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University of Medicine and Pharmacy, Iasi School of Medicine ANESTHESIA and INTENSIVE CARE Conf. Dr. Ioana Grigoras. MEDICINE 4 th year English Program Suport de curs. PRINCIPLES of DIAGNOSIS and TREATMENT of SHOCK. SHOCK. - PowerPoint PPT Presentation
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PRINCIPLES ofDIAGNOSIS and TREATMENT of
SHOCK
University of Medicine and Pharmacy, IasiSchool of MedicineANESTHESIA and INTENSIVE CAREConf. Dr. Ioana Grigoras
MEDICINE4th year
English ProgramSuport de curs
SHOCK
• syndrome – sum of signs and symptoms induced by multiples causes
• multiples causes – the same clinical picture• common pathophysiological pathway – cause
primary pathophysiologogical event (specific for each type of shock) compensatory phenomena decompensatory phenomena death
• causative event - great degree of severity• without treatment causes death• shock treatment - the treatment of the cause + the
interruption of the pathophysiological events
SHOCKDEFINITION
clinical syndrome induced by various causes and characterized by the reduction of the effective tissue perfusion pressure and generalized cellular dysfunction.
Effective tissue perfusion pressure = tissue perfusion pressure resulting in adequate oxygen tissues delivery which matches tissue oxygen consumption.
• Systemic disease (affects all the organs and tissues)• Variable clinical picture ( depends on:
– the severity of perfusion deficit– causative factor– the moment of temporal evolution– preexisting diseases
• The treatment aims the interruption of the pathophysiological cascade + causative treatment
SHOCKKey concept Tissue hypoperfusion
inappropiate oxygen delivery
Clinical syndrome characterized by the generalized imbalance between tissue oxygen delivery and tissue oxygen consumption resulting in anaerobic metabolism and organ and system dysfunction.
– oxygen debt– anaerobic metabolism– metabolic acidosis
SHOCK
CLASIFICATION (Weil and Shubin)
• Hypovolemic shock– reduction of effective circulating blood volume (hypovolemia)
• Cardiogenic shock– reduction of cardiac output induced by primary cardiac causes
• Extracardiac obstructive shock– reduction of cardiac output induced by extracardiac primary
causes
• Distributive shock – maldistribution of blood flow caused by vasodilation
PATHOPHYSIOLOGY
Initial event: blood circulating volume → hypovolemic shock cardiac output → cardiogenic shock– maldistribution of blood flow → septic shock
Initial event → compensatory phenomena → decompensatory phenomena → cascade of pathophysiological events which depend on:– natural evolution of the disease→ continuously worsening process
– therapeutic intervention→ interruption of the cascade + new problems
SIRS cause of shock – sepsis
effect of treatment – ischemia-reperfusion phenomena
PATHOPHYSIOLOGY
hypovolemia cardiac output can coexist în
maldistribution of blood any type of shock
flow
any type of shock can evolve
from one form to another
CLINICAL DIAGNOSIS OF SHOCKClinical picture varies with :
– Type of shock– Severity of shock– Causative factor– Preexisting conditions– Previous therapeutic interventions
COMMON CLINICAL SIGNS OF SHOCK STATES
– Tachycardia– Tachypnea– Arterial hypotension – Altered mental status– Oliguria
SHOCK
CLINICAL DIFFERENTIAL DIAGNOSIS OF SHOCK STATES:
We have to answer two questions :– Is cardiac output decreased or increased?
– Is the heart empty or too full?
BP = CO x SVR
CLINICAL DIFERENTIAL DIAGNOSIS OF SHOCK STATES:
We have to answer the question:Is cardiac output decreased or increased? cardiac output is increased (hyperdynamic shock):
– warm extremities– large pulse wave– good color return to the nail bed– full peripheral veins– reduced diastolic pressure
cardiac output is decreased (hypodynamic shock):– cold extremities– small pulse wave – delayed return of color to the nail bed– collapsed peripheral veins
CLINICAL DIFERENTIAL DIAGNOSIS OF SHOCK STATES:
We have to answer the question?:Is the heart too full or empty? Is the heart too full?
turgescent jugular veins
dyspnea, pulmonary rales, cyanosis
precordial pain
abnormal heart sounds and cardiac murmmurs
ECG abnormalities
Is the heart empty? collapsed jugular veins
intense thirst
pallor
history or clinical signs of hemorrhagic or non-hemorrhagic losses
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
• Arterial blood pressure• Heart rate• ECG• Pulse oximetry• Central venous pressure• Cardiac output and PAOP• SvO2
• Transthoracic and transesophageal echocardiography
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
• ARTERIAL BLOOD PRESSURE– Noninvasive nonautomatic measurement
• palpation method• auscultation method
– Noninvasive automatic measurementAdvantages: • noninvasive method (without risks)• automatic method (saves time, frees personnel for other tasks)• measurement at setted time intervalsDisadvantage:• no accuracy in case of hypotension• long lasting measurement – difficult to record sudden variations of blood pressure• may cause superior limb edema ( frequent cuff inflation)
– Invasive measurement• arterial catheterAdvantages:• real time measurement of blood pressure• accurate measurement for both elevated and reduced values of arterial blood pressure• allows repeated samples of arterial blood for blood gases analysis • allows blood samples for other laboratory analysis (no venous puncture)Disadvantages:• risk of complications (ischemia, trombosis, hemorrhage)• requires experience( arterial puncture)• requires medical equipment
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
HEART RATE– Measurement methods:
• Manually - frequency of pulse waves (ATTENTION in case of atrial fibrillation)
• pulse oximetry
• ECG monitoring
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
ELECTROCARDIOGRAPHY– Allows:
• Real time heart rate measurement
• Detection and diagnosis of cardiac arrhythmias and response to treatment
• Detection of myocardial ischemia (ECG abnormalities) and the response to treatment
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
PULSE OXIMETRY– Allows measurement of Sa02 in peripheral arterial blood– The principle of measurement : red light absorption is different in oxyhemoglobin
and reduced hemoglobin– Equipment with source of red light and sensor– Is applied on the thin peripheral tissues , which permit transillumination:
• Digital (finger or toe) probes• Ear probes• Nasal probes
– Advantages:• Allows continuous non-invasive evaluation of the arterial blood oxygenation • Allows heart rate measurement • Allows detection of arrhythmias (without diagnosis)• Allows evaluation of the pulse wave amplitude • Allows gross evaluation of peripheral perfusion
– Disadvantages:• The measurement unreliable in case of painted nails• Frequent artefacts caused by movements• Low accuracy of blood oxygenation evaluation• Measurement impossible when tissue perfusion pressure is very low
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
CENTRAL VENOUS PRESSURE– central venous catheter (the tip of catheter in superior vena
cava)– catheter introduced through internal jugular, external,
subclavian, axilary, brachial vein Methods of measurement:
• water column method• automatic method (transducer)
– Advantages:• allows monitoring of CVP (venous return); evaluates heart filling (right
ventricle)• allows monitoring of treatment response
– Disadvantages:• risks of central venous catheterization (pneumothorax, cervical or
mediastinal hematoma, infection, gas embolism)• requires special equipment (for automatic measurement)• for elevated values of CVP, inaccurate evaluation of right heart filling
HEMODYNAMIC MONITORING OF THE SHOCK STATE
PULMONARY ARTERY CATHETER– Catheter ~ 1m long introduced through a central vein -
the tip of the catheter in one pulmonary artery branch– Catheter introduced through internal jugular or
subclavian vein – passes through superior vena cava, right atrium, right ventricle, common pulmonary artery, one principal branch of pulmonary artery, ramifications of pulmonary artery
MONITORING
MONITORING
MONITORING
MONITORING
MONITORING
MONITORING
PULMONARY ARTERY CATHETER– Hemodynamic data:
• Measured parameters:– central venous pressure/ right atrium pressure (preload of right ventricle)– pressures in pulmonary artery (systolic, dyastolic and mean)– PAOP – pulmonary artery occlusion pressure (preload of left ventricle)– cardiac output (thermodilution method)– SvO2
• Calculated parameters:– cardiac index, stroke volume– pulmonary vascular resistance (afterload of right ventricle)– systemic vascular resistance (afterload of left ventricle)– oxygen delivery, oxygen consumption, oxygen extraction ratio
– Advantages• allows measurement and calculation of some hemodynamic parameters – shock
diagnosis• allows monitoring of treatment response
– Disadvantages:• Risks of central venous catheterization (pneumothorax, cervical or mediastinal
hematoma, infection, gas embolism) + specific complications (pulmonary infarction, cardiac perforation, etc.)
• requires special equipment (for automatic measurement)• difficult interpretation of hemodynamic data
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
METHODS OF CARDIAC OUTPUT EVALUATION AND MONITORING– Thermodilution method
• intermittent (Swan-Ganz catheter)• continuous ( modified Swan-Ganz catheter )
– Method of arterial pressure curve analysis (“pulse contour” method )
• PiCCO system (central venous catheter + special arterial catheter + equipment)
• LiDCO - Pulse CO system– echocardiography
• transthoracic• transesophageal
INTERMITTENT MEASUREMENT OF CARDIAC OUTPUT- thermodilution method -
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
METHODS OF CARDIAC OUTPUT EVALUATION AND MONITORING – Thermodilution method
• intermittent (Swan-Ganz catheter)• continuous ( modified Swan-Ganz catheter )
– Method of arterial pressure curve analysis (“pulse contour” method )
• PiCCO system (central venous catheter cateter + special arterial cateter + equipment)
• LiDCO-Pulse CO system
– echocardiography• transthoracic• transesophageal
CONTINUOUS MEASUREMENT OF CARDIAC OUTPUT-thermodilution method-
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
METHODS OF CARDIAC OUTPUT EVALUATION AND MONITORING – Thermodilution method
• intermittent (Swan-Ganz catheter)• continuous ( modified Swan-Ganz catheter )
– Method of arterial pressure curve analysis (“pulse contour” method )
• PiCCO system (central venous catheter cateter + special arterial cateter + equipment)
• LiDCO-Pulse CO system
– echocardiography• transthoracic• transesophageal
ECHOCARDIOGRAPHY
HEMODYNAMIC EVALUATION OF THE SHOCK STATE
ECHOCARDIOGRAPHY: noninvasive method of hemodynamic monitoring
– estimates the left ventricle telediastolic volume
– estimates the left ventricle ejection fraction
– measures cardiac output
– estimates the abnormalities of myocardial kinetics (areas of hipo - or akinesis)
– estimates valvular dynamics
– estimates pericardial liquid
HEMODYNAMIC MONITORING OF THE SHOCK STATE
OXYGEN SATURATION OF MIXED VENOUS BLOOD (SvO2):
• measured in right atrium blood SvO2
• allows measurement of oxygen consumption VO2
• allows measurement of oxygen arterio-venous difference Da-vO2
• allows measurement of oxygen extraction ER O2
• allows monitoring of treatment response
HEMODYNAMIC PARAMETERS IN DIFFERENT TYPES OF SHOCK
HR BP CO CVP PAOP SVR Da-vO2 SvO2
Hypovolemic
shock↑ ↑ ↑
Cardiogenic
shock↑ ↑ ↑ ↑ ↑
Septic
shock↑ ↑ N N N ↑
Hemodynamic parameters in different types of shock
ABBREVIATION:• HR – heart rate• BP – arterial blood pressure• CO – cardiac output• CVP –central venous pressure• PAOP – pulmonary artery occlusion pressure• SVR – systemic vascular resistance
• Da-v O2 – oxygen arterial-venous difference
• SvO2 – mixed venous blood oxygen saturation
MONITORING OF THE PATIENT WITH SHOCK STATE
• Respiratory monitoring• Respiratory rate per minute• Respiratory pattern• Pulse oximetry
• Cardiovascular monitoring• Neurological monitoring
• State of consciousness
• Temperature monitoring• Measurement of peripheral/core temperature
• Diuresis monitoring• Hourly monitoring of diuresis
• Monitoring of arterial gases• Blood gas analysis
HEMODYNAMIC MONITORING OF PATIENT WITH SHOCK STATE
• Blood pressure• Heart rate• ECG• Pulse oximetry• Central venous pressure• Cardiac output and pulmonary artery occlusion
pressure• Oxygen saturation in mixed venous blood• Transthoracic and tranesophageal echocardiography
INITIAL LABORATORY INVESTIGATIONS OF THE PATIENT WITH SHOCK STATE
shock → systemic disease→ multisystemic evaluation
– blood group and compatibility test
– plasma and urinary electrolytes
– plasma and urinary creatinine and urea nitrogen
– liver function test, amylases
– haemoglobin, hematocrit, blood white cells count and formula
– platelets and coagulation tests
– blood gas analysis
– ECG
– chest radiography
+ others explorations indicated by possible causes
INITIAL TREATMENT OF SHOCK STATES
aggressive and early introduction of treatment
correction of tissue perfusion
improvement/correction of organic dysfunction
System approach: ABC
INITIAL TREATMENT OF SHOCK STATES• A şi B (airway and breathing):
– clinical evaluation (respiratory rate and respiratory pattern) laboratory investigations (pulse oximetry, blood gas analysis)
Detection of hypoxemia– Oxygenotherapy is rapidly started at first contact with the patient
– Indications of endo-tracheal intubation (ETT) and ventilatory support :• hypoxemia ( PaO2)• ventilatory failure ( PaO2 + ↑ PaCO2)• signs of respiratory fatigue : tachypnea >30 respirations/minute abdomino-thoracic balance utilization of accesory respiratory muscles • altered consciousness ( protection of respiratory airways reflexes)• for the reduction of respiratory muscles oxygen consumption
ETT + ventilatory support+ PEEP → correction of hypoxemia
INITIAL TREATMENT OF SHOCK STATES
• C (circulation):Circulatory resuscitation means more than
normalization of arterial blood pressure
GOALS: • normalization of volemia
volume repletion therapy
• normalization of cardiac output inotropic therapy
• normalization of tissue perfusion vasomotor therapy (vasopressor/vasodilatator
therapy)
INITIAL TREATMENT OF SHOCK STATES
PRACTICAL APPROACH:– oxygentherapy / endo-tracheal intubation and ventilatory support– peripheral venous access (în hypovolemia – multiple venous access)– blood samples for laboratory analysis– ECG monitoring– non-invasive arterial blood pressure measurement– arterial catheter– urinary catheter– naso-gastric tube– central venous catheter– core/peripheral temperature monitoring– Swan-Ganz catheter/ echocardiography (if necessary)