6- Hemodynamic Disorders(Httpfaculty.ksu.Edu.satatiahPathology Lectures6- Hemodynamic Disorders.pdf)
New devices for Acute Hemodynamic supportHemodynamic support Percutaneous Assist Devices. Temporary...
Transcript of New devices for Acute Hemodynamic supportHemodynamic support Percutaneous Assist Devices. Temporary...
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Alejandro Barbagelata, MD, FAHA,FSCAI, FICA
Cardiologo Invasivo
Adj Professor of Medicine Duke University
Past Director of Heart Failure, Assist Devices and Transplant
At University of Texas. Interventional Heart Failure SCAI committee
Director posgrado ICC Avanzada UCA-DUCCS
New devices for Acute
Hemodynamic support
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Percutaneous Assist Devices. Temporary Support
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Interagency Registry for Mechanically Assisted Circulatory
Support Profiles
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Acute myocardial infarction and mechanical complications: -Left ventricular dysfunction -Right ventricular infarction -Acute mitral regurgitation -Ventricular septal defect -Pericardial tamponade -LV free wall rupture
Acute ventricular failure: -Myocarditis -Transplant allograft rejection -Rapidly progressive dilated cardiomyopathy -Stress cardiomyopathy (Takotsubo) -VAD dysfunction
Acute on chronic progressive heart failure
Valvular Disorders: -Acute mitral regurgitation -Acute aortic regurgitation -Critical aortic stenosis
Others: -Post-cardiac surgery -Septic shock with LV dysfunction -Pulmonary embolism -Myocardial Contusion
. Etiologies of Cardiogenic Shock
Doll JA, et al. A team-based approach to patients in cardiogenic shock. Catheter Cardiovasc Interv. 2015;Nov 2
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Evolution of Percutaneous Cardiac Support
IABP TandemHeart Impella
Hemopump
90’s 80’s 70’s 00’s
5
Hand-Held ECMO RV impella PHP Procyrion
2010’s
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What do we expect from Percutaneous left ventricular assist
devices?
1.- Mantain cardiac output and thus
reverse cardiogenic shock and improve
renal function.
2.- Unload and decompress the left
ventricle and thus reducing myocardial
oxygen consumption.
3.- Eliminate the need for inotropic
support because it is harmful to the
myocardium.
4.- Reduce pulmonary artery pressure
and alleviate pulmonary congestion.
What should we look for in Ventricular
Assist Devices?
• Fast Percutaneous Insertion
• Efficient Hemodynamic Support
• Few bleeding Complications
• Avoid provoking an embolism
• Not generate limb ischemia
• Scant Hemolysis
VAD. . . Could be considered as
“ Bridge to Recovery” - Potentially reversible Left Ventricular
Dysfunction
“ Bridge-to-Bridge” - Bridge to a Permanent Surgical VAD
“ Bridge to Transplant” - Irreversible LV Dysfunction
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Device Type of Pump Indication Approval Vascular Access
Size
IABP
Pulsatile, pneumatic
Cardiogenic shock AMI complication Weaning from CBP. HR PCI. Complicated HF
FDA 510K
Arterial; femoral or left axillary/subclavian
7 F to 8 F
Impella 2.5 Continuous axial flow, Archimedes screw impeller
FDA High-risk intervention Cardiogenic Shock
FDA PMA < 6hrs use EU 5 days CE Mark
Arterial; femoral
Guiding catheter 9F/ Motor size 12 F Introducer size 13F peel away
Impella CP Continuous axial flow, Archimedes screw impeller
Partial circulatory support using an extracorporeal control unit
FDA 510K < 6 hrs use EU 5 days CE Mark
Arterial; femoral
Guiding catheter 9F/ Motor size 14 F Introducer size 14F peel away
Impella 5.0* Continuous axial flow, Archimedes screw impeller
Circulatory support using an extracorporeal control unit
FDA 510K < 6 hrs use EU 11 days CE Mark
Arterial; femoral or axillary*
Guiding catheter 9F/ Motor size 21 F Dacron graft 10 mm recommended
TandemHeart Continuous flow, centrifugal
Cardiogenic shock, cleared for use with an oxygenator
FDA 510 K < 6 hrs use
Arterial and venous; femoral
21 F inflow (venous) 15 F or 17 F outflow (arterial)
VA ECMO Continuous flow, centrifugal
Cardiogenic shock with impaired oxygenation
< 6 hrs use Arterial and venous; femoral
18 F to 30 F inflow (venous) 15 F to 23 F outflow (arterial)
Device types and sizes
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Augments diastolic pressure to Increase blood flow to the coronary arteries
Decrease left ventricular end diastolic pressure and systolic pressure to improve pumping efficiency and improve cardiac output
PRIMARY GOAL OF IABP THERAPY
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Thielle et al. Lancet 2013; 382: 1638–45
Intra-aortic balloon counterpulsation in
acute myocardial infarction complicated by
cardiogenic shock (IABP-SHOCK II)
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The Current Use of Impella 2.5 in Acute Myocardial Infarction Complicated by Cardiogenic Shock: Results from the USpella Registry
Journal of Interventional Cardiology Volume 27, Issue 1, pages 1-11, 13 DEC 2013 DOI: 10.1111/joic.12080 http://onlinelibrary.wiley.com/doi/10.1111/joic.12080/full#joic12080-fig-0001
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Journal of Interventional Cardiology Volume 27, Issue 1, pages 1-11, 13 DEC 2013 DOI: 10.1111/joic.12080 http://onlinelibrary.wiley.com/doi/10.1111/joic.12080/full#joic12080-fig-0003
T H E C U R R E N T U S E O F I M P E L L A 2 . 5 I N A C U T E M YO C A R D I A L I N FA RC T I O N C O M P L I C AT E D B Y C A R D I O G E N I C S H O C K : R E S U LT S F R O M T H E U S P E L L A R E G I S T R Y
Door To Unloading With IMPELLA CP System
in Acute Myocardial Infarction (DTU)
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100,000 patients who suffer
cardiogenic shock in the U.S. each year
FDA approved for Cardiogenic Shock
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13
Best views:
Long axis
transesophag
eal
echocardiogra
m (TEE)
Parasternal
long axis
transthoracic
echocardiogra
m (TTE
Correctly positioned Impella CP (TEE)
Correctly positioned Impella CP
(TTE)
Impella CP in papillary muscle (TTE)
Impella CP in papillary muscle (TEE)
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Intermacs I-II Cardiogenic Shock Refractory HF
Impella 3.5 CP Impella
2.5
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Helicopter transport with the Cardiohelp system.
Alois Philipp et al. Interact CardioVasc Thorac Surg
2011;12:978-981
Published by European Association for Cardio-Thoracic Surgery. All rights reserved.
Cardiohelp
circuit.
Cardiohelp circuit.
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+
ECMO + Impella ECMO IABP
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Meta-analysis of inhospital mortality between extracorporeal membrane oxygenation plus IABP vs IABP or extracorporeal membrane
oxygenation alone
World J Cardiol. Jan 26, 2016; 8(1): 98-111
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TandemHeart • Removes Oxygenated Blood
from the left atrium via trans-
septal canula inserted through
femoral vein
External centrifugal pump
aspirated blood out of the body
returns blood through right
femoral artery
• Unloads indirectly the left
ventricle
• Provides continuous flow to
the systemic circulation.
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Hemodynamics and Biochemical values in all Patients
Percutaneous VAD in Severe
Cardiogenic Shock
Kar et al. JACC Vol. 57, No. 6, 2011 February 8, 2011:688–96
Pre-pVAD With pVAD P Value
Cardiac index (L/[min⋅m2]) 0.52 3.0 <.001
Mean Arterial Pressure 45 81 <.001
Heart rate (beats/min) 105 85.7 <.001
PCWP (mmHg) 32 17 <.001
Pulm.Arterial Pressure 39 26 <.001
Lactic acid (mg/dL) 24.5 11 <.001
pH 7.22 7.44 <.001
Creatinine (mg/dL) 1.5 1.2 0.009
Urine output (mL/day) 70.3 1200 <.001
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Meta-analysis of randomized trials percutaneous left
ventricular assist devices (LVAD) versus the intra-aortic
balloon pump (IABP)
Reyentovich, Hochman et al. Nature Reviews Cardiology 13, 481–492 (2016)
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Direct right ventricular (RV) bypass systems.
Navin K. Kapur et al. Circulation. 2017;136:314-326
Indirect right ventricular (RV) bypass systems.
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Percutaneous biventricular acute mechanical circulatory support device configurations.
Navin K. Kapur et al. Circulation. 2017;136:314-326
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PHP Percutaneous Assist Device
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Current application of short-term mechanical circulatory
support and possible timing towards durable LVAD. Bridge
to recovery in case of de novo heart failure or in acute on
chronic heart failure when a clear cause for exacerbation
exists
C.A. den Uil et al. / European Journal of Cardio-Thoracic Surgery 2017
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A Team-Based Approach to Patients
in Cardiogenic Shock
Doll JA et al. Catheterization and Cardiovascular Interventions 88:424–433 (2016)
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Procyrion Aortix Heart Failure Pump
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UCA-Duke