1 / 16

How and when should we monitor CO and SV in shock?

How and when should we monitor CO and SV in shock?. Alexandre Mebazaa, MD, PhD University Paris 7 Anesthesiology and Critical care medicine Hôpital Lariboisière, Paris, France. When would I want to measure CO or SV in shock ?. SHOCK MAP < 65mmHg Oliguria (<0.5ml/Kg/hour)

chaz
Download Presentation

How and when should we monitor CO and SV in shock?

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. How and when should we monitor CO and SV in shock? Alexandre Mebazaa, MD, PhD University Paris 7 Anesthesiology and Critical care medicine Hôpital Lariboisière, Paris, France When would I want to measure CO or SV in shock ?

  2. SHOCK MAP < 65mmHg Oliguria (<0.5ml/Kg/hour) Clinical signs of tissue hypoperfusion Volemia Heart function Vessel tone If shock is prolonged, mechanisms of shock are combined

  3. Hochman JS Circulation 2003, 107: 2998-3002

  4. Here is the summary of my talk!

  5. Predominant RVF or global F PAC catheter Predominant LVF any CO monitoring SHOCK MAP < 65mmHg Oliguria (<0.5ml/Kg/hour) Clinical signs of tissue hypoperfusion • 1) Clinical approach • HR/BP • Peripheral perfusion • Impact of volume loading • Urine output First step Second step 2) CVP/SvcO2 3) Echocardiography should preceed any CO monitoring Third step Fourth step

  6. Hemodynamic management of shock: first step- clinical evaluation

  7. SHOCK MAP < 65mmHg Oliguria (<0.5ml/Kg/hour) Clinical signs of tissue hypoperfusion Heart rate Normal / high Heart rate < 40 bpm Give fluid challenge of 250 ml over 5 min Isoprenaline or pacemaker as necessary Yes, repeat if needed Improvement? No CVP/SvcO2

  8. Hemodynamic management of shock: second step

  9. Hemodynamic management of shock: second step- CVP/ScvO2

  10. SvO2 >70% SvO2 <70% CVP low CVP high CVP N or low Hypovolaemic/ Haemorrhagic/ cause? Sepsis? Consider global/right ventricular failure Repeat fluid challenge (250ml/5mins) or transfusion if necessary. Repeat Fluid challenge 250ml/ 5mins Echocardiography that preceeds cardiac output monitoring Continue until normal values obtained Continue until normal values obtained Haemodynamic improvement ? No response Haemodynamic improvement Yes No Echocardiography that preceeds CO monitoring Vasopressors Insert CVP/SvcO2

  11. Hemodynamic management of shock: third step- echocardiography

  12. The « pyramid » of echocardiography skills in ICU Cholley,Vieillard-baron, Mebazaa, ICM 2006

  13. Predominent right ventricular failure Predominent left ventricular failure Global heart failure TAMPONADE ? Massive mitral regurgitation ? Yes No No Echocardiographic guided pericardiocentesis or surgical intervention PA catheter LV dysfunction RV ischaemia? Pulmonary hypertension? Any CO Monitoring, ideally non invasive Reduce RV afterload, avoid excess volume, use inotropes if CO low Pulmonary vasodilators Optimise LV pre- and afterload, Inotropes if required Echocardiography Mebazaa et al. Intensive Care Med, 2004;30:185-96

  14. Hemodynamic management of shock: fourth step- CO monitoring

  15. Why/when would I want to measure CO or SV in shock? • Failure hemodynamic management based on clinical signs and CVP-ScvO2; this should always direct to echocardiography • Echocardiography should, ideally, always preceed CO monitoring • CO monitoring shoud be a PAC catheter in case of RV dysfunction while any CO monitoring, less invasive than PAC, should be favored for LV dysfunction

  16. SHOCK MAP < 65mmHg Oliguria (<0.5ml/Kg/hour) Clinical signs of tissue hypoperfusion • 1) Clinical approach • HR/BP • Peripheral perfusion • Impact of volume loading • Urine output 2) CVP/SvcO2 3) Echocardiography should preceed any CO monitoring Predominant RVF or global F PAC catheter Predominant LVF any CO monitoring

More Related