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Immediate Post-Operative Care—Cardiac Surgery

Immediate Post-Operative Care—Cardiac Surgery. Brett Sheridan, M.D. Assistant Professor Division of Cardiothoracic Surgery University of North Carolina. History. Pre-op hemodynamics Operation Ischemia time Complications Inotropes. Examination. ABC’s- Endotracheal tube/ventilator EKG

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Immediate Post-Operative Care—Cardiac Surgery

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  1. Immediate Post-Operative Care—Cardiac Surgery Brett Sheridan, M.D. Assistant Professor Division of Cardiothoracic Surgery University of North Carolina

  2. History Pre-op hemodynamics Operation Ischemia time Complications Inotropes

  3. Examination • ABC’s- Endotracheal tube/ventilator • EKG • Pulse Oximetry • Blood Pressure • Color / Peripheral pulses / Temperature of extremties • Chest tubes • Foley catheter / Urine o/p • Inotropes- what drugs/infusions running/correct dosages

  4. Chest X-Ray • ET tube • NGT • Chest tubes • Lung fields-fluid/air • Heart shadow • Swan catheter tip • IABP tip • Mediastinal width

  5. Laboratory • ABG • K+ • Hct • Bleeding-PT/INR, PTT, Platelets • Impaired renal Function Cr

  6. Assessment of perfusion How do you do it? • What is “Shock”? • Blood Pressure • LE temperature and pulses • Urine output • Cardiac output

  7. Metabolic Shock • Acid/Base balance • Anaerobic metabolism Lactic acidosis Base deficit • Mixed Venous (SVO2) • SvO2= SaO2 – VO2/ (Hgb x 1.39 x CO) x 10

  8. Acute Management of HemodynamicsR/O Mechanical causes of cardiogenic shock • Tension pneumothorax • Hypoxia • Tamponade • Pressors inadvertently d/c’d • Acute MI-thrombosed graft • Bleeding- open line/intraabdominal hemorrhage from femoral access

  9. Determinants of Cardiac Output • Stroke volume x heart rate • Stroke volume • preload • afterload • contractility

  10. Hemodynamic Management – Strategy to Optimize Cardiac Function • Rate • Rhythm • Preload • Afterload • Contractility

  11. Rate • Optimal rate 90-100 bpm • Atrial pace if AV node functioning • A-V pace if some degree of heart block

  12. Rhythm • Identify rhythm • If HR>120 slow rate pharmacologically • Inadequate diastolic filling • If lack of A-V synchrony  A-V sequentially pace • to optimize atrial transport

  13. Preload • Maximizing Frank-Starling relationship • If CVP or PCWP <15  volume • crystalloid • colloid • blood • If CVP or PCWP > 15 • afterload or contractility

  14. Afterload • Resistance (increases work) • SVR= MAP- CVP x 80 800-1200 dyne-sec/cm5 CO • SVR increased low CO hypertensive • reduce afterload(NTG/SNP) • SVR decreased high CO hypotensive • increase afterload (vasopressin, phenylepherine, levophed)

  15. Contractility • Persistent low BP and low CO despite optimization of above parameters. • The only remaining reason for poor CO is intrinsic myocardial dysfunction. • This is closely associated w/ ischemia/reperfusion. Injury of muscle with troponin leak. • There is a fairly predictable time line of myocardial recovery ( majority but not all cases).

  16. ContractilityPharmacologic support-Pressors • Dopamine- 3-8 ug/kg/min-mild inotropy, huge chronotropy and increasing alpha • Dobutamine- 2.5- 10 ug/kg/min-mod chronotropy and w/ moderate pulmonary and peripheralvasodilatory properties. +/- chronotropy • Epinephrine- 0.01- 0.1 ug/kg/min- potent inotropy, mild chronotropy, increasing alpha • Milrinone- excellent for right heart failure as it is a more potent pulmonary vasodilator than dobutamine. Also has potent systemic vasodilating properties so often used in conjunction w/ Epinephrine. Moderate inotropy as well.

  17. Mechanical Support • Intra-aortic ballon pump (IABP) • reduces afterload • increases diastolic coronary perfusion pressure • Left ventricular assist device • temporary or permenant • Bi-ventricular device • short term or long term • Extracorporeal membrane oxygentation (ECMO)

  18. Heart Transplant

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