% (Normal 20 - 30%)
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Rivers. et al Early Goal-Directed Therapy in the Treatment of Severe Sepsis and Septic ShockNEJM 2001; 345:1368-1377
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Rivers. et al Early Goal-Directed Therapy in the Treatment of Severe Sepsis and Septic Shock
NEJM 2001; 345:1368-1377
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Rivers. et al Early Goal-Directed Therapy in the Treatment of Severe Sepsis and Septic ShockNEJM 2001; 345:1368-1377
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Rivers. et al Early Goal-Directed Therapy in the Treatment of Severe Sepsis and Septic ShockNEJM 2001; 345:1368-1377
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The Importance of Early Goal-DirectedTherapy for Sepsis-induced Hypoperfusion
Adapted from Table 3, page 1374, with permission from Rivers E, Nguyen B, Havstad S, et al. Early goal-directed therapy in the treatment of severe sepsis and septic shock. N Engl J Med. 2001;345:1368-1377.
In-hospital mortality
(all patients)
0
10
20
30
40
50
60 Standard therapyEGDT
28-day mortality
60-day mortality
NNT to prevent 1 event (death) = 6 - 8M
orta
lity
(%)
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A clinician attacks the three heads of severe sepsis—hypotension, hypoperfusion, and organ dysfunction.
Crit Care Med. 2004;32(Suppl):S445
Hercules Kills Cerberus, Renato Pettinato, 2001, Italy
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Initial Resuscitation
n Protocolized resuscitationn CVP 8 – 12n MAP > 65 n UO > = 0.5 ml/kg/hn ScvO2 >= 70% or SvO2 > = 65%
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Fluid Therapy
n Crystalloids and colloids are equally effective
n Target CVP >= 8 (>= 12 if mech vent)n Initial bolus: Crystalloids: ~1000 cc;
Colloids 300 – 500 cc over 30 min; repeat based on response and tolerance
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Fluid Therapy
n Reduce rate of fluids when CVP or PCWP increase without concurrent hemodynamic improvement
n Venodilation and capillary leak: need for continuing aggressive treatment with fluids
n I >> O is typical; can’t use to judge fluid resuscitation during the first 24h
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Vasopressors
n Hypotensive pt: loss of autoregulation and dependence of perfusion on pressure
n May need to start before correction of hypovolemia
n Titration of norepinephrine to MAP 65 has been shown to preserve tissue perfusion
n Baseline BP should be considered
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Vasopressors
n Initial pressor of choice: norepinephrine or dopamine
n Vasopressin 0.03 U/min may be added n Epinephrine in cases of poor response to
norepi or dopan Central and A-lines
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ScvO2 or SvO2 below target
n Transfuse RBC to achieve Hct >= 30n Dobutamine up to 20 mcg/kg/min
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CORTICUS Study
n 50 mg hydrocortisone q 6h x 5d with 6-day taper vs. placebo
n Primary outcome: death at 28 days in ACTH stimulation test nonresponders
n No mortality difference in responders or non-responders
n Faster shock reversal in hydrocortisone group
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Corticosteroids
n IV hydrocortisone: cases of septic shock when BP is poorly responsive to fluid resuscitation and vasopressors. Do not exceed 300 mg hydrocortisone / day
n No need in ACTH stimulation testn Wean steroids when vasopressors are no
longer required
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Other Issues
n Diagnosisn Antibioticsn Source controln Activated Protein C
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Supportive Therapy
n Transfuse for Hgb < 7 once tissue hypoperfusion resolved
n Mechanical ventilationn Glucose controln Nutritionn DVT and stress ulcer prophylaxis
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Activated Protein C
n Approved for patients with severe sepsis and increased risk of death
n APACHE II > = 25 or dysfunction of 2 or more organs: absolute decrease in mortality 13% (6)
vNot effective in patients with low risk of death (7)
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Vasopressin
n Consider in patients with refractory shock despite fluid resuscitation and high-dose conventional vasopressors.
n Dose 0.01 – 0.03 u/minn May decrease stroke volumen Not the first choice
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Vasopressin
n Low VP levels (3.1 pg/ml) were found in a study of 19 patients with vasodilatory septic shock as compared to patients with cardiogenic shock (22.7pg/ml).
n VP 0.04 u/min increased measured VP level and improved BP.
Landry DW et al Circulation 1997; 95(5): 1122-5
Columbia University
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Vasopressinn Prospective study of 239 mixed critically ill SICU patients
and 70 healthy volunteersn Study pts had higher AVP than healthy controlsn No correlation between serum AVP level and the
incidence of shock.n 4/239 patients met criteria for absolute (<0.83 pg/ml) and
32 patients met criteria for a relative AVP deficiency (AVP < 10 and MAP < 70).
n 22% of septic shock patients had relative AVP deficiency
Jochberger, S et al Crit Care Med 2006; 34(2) 293
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Vasopressin
n 10 pts with vasodilatory septic shock admitted to a trauma ICU
n Randomized to VP 0.04 u/min or placebon 2 patients in the placebo group died of
refractory hypotension. All patients in the VP group survived and had other pressors withdrawn (maintained BP on VP only).
Malay MB et al J Trauma 1999; 47(4): 699-703. Allegheny General Hospital Pittsburg
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Vasopressin
n Prospective, case-controlled study of 16 patients with septic shock who remained hypotensive despite pharmacologic doses of catecholamines.
n VP 0.04 u/min x 16hn BP, SVR and UO increased. Lactate
decreased. No side effects.Tsuneyoshi I et al Crit Care Med 2001 Mar; 29(3): 487-93
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Vasopressin
n 48 patients with catecholamine –resistant vasodilatory shock randomized to NE or AVP 4 u/h + NE and followed for 48h.
n AVP pts: significantly lower HR, NE requirements and incidence of new-onset tachyarrhythmias. MAP, CI, SV and LVSWI were higher in AVP group.GI perfusion was better (by gastric tonometry), but bilirubin was higher in the AVP group. Dunser Circulation 2003; 107: 2313 – 2319
n 30.2% incidence of ischemic skin ulcers Dunser Crit Care Med 2003; 31: 1394 – 1398
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Ventilation
n ALI / ARDS is commonn Lung protective ventilation decreases
mortality (from 40 to 31% in ARDS Network Study)17,
lessens organ dysfunction and lowers levels of cytokines.
n TV 6 cc/kg IBWMen 50 + 0.91(H cm – 152.4)Women 45.5 + 0.91(H cm – 152.4)
n PEEP doesn’t improve mortality18.
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