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Cardiac Output Monitoring

Cardiac Output Monitoring

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Cardiac Output Monitoring

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  1. Cardiac Output Monitoring Monica Morosan

  2. Typical value • End diastolic volume (EDV)120 ml (65– - 240 ml) • End systolic volume (ESV)50 ml(16 - –143 ml) • Stroke volume (SV)70 ml (55 - 100 ml) • Stroke volume index (33-47 ml/m2/beat) • Ejection Fraction (Ef)58% (55 to 70%) • Cardiac output (CO)4.9 L/minute (4.0 - 8.0 L/min) • Cardiac index CI (2.6-4.2)L/min/m2 • SVR=80x(MAP-CVP)/CO (800-1200dynes/sec/cm5) • SVRI (1970-2390dynes/sec/cm5/m2)

  3. Cardiac output monitoring • Invasive PA catheter • Non invasive TOE, Echo Oesophageal Doppler Transthoracic impedance Arterial pulse contour analysis (PiCCO) Arterial pulse power analysis (LiDCO)

  4. Fick principle or indicator dilution technique

  5. PA catheter

  6. PA catheter Measures: • Intracardiac pressures • PA pressures • Cardiac output • Oxygen saturation

  7. Indications: IHD, Cardiogenic shock RV failure Septic shock ARDS Periop: high risk cardiac surgery or neurosurgery Contraindications: Tricuspid or pulm valve mechanical prosthesis Right heart mass (Tumour or thrombus) Tricuspid or pulmonary endocarditis

  8. PAOP (PCWP) significance Estimates • Left sided preload • Left ventricular end diastolic pressure • Extravascular lung water • Miocardial O2 consumption

  9. Thermodilution: Stewart Hamilton equation

  10. Oesophageal Doppler

  11. Oesophageal Doppler Measures: Blood flow velocity in the descending aorta CO=VTIxCSAxHR Parameters: CO, SV, FTc, PV (peak velocity), HR CO: 86% agreement between measured CO with Doppler vs PAC

  12. Normovolaemia Hypovolaemia

  13. LiDCO • Lithium indicator dilution • Continous, real time pulse power analysis rather than pulse contour • Assumption than pulse power has a linear relationship with flow, uses an algorithm to det CO • Minimally invasive

  14. Safe • Uses the CVP catheter and A line • Injectate 0.15-0.3 mmol Lithium Chloride Contraindications -If already on Lithium -Muscle relaxant drugs -Weight less then 40 kg -First 3 months pregnancy

  15. Pulse contour analysis with intermittent thermodilution measurement Good agreement with PAC Thermistor tipped A line Relies on good A line trace ( arrythmias, AoR, Ao baloon, SVR up): innaacuracies PiCCO

  16. PiCCO • Pulse contour analysis: -Continuous pulse contour cardiac analysis (PCCO) -Arterial blood pressure (AP) -Heart rate (HR) -Stroke volume (SV) -Stroke volume variation (SVV) -Systemic vascular resistance (SVR) -Index of left ventricular contractility • Intermittent thermodilution: • Transpulmonary cardiac output (CO) • Intrathoracic blood volume (ITBV) • Extravascular lung water (EVLW) • Cardiac function index (CFI)

  17. Impedance plethysmography • 2 sets circular wire electrodes around chest and neck • Current passed between outer two( high frec, low magnitude), with measurement of potential difference between the inner two • Maximal rate of change of impedance occurs with peak Ao flow • Movement, arrythmias and diathermy: innacuracies • More evidence in haemodynamically unstable

  18. Thoracic bioreactance NICOM • Modification of impedance technology • To improve the signal to noise ratio • Phase shift in voltage across thorax • 4 electrodes across thorax • CO for L and R side and then averages • Also averages over 60s

  19. Penaz technique • Continous pulse contour analysis of NIBP ( also known as vascular unloading technique) • Finger cuff applies pressure • Infrared light assesses the light absorbtion (artery diameter) • Alters the pressure in the cuff to keep the diameter constant (this pressure=BP) • Trace compared to oscillometric derived systolic and diastolic values • Limitations: oedema or hypeperfusion, low CO, low SVR

  20. Others • Pulse wave transit time: continous, derived from ECG, sats probe trace and Art pressure • Radial artery tonometry • ECHO: LVEF, IVC collapsibility index • All might have a place in low/intermediate risk patients, non-invasive haemodyn optimisation, ED department and diagnostic procedures