Invasive hemodynamic monitoring: new trends and possibilities · The key properties of an...
Transcript of Invasive hemodynamic monitoring: new trends and possibilities · The key properties of an...
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Invasive hemodynamic Invasive hemodynamic monitoring: new trends monitoring: new trends and possibilitiesand possibilities
Mikhail Kirov
Department of Anesthesiology and Intensive Care Medicine, Northern State Medical University, Arkhangelsk, Russia
HRMAP
EVLW
CI
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Cannesson M et al. Crit Care 2011;15:R197
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The key properties of an The key properties of an ‘‘idealideal’’
hemodynamic monitoring systemhemodynamic monitoring system
Vincent Vincent JL JL et al. et al. Crit Care Crit Care 2011, 15:2292011, 15:229
�� Provides measurement of relevant Provides measurement of relevant
variablesvariables
�� Provides accurate and reproducible Provides accurate and reproducible
measurementsmeasurements
�� Provides interpretable dataProvides interpretable data
�� Is easy to useIs easy to use
�� Is readily availableIs readily available
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The key properties of an The key properties of an ‘‘idealideal’’
hemodynamic monitoring systemhemodynamic monitoring systemVincent Vincent JL JL et al. et al. Crit Care Crit Care 2011, 15:2292011, 15:229
�� Is operatorIs operator--independentindependent
�� Has a rapid responseHas a rapid response--timetime
�� Causes no harmCauses no harm
�� Is costIs cost--effectiveeffective
�� Should provide information that is able to Should provide information that is able to
guide therapyguide therapy
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Indications for invasive arterial Indications for invasive arterial pressure monitoring pressure monitoring
1) 1) Critically ill patients (Critically ill patients (hypoperfusionhypoperfusion, , shock, ARDS, cardiac arrest, etc.shock, ARDS, cardiac arrest, etc.))
2) 2) Infusion of Infusion of inotropesinotropes and and vasoactivevasoactivedrugsdrugs
3) 3) Major surgery (cardiothoracic, Major surgery (cardiothoracic, abdominal, abdominal, neuroneuro, etc.), etc.)
4) 4) Blood analyses (arterial blood gases, Blood analyses (arterial blood gases, etc.)etc.)
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SITES OF SITES OF ARTERIALARTERIALPUNCTUREPUNCTURE
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ARTERIAL PRESSUREARTERIAL PRESSURE
Vasospasm Vasodilation
Low contractility High contractility
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PRELOADPRELOAD
Static parametersStatic parameters
�� PressuresPressures ((CVPCVP,, PAOPPAOP))
�� Volumes Volumes ((endend--diastolic volumesdiastolic volumes, , intrathoracicintrathoracicblood volume etc.blood volume etc.))
Dynamic parametersDynamic parameters
�� Variations of blood pressure and stroke Variations of blood pressure and stroke volumevolume
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CVP AS A MARKER OF PRELOADCVP AS A MARKER OF PRELOADIncreased CVPIncreased CVP
�� Right heart failure Right heart failure �� HypervolemiaHypervolemia�� ThromboembolismThromboembolism�� Pulmonary hypertension Pulmonary hypertension �� TamponadeTamponade�� Increased Increased intrathoracicintrathoracic pressure (mechanical pressure (mechanical
ventilation, COPD, ventilation, COPD, pneumothoraxpneumothorax, etc.), etc.)�� Increased Increased intraabdominalintraabdominal pressure (pressure (ascitisascitis, ,
pregnancy) pregnancy) �� Increased vascular tone (Increased vascular tone (vasopressorsvasopressors))
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CVP AS A MARKER OF PRELOADCVP AS A MARKER OF PRELOADDecreased CVPDecreased CVP
�� HypovolemiaHypovolemia (dehydration, bleeding, etc.)(dehydration, bleeding, etc.)
�� Systemic Systemic vasodilationvasodilation (septic shock, (septic shock, vasodilators, spinal trauma, regional vasodilators, spinal trauma, regional anesthesia etc.)anesthesia etc.)
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�� CVP<5 mm Hg predicts fluid responsiveness CVP<5 mm Hg predicts fluid responsiveness
only in 47% of casesonly in 47% of cases
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TbInjection
t
∫ ⋅∆⋅⋅−=
dtT
KV)T(TCO
b
iibTDa
StewartStewart--Hamilton Hamilton methodmethod
Tb = Blood temperature
Ti = Injectate temperature
Vi = Volume of injectate
d Tb. dt = Area under thermodilution curve
K = Specific constant
SwanSwan--GanzGanz catheter and cardiac outputcatheter and cardiac output
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•• Position of catheterPosition of catheter
•• Ventricular complianceVentricular compliance
•• PAOP<12 mm Hg predicts PAOP<12 mm Hg predicts
fluid responsiveness only in fluid responsiveness only in
54% of cases54% of cases
•• PAOP is not always a good PAOP is not always a good
predictor of the volume predictor of the volume
statusstatusLeft atrium
Zone IPA > Pa > PV
Zone IIIPa > PV > PA
Zone IIPa > PA > PV
West zones
Pressure is not a volume!Pressure is not a volume!
Pulmonary artery occlusion pressure (PAOP)Pulmonary artery occlusion pressure (PAOP)DurairajDurairaj L et al. L et al. ChestChest 2008;133:2522008;133:252--263263
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Pressures and preloadPressures and preload
Lichtwarck-Aschoff et al, Intensive Care Med 18: 142-147, 1992
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�� SwanSwan--GanzGanz catheter catheter –– no improvement no improvement
in clinical outcome compared with CVPin clinical outcome compared with CVP
�� Rate of use decreased significantly over Rate of use decreased significantly over
last years: in Canada from 16.4% to last years: in Canada from 16.4% to
6.5% of ICU patients6.5% of ICU patientsKoo KKY et al. Koo KKY et al. CritCrit Care Med 2011; 39:1613Care Med 2011; 39:1613--16181618
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Single transpulmonary thermodilution
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c(l)
Bolus
Recirculation
In c(l)
e-¹
At
MTt DSt
t
Stewart-Hamilton method
(Tb-Ti)×Vi×K
∫∆ Tb×dtCOTDa=
Body T
Bolus
t
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ITTV = CO × MTt
PTV = CO × DSt
GEDV = ITTV – PTV
ITBV = 1.25 × GEDV
EVLW = ITTV – ITBV
Single transpulmonary thermodilution
RAEDV RVEDV PTV LAEDV LVEDV
RAEDV RVEDV PTV LAEDV LVEDV
RAEDV RVEDV
EVLW
LAEDV LVEDV
EVLW
RAEDV RVEDV PTV LAEDV LVEDV
RAEDV RVEDV PBV LAEDV LVEDV
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Intrathoracic blood volume/Intrathoracic blood volume/
global endglobal end--diastolic volume and preloaddiastolic volume and preload
Lichtwarck-Aschoff et al. Intensive Care Med 1992; 18: 142-147 Durairaj L et al. Chest 2008;133:252-263
Global end-diastolic volume < 680 ml/m2 – predicts fluid responsiveness in 77% cases
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Extravascular lung water = (CO x DSt) – (0.25 x GEDV)
Global end-diastolic volume (GEDV) = CO x MTt x f(S2/S1),
where S1 and S2 – rise and decay of thermodilution curve, f - constant
Methodology of VolumeViewBendjelid K et al. Crit Care 2010, 14:R209
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• Heat exchange of thermoindicator with myocardium and
vessels – overestimation of lung water
• Recirculation of indicator when CO is low - flattening of
thermodilution curve and increase of volumes
• Shunting of indicator in ASD and VSD – two-peak
(“camel”) curve: modification of PiCCO algorithm
• Severe changes in pulmonary blood flow (pulmonary
embolism) limit the distribution of indicator and decrease
the measured volumes
Factors which can influence the results of transpulmonary thermodilution
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EVLWI and LIS: r2=0.18,
EVLWI and radiograph score: r2=0.28, p<0.0001
EVLWI, CVP, and lung injury Kirov MY et al. Anesteziol Reanimatol 2003;4:41-45Kirov MY et al. Yearbook of Intensive Care and Emergency Medicine 2005; p. 449-461Martin GS et al. Crit Care 2005;9:R74-R82Kuzkov VV et al. Crit Care Med 2006;34:1647-1653
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EVLW and prognosis in ALI and sepsisKirov MY et al. Anesteziol Reanimatol 2003;4:41-45 Martin GS et al. Crit Care 2005;9:R74-R82 Kuzkov VV et al. Crit Care Med 2006;34:1647-1653
SmetkinSmetkin AA et alAA et al. . Intensive Care Med 2009;35 (suppl. 1): 0953; S246.Intensive Care Med 2009;35 (suppl. 1): 0953; S246.
Patients with a decrease in EVLWI
during the first 12 hrs had higher
survival rate as compared to those
with unchanged or increased EVLWI.
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Clinical value of EVLWEisenberg PR et al. Am Rev Resp Dis 1987;136:662-668Mitchell et al. Am Rev Resp Dis 1992;145:990-998Pino-Sanchez F et al. J Trauma 2009;67:1220-1224
Monitoring of EVLW changes the strategy for fluid and vasoactive therapyWhen EVLW is increased, fluid restriction can improve the clinical outcome
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Global ejection fraction (GEF)
GEF =GEDV
4 x SV N = 20-30%
Cardiac function index
CFI = CI / GEDVI
Correlates with Echo EF and predicts the response on inotropes
Julien J et al. Crit Care Med 2009;37
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Area under
pressure
curve
Pressure
curve
shape
CCO = cal • HR •⌠⌠⌠⌠⌡⌡⌡⌡
Systole
P(t)SVR
+ C(p) •dPdt
( ) dt
Aortic
complianceHRCalibration
factor
t [s]
P [mm Hg]
Continuous monitoring of cardiac output: Continuous monitoring of cardiac output:
pulse contour analysispulse contour analysis
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PiCCOplus, PiCCO2, VolumeView: volumetrics and CI, TD calibration Vigileo and
PulsioFlex: CI,no TD calibration
Continuous monitoring of cardiac outputContinuous monitoring of cardiac output
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LiDCO (lithium dilution)Calibration by lithium indicator
Edwards Vigilance IICalibration, Swan-Ganz catheter
Modules Philips, Draeger, Schiller, GE, MindrayBasing on PiCCO technology
Continuous monitoring of cardiac outputContinuous monitoring of cardiac output
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Possible problems of pulse contour analysisPossible problems of pulse contour analysisBottgerBottger SS--F et al. F et al. Med Sci Monit 2010; 16: PR1Med Sci Monit 2010; 16: PR1--77
Camporota L, Beale R. Crit Care 2010;14:124Camporota L, Beale R. Crit Care 2010;14:124
�� Quality of blood pressure signal and position of Quality of blood pressure signal and position of
cathetercatheter
�� Accuracy is decreasing during rapid changes of Accuracy is decreasing during rapid changes of
vascular tone (vasodilators, vascular tone (vasodilators, vasopressorsvasopressors, ,
sepsis, shock, cardiac surgerysepsis, shock, cardiac surgery))
�� Calibration by dilution techniquesCalibration by dilution techniques
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Functional hemodynamic parameters (pressure and stroke volume variations) are
the most sensitive parameters for the assessment of fluid responsiveness in mechanically ventilated patients with
prediction value of 95-98%
Responsive: can increase CI Non-responsive
Durairaj L et al. Chest 2008;133:252-263
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Variations of stroke volume (SVV) and pulse pressure (PPV) Variations of stroke volume (SVV) and pulse pressure (PPV) Michard F et al. Crit Care 2007, 11:131De Waal EEC et al. Crit Care Med 2009, 37Marik PE et al. Crit Care Med 2009, 37: 2642-7Marik PE et al. Ann Intensive Care 2011, 1
SVmeanSVmean
SVmaxSVmax –– SVminSVminSVV =SVV =
SVmeanSVmean
�Fluid responsiveness if SVV>10% and PPV>13%�Therapy based on PPV and SVV decreases duration of mechanical ventilation, complications, and ICU stay
� Valid only in sinus rhythm, closed chest, and mechanical ventilation
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Cannesson M et al. Crit Care 2011;15:R197
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Belda FJ et al. BJA 2011;106:482-486
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• Major and high-risk surgery
• ALI of any etiology
• Severe sepsis and septic shock
• Acute cardiac failure, cardiogenic shock, and
pulmonary edema
• Multiple trauma
• Severe burns (>40%)
• MODS
Monitoring of cardiac output and its’ determinants: indicationsSeeling M et al. Euroanesthesia 2008, Refresher Course of Lectures, 17-22.
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Pearse R et al, Critical Care 2004, 8(Suppl 1):P51
Venous saturation – SvO2 and ScvO2Venous saturation Venous saturation –– SvOSvO22 and ScvOand ScvO22
Venous saturation
OXYGEN DELIVERY
OXYGEN CONSUMPTION
SaO2Hb Сardiacoutput
Functional cell activity
Low ScvOLow ScvO22 appears to indicate patients at high risk of appears to indicate patients at high risk of complications after surgery. complications after surgery.
ScvOScvO22 may indicate may indicate hypovolemiahypovolemia at an earlier stage than at an earlier stage than traditional parameters. traditional parameters.
ScvOScvO22 may be a suitable hemodynamic goal.may be a suitable hemodynamic goal.
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Monitoring of venous saturation
METHODS
Monitoring of venous saturation
METHODS
Discrete Continuous
Pearse RM, Rhodes A. Mixed and central venous oxygen saturation. In: Vincent JL, ed. Yearbook of Intensive Care and Emergency Medicine. Berlin: Springer; 2005. 592–602.
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Surviving Sepsis Campaign Guidelines (based on Rivers et al, NEJM 2001)
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Central venous saturation in septic shockCentral venous saturation in septic shockPerner A et al. Acta Anaesth Scand 2010;54:98-102
�� ScvOScvO22>64% >64% -- CICI >2,5 >2,5
l/min/ml/min/m2 2 (sensitivity(sensitivity 98%, 98%,
specificityspecificity 77%)77%)
�� Monitoring of cardiac Monitoring of cardiac
output whenoutput when ScvOScvO22<64% <64%
despite fluid therapy?despite fluid therapy?
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Monitoring of ScvO2 and O2 transport in high-risk surgeryPolonen P. et al. Anesth Analg 2000;90:1052-1059.Smetkin A et al. Acta Anaesth Scand 2009; 53: 505-514 Ospina-Tacson G.A. et al. Intensive Care Med 2008
�� Facilitates early detection and correction of Facilitates early detection and correction of
hemodynamic changeshemodynamic changes
�� Influences the strategy for fluid and Influences the strategy for fluid and inotropeinotrope therapytherapy
�� In a combination with the monitoring of lactate can In a combination with the monitoring of lactate can
improve the course of postoperative period and improve the course of postoperative period and
decrease mortalitydecrease mortality
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Monitoring of oxygen transport in critically illMonitoring of oxygen transport in critically ill
Maintaining DO2I within 400-600 ml/min/m2 (?)
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Hofer CK et al. Hofer CK et al. EurEur J J AnaesthAnaesth 2009;26:9962009;26:996--10021002
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Perioperative hemodynamic monitoring basing on the surgical and the patient riskKirov MY et al. Curr Opin Сrit Care 2010;16:384–392.
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Hemodynamic monitoring and optimizationMayer J. et al. Crit Care 2010; 14:R18.Gurgel S.T. et al. Anesth Analg 2011;112:1384-1391. Hamilton M.A. et al. Anesth Analg 2011;112:1392-1402. Cecconi M. et al. Crit Care 2011; 15:R132. Takala J. et al. Crit Care 2011; 15:R148. Dalfino L. et al. Crit Care 2011; 15:R154.
�� Helps to guide therapy and maintain tissue perfusionHelps to guide therapy and maintain tissue perfusion
�� Protects surgical patients against postoperative Protects surgical patients against postoperative
hospitalhospital--acquired infections acquired infections
�� Associates with a reduced length of hospital stay and Associates with a reduced length of hospital stay and
a lower incidence of complications in different a lower incidence of complications in different
categories of patientscategories of patients
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Hemodynamic monitoring and optimizationMayer J. et al. Crit Care 2010; 14:R18.Gurgel S.T. et al. Anesth Analg 2011;112:1384-1391. Hamilton M.A. et al. Anesth Analg 2011;112:1392-1402. Cecconi M. et al. Crit Care 2011; 15:R132. Takala J. et al. Crit Care 2011; 15:R148. Dalfino L. et al. Crit Care 2011; 15:R154.
�� Reduces surgical mortality and morbidityReduces surgical mortality and morbidity
�� Must be strongly encouraged, Must be strongly encouraged, particularilyparticularily in the in the
setting of the highsetting of the high--risk surgical population risk surgical population
�� Some monitoring technologies and treatment Some monitoring technologies and treatment
protocols do not facilitate early hemodynamic protocols do not facilitate early hemodynamic
stabilization stabilization
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Preload &Preload &Fluid responsivenessFluid responsiveness
Cardiac Output
EVLW
Oxygen transport
Clinical examination, vital signs, urine output, Hb, lactate...
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• Perioperative period and many critical states are often accompanied by severe changes in hemodynamics requiring invasive monitoring
• The level of hemodynamic monitoring should be individualized according to the status of the patient
Invasive hemodynamic monitoring: conclusions
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• Novel monitoring techniques should be validated in clinical trials
• Monitoring of hemodynamics followed by goal-oriented therapy is able to improve the clinical outcome
Invasive hemodynamic monitoring: conclusions
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CI 2,7
MAP 60
SVV 12%
EVLWI 7
CVP 13
????