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Transcript
MYOCARDIAL RECOVERY MECHANICAL DEVICES TO AID RECOVERY Stephen Westaby Oxford, UK POST INFARCTION CARDIOGENIC SHOCK Occurs in 10% of myocardial infarction patients Mortality is 50-60% despite aggressive medical therapy Effectively reperfused and potentially recoverable patients still die through myocardial stunning (35% mortality in the “SHOCK” Trial) PREDICTION OF CARDIOGENIC SHOCK IN THE CARDIAC CATHETERISATION LABORATORY Poor coronary reperfusion (TIMI Grade <3) Left main coronary occlusion Left ventricular ejection fraction <25% Age >75 years All with 2 of the 4 risk factors died. Garcia-Alverez A et al. Am j Cardiol 2009; 103:1073-77 OUTLOOK FOR SURVIVORS OF CARDIOGENIC SHOCK GUSTO: 88% of those discharged from hospital are alive at one year SHOCK: 3 and 6 year survival 79% and 62% Around 50% of patients remain free from heart failure symptoms. The Damaging Effects of High Dose Inotropes Elevated stroke work and wall tension. Increased myocardial oxygen consumption. Depletion of energy reserves. Endocardial necrosis & impaired diastolic function. Overall negative effect on myocardial recovery. IABP - why use it? Increase coronary perfusion pressure Increase myocardial oxygen supply without increasing demand Decrease afterload and MVO2 But increase in cardiac output is only 0.5-0.8 L/min Does not increase survival in post infarction cardiogenic shock POST INFARCTION CARDIOGENIC SHOCK Can ventricular assist devices improve survival? Does evidence exist to demonstrate improved survival? The Rationale for Recovery in the Unloaded Myocardium The failing heart beats > 120, 000 times per day and pumps > 6000 litres of blood against an increasing afterload. As the heart dilates wall tension, myocardial energy and oxygen consumption increase. Sub endocardial blood flow decreases. An unloaded heart has the chance of recovery; a heart left supporting the circulation does not. What Does An LVAD Do? Provides 3-7 litres systemic blood flow. Reverses the acute or chronic heart failure syndrome. Reduces left ventricular work and increases coronary blood flow. Increases right ventricular work (tolerated in 95%). Promotes improvement in myocardial function at cellular and metabolic level. LVAD in cardiogenic shock MYOCARDIAL ENERGY CONSUMPTION Modified from Allen BS, Rosenkranz ER, Buckberg GD et al J Thorac Cardiovasc Surg 1986;92:543-552 ACCEPTED CRITERIA FOR LVAD DEPLOYMENT Cardiac index <2.0L/min.m2 Systolic blood pressure <90 mm Hg Pulmonary capillary wedge pressure >20 mm Hg Rising creatinine and liver transaminases Patient oliguric, acidotic with cool extremities and obtunded mental state. TANDEM HEART IN ACUTE MI Removes Oxygenated blood from LA via transseptal cannula inserted through the femoral vein Returns blood via femoral artery Pre Post CO 3.5 4.8 BP (mean) 63 82 PAP 31 23 PCWP 20 14 All p<0.001 *Thiele H, Laver B, Hambrecht R, Boudriot I, Cohen H, Schuler G. Reversal of cardiogenic shock by percutaneous left atrial to femoral arterial bypass assistance. Circulation 2001; 104:2917-22. Bridge to myocardial recovery with the AB 180 implantable centrifugal pump - 1997 Alive with normal cardiac function – 2010 The Impella system in cardiogenic shock. Improves haemodynamics. As yet no survival benefit. The Levitronix Centrimag VAD The Levitronix® CentriMag VAS is designed to provide temporary support for patients suffering potentially reversible cardiogenic shock. CE approved for up to 30 days of use. Phaeochromocytoma myocarditis Ruptured mycotic aneurysm of the left ventricle 15 year old female with staphylococcal septicaemia and mitral valve endocarditis MINI–ECC TRANSPORT FROM AFGHANISTAN Surgery with Mini-ECC Case: Male 58 years Coronary dissection in cath lab cardiogenic shock → Stabilisation and Transport → CABG with Mini-ECC Cardiohelp Portable VAD and oxygenator for cardiogenic shock or respiratory failure Before committing the patient to short term circulatory support, the team should have realistic expectations of a satisfactory end point Recovery from stunning, infarction or myocarditis. Availability of a donor heart within weeks. An opportunity to convert to a long term LVAD Myocardial pathology is unpredictable. Bridge to decision making is a reasonable first step. LVAD IN POST INFARCTION CARDIOGENIC SHOCK An LVAD will sustain systemic blood flow and prevent organ dysfunction whilst the reperfused myocardium recovers from stunning. Clinical trials of IABP versus LVAD support are underway. Hemodynamic parameters strongly favour the LVAD but survival advantage is yet to be proven.
