Haemodynamic implications of VA-ECMO vs. VA-ECMO plus Impella CP for cardiogenic shock in a large animal model

Peter H. Frederiksen; Louise Linde; Emilie Gregers; Nanna L.J. Udesen; Ole K. Helgestad; Ann Banke; Jordi S. Dahl; Lisette O. Jensen; Jens F. Lassen; Amalie L. Povlsen; Jeppe P. Larsen; Henrik Schmidt; Hanne B. Ravn; Jacob E. Møller

doi:10.1002/ehf2.14780

Haemodynamic implications of VA-ECMO vs. VA-ECMO plus Impella CP for cardiogenic shock in a large animal model

Peter H. Frederiksen^*, Louise Linde, Emilie Gregers, Nanna L.J. Udesen, Ole K. Helgestad, Ann Banke, Jordi S. Dahl, Lisette O. Jensen, Jens F. Lassen, Amalie L. Povlsen, Jeppe P. Larsen, Henrik Schmidt, Hanne B. Ravn, Jacob E. Møller

^*Corresponding author for this work

Rigshospitalet

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

AIMS: Veno-arterial extracorporeal membrane oxygenation (VA-ECMO) with profound left ventricular (LV) failure is associated with inadequate LV emptying. To unload the LV, VA-ECMO can be combined with Impella CP (ECMELLA). We hypothesized that ECMELLA improves cardiac energetics compared with VA-ECMO in a porcine model of cardiogenic shock (CS).

METHODS AND RESULTS: Land-race pigs (weight 70 kg) were instrumented, including a LV conductance catheter and a carotid artery Doppler flow probe. CS was induced with embolization in the left main coronary artery. CS was defined as reduction of ≥50% in cardiac output or mixed oxygen saturation (SvO 2) or a SvO 2 < 30%. At CS VA-ECMO was initiated and embolization was continued until arterial pulse pressure was <10 mmHg. At this point, Impella CP was placed in the ECMELLA arm. Support was maintained for 4 h. CS was induced in 15 pigs (VA-ECMO n = 7, ECMELLA n = 8). At time of CS MAP was <45 mmHg in both groups, with no difference at 4 h (VA-ECMO 64 mmHg ± 11 vs. ECMELLA 55 mmHg ± 21, P = 0.08). Carotid blood flow and arterial lactate increased from CS and was similar in VA-ECMO and ECMELLA [239 mL/min ± 97 vs. 213 mL/min ± 133 (P = 0.6) and 5.2 ± 3.3 vs. 4.2 ± 2.9 mmol/ (P = 0.5)]. Pressure-volume area (PVA) was significantly higher with VA-ECMO compared with ECMELLA (9567 ± 1733 vs. 6921 ± 5036 mmHg × mL/min × 10 -3, P = 0.014). Total diureses was found to be lower in VA-ECMO compared with ECMELLA [248 mL (179-930) vs. 506 mL (418-2190); P = 0.005].

CONCLUSIONS: In a porcine model of CS, we found lower PVA, with the ECMELLA configuration compared with VA-ECMO, indicating better cardiac energetics without compromising systemic perfusion.

Original language	English
Journal	ESC Heart Failure
Volume	11
Issue number	4
Pages (from-to)	2305-2313
ISSN	2055-5822
DOIs	https://doi.org/10.1002/ehf2.14780
Publication status	Published - Aug 2024

Keywords

Cardiogenic shock
ECMELLA
Impella
Pressure-volume loops
VA-ECMO
Extracorporeal Membrane Oxygenation/methods
Animals
Swine
Shock, Cardiogenic/therapy
Hemodynamics/physiology
Heart-Assist Devices
Disease Models, Animal

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Frederiksen, P. H., Linde, L., Gregers, E., Udesen, N. L. J., Helgestad, O. K., Banke, A., Dahl, J. S., Jensen, L. O., Lassen, J. F., Povlsen, A. L., Larsen, J. P., Schmidt, H., Ravn, H. B., & Møller, J. E. (2024). Haemodynamic implications of VA-ECMO vs. VA-ECMO plus Impella CP for cardiogenic shock in a large animal model. ESC Heart Failure, 11(4), 2305-2313. https://doi.org/10.1002/ehf2.14780

@article{9ec5f08b0cef46ddb3ada784ad27067f,

title = "Haemodynamic implications of VA-ECMO vs. VA-ECMO plus Impella CP for cardiogenic shock in a large animal model",

abstract = "AIMS: Veno-arterial extracorporeal membrane oxygenation (VA-ECMO) with profound left ventricular (LV) failure is associated with inadequate LV emptying. To unload the LV, VA-ECMO can be combined with Impella CP (ECMELLA). We hypothesized that ECMELLA improves cardiac energetics compared with VA-ECMO in a porcine model of cardiogenic shock (CS).METHODS AND RESULTS: Land-race pigs (weight 70 kg) were instrumented, including a LV conductance catheter and a carotid artery Doppler flow probe. CS was induced with embolization in the left main coronary artery. CS was defined as reduction of ≥50% in cardiac output or mixed oxygen saturation (SvO 2) or a SvO 2 < 30%. At CS VA-ECMO was initiated and embolization was continued until arterial pulse pressure was <10 mmHg. At this point, Impella CP was placed in the ECMELLA arm. Support was maintained for 4 h. CS was induced in 15 pigs (VA-ECMO n = 7, ECMELLA n = 8). At time of CS MAP was <45 mmHg in both groups, with no difference at 4 h (VA-ECMO 64 mmHg ± 11 vs. ECMELLA 55 mmHg ± 21, P = 0.08). Carotid blood flow and arterial lactate increased from CS and was similar in VA-ECMO and ECMELLA [239 mL/min ± 97 vs. 213 mL/min ± 133 (P = 0.6) and 5.2 ± 3.3 vs. 4.2 ± 2.9 mmol/ (P = 0.5)]. Pressure-volume area (PVA) was significantly higher with VA-ECMO compared with ECMELLA (9567 ± 1733 vs. 6921 ± 5036 mmHg × mL/min × 10 -3, P = 0.014). Total diureses was found to be lower in VA-ECMO compared with ECMELLA [248 mL (179-930) vs. 506 mL (418-2190); P = 0.005]. CONCLUSIONS: In a porcine model of CS, we found lower PVA, with the ECMELLA configuration compared with VA-ECMO, indicating better cardiac energetics without compromising systemic perfusion.",

keywords = "Cardiogenic shock, ECMELLA, Impella, Pressure-volume loops, VA-ECMO, Extracorporeal Membrane Oxygenation/methods, Animals, Swine, Shock, Cardiogenic/therapy, Hemodynamics/physiology, Heart-Assist Devices, Disease Models, Animal",

author = "Frederiksen, {Peter H.} and Louise Linde and Emilie Gregers and Udesen, {Nanna L.J.} and Helgestad, {Ole K.} and Ann Banke and Dahl, {Jordi S.} and Jensen, {Lisette O.} and Lassen, {Jens F.} and Povlsen, {Amalie L.} and Larsen, {Jeppe P.} and Henrik Schmidt and Ravn, {Hanne B.} and M{\o}ller, {Jacob E.}",

year = "2024",

month = aug,

doi = "10.1002/ehf2.14780",

language = "English",

volume = "11",

pages = "2305--2313",

journal = "ESC Heart Failure",

issn = "2055-5822",

publisher = "Wiley",

number = "4",

}

Frederiksen, PH, Linde, L, Gregers, E, Udesen, NLJ, Helgestad, OK, Banke, A , Dahl, JS , Jensen, LO , Lassen, JF, Povlsen, AL, Larsen, JP, Schmidt, H , Ravn, HB & Møller, JE 2024, 'Haemodynamic implications of VA-ECMO vs. VA-ECMO plus Impella CP for cardiogenic shock in a large animal model', ESC Heart Failure, vol. 11, no. 4, pp. 2305-2313. https://doi.org/10.1002/ehf2.14780

TY - JOUR

T1 - Haemodynamic implications of VA-ECMO vs. VA-ECMO plus Impella CP for cardiogenic shock in a large animal model

AU - Frederiksen, Peter H.

AU - Linde, Louise

AU - Gregers, Emilie

AU - Udesen, Nanna L.J.

AU - Helgestad, Ole K.

AU - Banke, Ann

AU - Dahl, Jordi S.

AU - Jensen, Lisette O.

AU - Lassen, Jens F.

AU - Povlsen, Amalie L.

AU - Larsen, Jeppe P.

AU - Schmidt, Henrik

AU - Ravn, Hanne B.

AU - Møller, Jacob E.

PY - 2024/8

Y1 - 2024/8

N2 - AIMS: Veno-arterial extracorporeal membrane oxygenation (VA-ECMO) with profound left ventricular (LV) failure is associated with inadequate LV emptying. To unload the LV, VA-ECMO can be combined with Impella CP (ECMELLA). We hypothesized that ECMELLA improves cardiac energetics compared with VA-ECMO in a porcine model of cardiogenic shock (CS).METHODS AND RESULTS: Land-race pigs (weight 70 kg) were instrumented, including a LV conductance catheter and a carotid artery Doppler flow probe. CS was induced with embolization in the left main coronary artery. CS was defined as reduction of ≥50% in cardiac output or mixed oxygen saturation (SvO 2) or a SvO 2 < 30%. At CS VA-ECMO was initiated and embolization was continued until arterial pulse pressure was <10 mmHg. At this point, Impella CP was placed in the ECMELLA arm. Support was maintained for 4 h. CS was induced in 15 pigs (VA-ECMO n = 7, ECMELLA n = 8). At time of CS MAP was <45 mmHg in both groups, with no difference at 4 h (VA-ECMO 64 mmHg ± 11 vs. ECMELLA 55 mmHg ± 21, P = 0.08). Carotid blood flow and arterial lactate increased from CS and was similar in VA-ECMO and ECMELLA [239 mL/min ± 97 vs. 213 mL/min ± 133 (P = 0.6) and 5.2 ± 3.3 vs. 4.2 ± 2.9 mmol/ (P = 0.5)]. Pressure-volume area (PVA) was significantly higher with VA-ECMO compared with ECMELLA (9567 ± 1733 vs. 6921 ± 5036 mmHg × mL/min × 10 -3, P = 0.014). Total diureses was found to be lower in VA-ECMO compared with ECMELLA [248 mL (179-930) vs. 506 mL (418-2190); P = 0.005]. CONCLUSIONS: In a porcine model of CS, we found lower PVA, with the ECMELLA configuration compared with VA-ECMO, indicating better cardiac energetics without compromising systemic perfusion.

AB - AIMS: Veno-arterial extracorporeal membrane oxygenation (VA-ECMO) with profound left ventricular (LV) failure is associated with inadequate LV emptying. To unload the LV, VA-ECMO can be combined with Impella CP (ECMELLA). We hypothesized that ECMELLA improves cardiac energetics compared with VA-ECMO in a porcine model of cardiogenic shock (CS).METHODS AND RESULTS: Land-race pigs (weight 70 kg) were instrumented, including a LV conductance catheter and a carotid artery Doppler flow probe. CS was induced with embolization in the left main coronary artery. CS was defined as reduction of ≥50% in cardiac output or mixed oxygen saturation (SvO 2) or a SvO 2 < 30%. At CS VA-ECMO was initiated and embolization was continued until arterial pulse pressure was <10 mmHg. At this point, Impella CP was placed in the ECMELLA arm. Support was maintained for 4 h. CS was induced in 15 pigs (VA-ECMO n = 7, ECMELLA n = 8). At time of CS MAP was <45 mmHg in both groups, with no difference at 4 h (VA-ECMO 64 mmHg ± 11 vs. ECMELLA 55 mmHg ± 21, P = 0.08). Carotid blood flow and arterial lactate increased from CS and was similar in VA-ECMO and ECMELLA [239 mL/min ± 97 vs. 213 mL/min ± 133 (P = 0.6) and 5.2 ± 3.3 vs. 4.2 ± 2.9 mmol/ (P = 0.5)]. Pressure-volume area (PVA) was significantly higher with VA-ECMO compared with ECMELLA (9567 ± 1733 vs. 6921 ± 5036 mmHg × mL/min × 10 -3, P = 0.014). Total diureses was found to be lower in VA-ECMO compared with ECMELLA [248 mL (179-930) vs. 506 mL (418-2190); P = 0.005]. CONCLUSIONS: In a porcine model of CS, we found lower PVA, with the ECMELLA configuration compared with VA-ECMO, indicating better cardiac energetics without compromising systemic perfusion.

KW - Cardiogenic shock

KW - ECMELLA

KW - Impella

KW - Pressure-volume loops

KW - VA-ECMO

KW - Extracorporeal Membrane Oxygenation/methods

KW - Animals

KW - Swine

KW - Shock, Cardiogenic/therapy

KW - Hemodynamics/physiology

KW - Heart-Assist Devices

KW - Disease Models, Animal

U2 - 10.1002/ehf2.14780

DO - 10.1002/ehf2.14780

M3 - Journal article

C2 - 38649295

AN - SCOPUS:85191153245

SN - 2055-5822

VL - 11

SP - 2305

EP - 2313

JO - ESC Heart Failure

JF - ESC Heart Failure

IS - 4

ER -

Haemodynamic implications of VA-ECMO vs. VA-ECMO plus Impella CP for cardiogenic shock in a large animal model

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