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Selasa, 20 Desember 2011
septic shock
SEPTIC SHOCK
SEPTIC SHOCK PREDISPOSING FACTORS
Disseminated malignancy - Hyperalimentation
Biliary tract surgery - Genital tract surgery
Extended hospitalization - Advanced age
Debilitating illness - Immunodeficiency disorder
Ventilator > 48 h - Disseminated malignancy
Hyperalimentation - Biliary tract surgery
Genital tract surgery
SEPTIC SHOCK MORTALITY SEPTIC SHOCK MICROBIOLOGY
Underlying Illness Mortality %
Rapidly fatal 80
Ultimately fatal 40
Non-fatal <10
SEPTIC SHOCK PATHOPHYSIOLOGY
Endotoxinàstimulation of humoral and cellular immune systemsàactivation of complement sequence and coagulation cascade
Activation of coagulation cascadeà activation of fibrinolytic systemà DIC
Complement activationàchemotaxis of PMNs, degranulation of mast cells, and release of histamine and inflammatory mediatorsàincreased capillary permeability
INFLAMMATIONà release of catecholamines and prostaglandinsà generalized vasoconstriction
VASOCONSTRICTIONà decreased perfusion of vital organsà tissue hypoxiaà metabolic acidosis
METABOLIC ACIDOSISà capillary poolingà decreased circulating blood volumeà decreased venous returnà decreased cardiac output
DECREASED CARDIAC OUTPUTà decreased coronary and cerebral blood flowà intractable hypotension, coma, multiorgan failureà DEATH
SEPTIC SHOCK CLINICAL MANIFESTATIONS
Altered mental status - Thermal instability
Cardiac dysfunction - Respiratory compromise
Bleeding - Jaundice
Ileus - Skin changes
SEPTIC SHOCK DIFFERENTIAL DIAGNOSIS
Cardiogenic shock - Hypovolemic shock
Venous or AF embolism - Cardiac tamponade
Hemorrhagic pancreatitis - Diabetic ketoacidosis
Aortic dissection
SEPTIC SHOCK DIAGNOSTIC TESTS
Laboratory Test Result
WBC Decreased, then increased
HCT Variable
PLT Decreased with DIC
Fibrinogen Decreased with DIC
Fibrin degradation products Increased with DIC
PT, PTT, TT Prolonged with DIC
pH Decreased
Lactic acid Increased (poor prognostic factor)
pO2 Decreased
pCO2 Increased
HCO3 Decreased
K+ Increased
SEPTIC SHOCK MICROBIOLOGY STUDIES
Urine culture - Blood culture
Culture of peritoneal fluid - Culture of abscess
Sputum culture - Chest x-ray
Abdominal films - IVP
CT - MRI
Ultrasound - ECG
Right heart catheterization
SEPTIC SHOCKMANAGEMENT
Monitoring --> CO , PCWP, BP, ABGs, Urine output
Restore circulating blood volume Packed red blood cells; Maintain hemoglobin of 7 to 9 g/l ; Crystalloid ; Ringer’s lactate ; Normal saline
“7 – 3 rule” for fluid replacement
Infuse 150-200 ml/10 minutes
If PCWP increases > 7mm Hg, discontinue infusion temporarily
If PCWP increases < 3 mm Hg, infuse a second increment
SEPTIC SHOCK GOALS OF FLUID RESUSCITATION
Central venous pressure of 8 to 12 mm Hg
Mean arterial pressure > 65 mm Hg
Urine output > 0.5 ml/kg/h
Central venous or mixed venous oxygen saturation > 70%
SEPTIC SHOCK VASOPRESSORS
Dopamine
Starting dose 1-3 mcg/kg/min
Norepinephrine
5 to 15 mcg/min
Vasopressin
0.01 to 0.03 U/min
In patients with septic shock, there is no difference in mortality in patients treated with dopamine vs norepinephrine vs vasopressin
Dopamine is associated with more arrhythmic events than norepinephrine
Events serious enough to require discontinuation of medication
SEPTIC SHOCK INOTROPIC THERAPY
Dobutamine - first choice inotrope for patients with low CO in the presence of adequate LV filling pressure
Dose
0.5 to 1 mcg/kg/min
Maximum – 40 mcg/kg/min
SEPTIC SHOCK TREATMENT WITH HYDROCORTISONE
Dose – 200-300 mg/day for 7 days in 3 or 4 divided doses or by continuous infusion
Reverses shock more rapidly
Variable effect on mortality
Increases frequency of superinfection
SEPTIC SHOCK SURGICAL INTERVENTION
Drainage of abscess
Debridement of infected wound
Removal of infected organ
SEPTIC SHOCK ANTIBIOTIC THERAPY
Antibiotics should be started within one hour of diagnosis of sepsis/hypotensionà improved survival
Initial empiric regimen should target most likely pathogens, e
Reassess regimen after 48-72 hours
Total duration of treatment- 7 to 10 days
SEPTIC SHOCK SPECIALIZED ANTIBIOTICS
Anti-staphylococcal agents
Linezolid
Quinupristin plus dalfopristin
Vancomycin
Anti-fungal agents
SEPTIC SHOCK
POSSIBLE MODIFICATIONS IN ANTIBIOTIC ADMINISTRATION
Prolong the intravenous infusion to 3 to 4 hours
For ventilator-related infections, administer nebulized antibiotics
SEPTIC SHOCK
MINIMIZING INFLAMMATION
Recombinant human activated protein C (rhAPC)
Inflammatory response is integrally linked to procoagulant activity and endothelial activation
rhAPC is an endogenous anticoagulant with anti-inflammatory properties
Recombinant human activated protein C
Inhibits thrombin
Inhibits neutrophil recruitment
Inhibits apoptosis
Improves survival in patients with multi-organ dysfunction
Dose - 24 micrograms/kg/min x 96 hours
SEPTIC SHOCK RESPIRATORY SUPPORT
Administer oxygen
Monitor ABGs
Initiate mechanical ventilation early
Avoid barotrauma
Use PEEP as indicated
EFFECT OF ARDS ON MORTALITY IN SEPTIC SHOCK
Condition Mortality %
Septic shock without ARDS 50
Septic shock with ARDS 90
MANAGEMENT OF SEPTIC SHOCK OTHER SUPPORTIVE MEASURES
Maintain normal temperature
Correct coagulation abnormalities
Maintain glucose < 150 mg/dl
Administer WBC transfusion
DVT prophylaxis
SEPTIC SHOCK PREVENTIVE MEASURES
Stabilize pre-existing illnesses prior to surgery
Avoid unnecessary preoperative hospitalization
Diagnose and treat operative site infections immediately
Be ever vigilant
SEPTIC SHOCK CONCLUSIONS
Predisposing factors
Microbiology
Fluid resuscitation
Surgical intervention
Antibiotic therapy
Importance of early intervention
REFERENCES
Dellinger RP, et al. Surviving sepsis campaign guidelines for management of severe sepsis and septic shock. Crit Care Med 2004; 32: 858-73.
Russell JA. Management of sepsis. N Engl J Med 2007: 355:1699-713.
Sprung CL, et al. Hydrocortisone therapy for patients with septic shock. N Engl J Med 2008; 358:111-24.
Parrillo JE. Septic shock – vasopressin, norepinephrine, and urgency. N Engl J Med 2008; 358: 954-55
DeBacker D, et al. Comparison of dopamine and norepinephrine in the treatment of shock. N Engl J Med 2010; 362:779-89.
Peleg AY, Hooper DC. Hospital-acquired infections due to gram-negative bacteria. N Engl J Med 2010; 362:1804-13.
Jumat, 28 Oktober 2011
SHOCK BY DODDY YP SKep.Ns
• Define the major types of shock and principles of management
• Review fluid resuscitation, vasopressors and inotropes
• Address the balance of O2 supply and demand
• Discuss the differential diagnosis of oliguria
• Always a symptom of its cause
• Abnormally low organ perfusion usually associated with decreased blood pressure
• Signs of organ hypoperfusion: mental status change, oliguria, acidosis
• Cardiogenic
• Hypovolemic
• Distributive
• Obstructive
Syok kardiogenic
• Decreased contractility
• Increased filling pressures, decreased LV stroke work, decreased cardiac output
• Increased systemic vascular resistance – compensatory
Shock hypovolemic
• Decreased cardiac output
• Decreased filling pressures
• Compensatory increase in systemic vascular resistance
Distribution shock
• Normal or increased cardiac output
• Low systemic vascular resistance
• Low to normal filling pressures
• Sepsis, anaphylaxis, neurogenic, and acute adrenal insufficiency
Obstruktive shock
• Decreased cardiac output
• Increased systemic vascular resistance
• Variable filling pressures – etiology dependent
• Cardiac tamponade, tension pneumothorax, massive pulmonary embolus
Management shock kardiogenic
• Treat arrhythmias
• Diastolic dysfunction may require increased filling pressures
• Vasodilators if not hypotensive
• Inotrope administration
• Vasopressors if hypotensive to raise aortic diastolic pressure
• Mechanical assistance
• Consultation
Management shock hypovolemic
• Volume resuscitation – crystalloid, colloid
• Initial crystalloid choices
– Lactated Ringer’s solution
– Normal saline (high chloride may produce hyperchloremic acidosis)
• Match fluid given to fluid lost
– Blood, crystalloid, colloid
Distribusi terapi shock
• Expand intravascular volume
• Hypotension despite volume therapy
– Inotropes
• Vasopressors for MAP < 60 mm Hg
• Adjunctive antibiotics in sepsis
Threatmen shock obstruktive
• Relieve obstruction
– Pericardiocentesis
– Tube thoracostomy
– Treat pulmonary embolus
• Temporary benefit from fluid or inotrope administration
Managemen shock
• Increase O2 delivery
• Optimize O2 content of blood
• Improve cardiac output and
blood pressure
• Match systemic O2 needs with O2 delivery
• Reverse/prevent organ hypoperfusion
Managemen fluid
• Crystalloids
– Lactated Ringer’s solution
– Normal saline
• Colloids
– Hetastarch
– Albumin
• Packed red blood cells
• Infuse to physiologic endpoints
• Correct hypotension first
• Decrease heart rate
• Correct hypoperfusion abnormalities
• Monitor for deterioration of oxygenation
Agen vasopresur
• Dopamine
– Low dose (2-3 mg/kg/min) – mild inotrope
plus renal effect
– Intermediate dose (4-10 mg/kg/min) –
inotropic effect
– High dose ( >10 mg/kg/min) – vasoconstriction
– Chronotropic effect
• Dobutamine
– 5-20 mg/kg/min
– Inotropic and variable chronotropic effect
– Decrease in systemic vascular resistance
• Norepinephrine
– 0.05 mg/kg/min and titrate
– Inotropic and vasopressor effects
– Potent vasopressor at high doses
Epineprin
• Both a and b actions for inotropic and vasopressor effects
• 0.1 mg/kg/min and titrate
• Increases myocardial O2 consumption
Oligury
• Marker of hypoperfusion
• Urine output in adults
<0.5 mL/kg/hr for 2 hrs
• Etiologies
– Prerenal
– Renal
– Postrenal
Evaluation oligury
• History and physical examination
• Laboratory evaluation
– Urine sodium
– Urine osmolality or specific gravity
– BUN, creatinine
Definitions
The term shock is used to describe a variety of disorders in which there is a failure of oxygen supply to the tissues.
Oxygen supply to the tissues may be impaired because of :
1. respiratory failure
2. cardiac failure
3. inadequate circulating blood volume
Senin, 14 Februari 2011
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