Mechanically Unloading the Left Ventricle Before Coronary Reperfusion Reduces Left Ventricular Wall Stress and Myocardial Infarct Size

Kapur, Navin K.; Paruchuri, Vikram; Urbano-Morales, Jose Angel; Mackey, Emily; Daly, Gerard H.; Qiao, Xiaoying; Pandian, Natesa G.; Perides, George; Karas, Richard H.

doi:10.1161/circulationaha.112.000029

Cited by 152 publications

(106 citation statements)

References 44 publications

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“…The redirection of blood from the LA reduces LV preload, LV workload, filling pressures, wall stress, and myocardial oxygen demand. 47,48 The increase in arterial blood pressure and cardiac output supports systemic perfusion. The 19 Fr arterial cannula allows up to 5 L/min of flow whereas the 15 Fr cannula will allow up to 3.5 L/min.…”

Section: Hemodynamic Effectsmentioning

confidence: 99%

2015 SCAI/ACC/HFSA/STS Clinical Expert Consensus Statement on the Use of Percutaneous Mechanical Circulatory Support Devices in Cardiovascular Care (Endorsed by the American Heart Association, the Cardiological Society of India, and Sociedad Latino Americana de Cardiologia Intervencion; Affirmation of Value by the Canadian Association of Interventional Cardiology–Association Canadienne de Cardiologie d'intervention)∗

Rihal

Naidu

Givertz

et al. 2015

Journal of Cardiac Failure

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232

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Although historically the intra-aortic balloon pump has been the only mechanical circulatory support device available to clinicians, a number of new devices have become commercially available and have entered clinical practice. These include axial flow pumps, such as Impella(®); left atrial to femoral artery bypass pumps, specifically the TandemHeart; and new devices for institution of extracorporeal membrane oxygenation. These devices differ significantly in their hemodynamic effects, insertion, monitoring, and clinical applicability. This document reviews the physiologic impact on the circulation of these devices and their use in specific clinical situations. These situations include patients undergoing high-risk percutaneous coronary intervention, those presenting with cardiogenic shock, and acute decompensated heart failure. Specialized uses for right-sided support and in pediatric populations are discussed and the clinical utility of mechanical circulatory support devices is reviewed, as are the American College of Cardiology/American Heart Association clinical practice guidelines.

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Section: Hemodynamic Effectsmentioning

confidence: 99%

2015 SCAI/ACC/HFSA/STS Clinical Expert Consensus Statement on the Use of Percutaneous Mechanical Circulatory Support Devices in Cardiovascular Care (Endorsed by the American Heart Association, the Cardiological Society of India, and Sociedad Latino Americana de Cardiologia Intervencion; Affirmation of Value by the Canadian Association of Interventional Cardiology–Association Canadienne de Cardiologie d'intervention)∗

Rihal

Naidu

Givertz

et al. 2015

Journal of Cardiac Failure

Self Cite

232

319

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show abstract

“…The redirection of blood from the LA reduces LV preload, LV workload, filling pressures, wall stress, and myocardial oxygen demand [47,48]. The increase in arterial blood pressure and cardiac output supports systemic perfusion.…”

Section: Hemodynamic Effectsmentioning

confidence: 99%

“…Ventricular unloading may reduce myocardial infarct size through enhanced hemodynamics, preserved energetics, and activation of cardioprotective mechanisms [48,116]. Despite limited unloading potency, some animal infarct model studies found improved myocyte recovery with IABP use [117,118].…”

Section: Future Directions: Myocyte Protection and Recoverymentioning

confidence: 99%

2015 SCAI/ACC/HFSA/STS clinical expert consensus statement on the use of percutaneous mechanical circulatory support devices in cardiovascular care (Endorsed by the American heart assocation, the cardiological society of India, and sociedad latino Americana de cardiologia intervencion; Affirmation of value by the canadian association of interventional cardiology–association canadienne de cardiologie d'intervention)

Rihal

Naidu

Givertz

et al. 2015

Cathet Cardio Intervent

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Although historically the intra-aortic balloon pump has been the only mechanical circulatory support device available to clinicians, a number of new devices have become commercially available and have entered clinical practice. These include axial flow pumps, such as Impella V R ; left atrial to femoral artery bypass pumps, specifically the is approached by other guideline developers and asked to review and consider guidelines for endorsement. Guidelines developed by external organizations will be considered for affirmation of value. The CAIC may not agree with every recommendation in such a document, but overall considers the document to be of educational value to its members. Catheterization and Cardiovascular Interventions 85:E175-E196 (2015)TandemHeart; and new devices for institution of extracorporeal membrane oxygenation. These devices differ significantly in their hemodynamic effects, insertion, monitoring, and clinical applicability. This document reviews the physiologic impact on the circulation of these devices and their use in specific clinical situations. These situations include patients undergoing high-risk percutaneous coronary intervention, those presenting with cardiogenic shock, and acute decompensated heart failure. Specialized uses for rightsided support and in pediatric populations are discussed and the clinical utility of mechanical circulatory support devices is reviewed, as are the American College of Cardiology/American Heart Association clinical practice guidelines.

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“…Although some experimental myocardial infarct size studies using intra-aortic balloon counterpulsation (IABP) showed reductions in infarct size, 10 this technique, which primarily reduces afterload, was unsuccessful in reducing myocardial infarct size in humans or in reducing death from cardiogenic shock. 11,12 The reason for the negative clinical trials is unclear, as discussed by Kapur et al 13 Experimental studies with a catheter-mounted axial flow pump (moving blood from LV to aorta) that reduced preload, did reduce infarct size in experimental models. 14 Smalling et al 14 subjected anesthetized dogs to 2 hours of left anterior descending coronary artery occlusion followed by 1 hour of reperfusion and compared the effect of a Hemopump transvalvular axial-flow LV assist device with IABP on LV unloading, coronary collateral blood flow, and reduction of infarct size.…”

Section: Mechanical Unloading For Reducing Infarct Sizementioning

confidence: 99%

“…Kapur et al 13 provide an intriguing study in this issue of Circulation, suggesting that a circulatory support device that reduces LV preload with a left atrial to femoral artery pumping approach decreased LV wall stress and LV stroke work after reperfusion and limited infarct size even when treated animals received an additional 30 minutes of ischemia, during which LV unloading was activated. The benefit of this type of unloading may be secondary to the reduction in oxygen demand, but also intriguing was their observation that phosphorylation of reperfusion injury salvage kinase pathway proteins (pERK and pAkt) was increased in samples of the LV obtained from the noninfarct zone (but not the infarct zone).…”

Section: The Present Studymentioning

confidence: 99%

Can Myocardial Infarct Size Be Reduced by Mechanically Unloading the Left Ventricle?

Kloner

2013

Circulation

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Mechanically Unloading the Left Ventricle Before Coronary Reperfusion Reduces Left Ventricular Wall Stress and Myocardial Infarct Size

Cited by 152 publications

References 44 publications

Can Myocardial Infarct Size Be Reduced by Mechanically Unloading the Left Ventricle?

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