Dynamic aortomyoplasty to assist left ventricular failure

The efficacy of skeletal muscle contractile force to augment left ventricular function has been demonstrated experimentally and clinically by the cardiomyoplasty procedure. Another approach in biomechanical cardiac assistance is the use of electrostimulated skeletal muscle in an extracardiac positio...

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Veröffentlicht in:	The Annals of thoracic surgery 1990-02, Vol.49 (2), p.225-230
Hauptverfasser:	Chachques, Juan C., Grandjean, Pierre A., Fischer, E.I.Cabrera, Latremouille, Christian, Jebara, Victor A., Bourgeois, Ivan, Carpentier, Alain
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Aorta - surgery Assisted Circulation - methods Biological and medical sciences Blood Pressure Cardiac Output, Low - surgery Counterpulsation - methods Goats Hemodynamics Medical sciences Muscles - transplantation Myocardial Contraction Pericardium - transplantation Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases Surgical Flaps Vascular surgery: aorta, extremities, vena cava. Surgery of the lymphatic vessels
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container_title	The Annals of thoracic surgery
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creator	Chachques, Juan C. Grandjean, Pierre A. Fischer, E.I.Cabrera Latremouille, Christian Jebara, Victor A. Bourgeois, Ivan Carpentier, Alain
description	The efficacy of skeletal muscle contractile force to augment left ventricular function has been demonstrated experimentally and clinically by the cardiomyoplasty procedure. Another approach in biomechanical cardiac assistance is the use of electrostimulated skeletal muscle in an extracardiac position. We describe an autologous counterpulsating device using the native ascending aorta as a ventricular chamber wrapped by an electrostimulated latissimus dorsi muscle flap (LDMF). This model avoids thrombotic complications observed in skeletal muscle neo-ventricles associated with prosthetic chambers. In 8 goats, a right LDMF was transferred to the thoracic cavity by removal of the second rib. In 4 goats, the diameter of the aorta was enlarged by surgical implantation (using lateral clamping) of an autologous pericardial patch. The LDMF was wrapped around the ascending aorta and electrostimulated using an external diastolic pulse generator connected to a sensing myocardial lead and to LDMF pacing electrodes. Hemodynamic studies were performed (left ventricular, aortic, and pulmonary artery pressures and rate of rise of left ventricular pressure). The LDMF diastolic counterpulsation was performed using a burst of 30 Hz, with a delay from the R wave adjusted to provide optimal diastolic augmentation. Percent increase in the subendocardial viability index was calculated during unassisted and assisted cardiac cycles (1:2) at baseline and after acute heart failure induced by the administration of high doses of propranolol hydrochloride (3 mg/kg intravenously). Diastolic aortic counterpulsation by the stimulated LDMF resulted in a significant improvement in the subendocardial viability index both at baseline and after induced cardiac failure in both groups, though the increase was greater in the group with aortic enlargement.
doi_str_mv	10.1016/0003-4975(90)90143-T
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Another approach in biomechanical cardiac assistance is the use of electrostimulated skeletal muscle in an extracardiac position. We describe an autologous counterpulsating device using the native ascending aorta as a ventricular chamber wrapped by an electrostimulated latissimus dorsi muscle flap (LDMF). This model avoids thrombotic complications observed in skeletal muscle neo-ventricles associated with prosthetic chambers. In 8 goats, a right LDMF was transferred to the thoracic cavity by removal of the second rib. In 4 goats, the diameter of the aorta was enlarged by surgical implantation (using lateral clamping) of an autologous pericardial patch. The LDMF was wrapped around the ascending aorta and electrostimulated using an external diastolic pulse generator connected to a sensing myocardial lead and to LDMF pacing electrodes. Hemodynamic studies were performed (left ventricular, aortic, and pulmonary artery pressures and rate of rise of left ventricular pressure). The LDMF diastolic counterpulsation was performed using a burst of 30 Hz, with a delay from the R wave adjusted to provide optimal diastolic augmentation. Percent increase in the subendocardial viability index was calculated during unassisted and assisted cardiac cycles (1:2) at baseline and after acute heart failure induced by the administration of high doses of propranolol hydrochloride (3 mg/kg intravenously). 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Another approach in biomechanical cardiac assistance is the use of electrostimulated skeletal muscle in an extracardiac position. We describe an autologous counterpulsating device using the native ascending aorta as a ventricular chamber wrapped by an electrostimulated latissimus dorsi muscle flap (LDMF). This model avoids thrombotic complications observed in skeletal muscle neo-ventricles associated with prosthetic chambers. In 8 goats, a right LDMF was transferred to the thoracic cavity by removal of the second rib. In 4 goats, the diameter of the aorta was enlarged by surgical implantation (using lateral clamping) of an autologous pericardial patch. The LDMF was wrapped around the ascending aorta and electrostimulated using an external diastolic pulse generator connected to a sensing myocardial lead and to LDMF pacing electrodes. Hemodynamic studies were performed (left ventricular, aortic, and pulmonary artery pressures and rate of rise of left ventricular pressure). The LDMF diastolic counterpulsation was performed using a burst of 30 Hz, with a delay from the R wave adjusted to provide optimal diastolic augmentation. Percent increase in the subendocardial viability index was calculated during unassisted and assisted cardiac cycles (1:2) at baseline and after acute heart failure induced by the administration of high doses of propranolol hydrochloride (3 mg/kg intravenously). Diastolic aortic counterpulsation by the stimulated LDMF resulted in a significant improvement in the subendocardial viability index both at baseline and after induced cardiac failure in both groups, though the increase was greater in the group with aortic enlargement.</description><subject>Animals</subject><subject>Aorta - surgery</subject><subject>Assisted Circulation - methods</subject><subject>Biological and medical sciences</subject><subject>Blood Pressure</subject><subject>Cardiac Output, Low - surgery</subject><subject>Counterpulsation - methods</subject><subject>Goats</subject><subject>Hemodynamics</subject><subject>Medical sciences</subject><subject>Muscles - transplantation</subject><subject>Myocardial Contraction</subject><subject>Pericardium - transplantation</subject><subject>Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases</subject><subject>Surgical Flaps</subject><subject>Vascular surgery: aorta, extremities, vena cava. 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Transplantations, organ and tissue grafts. Graft diseases</topic><topic>Surgical Flaps</topic><topic>Vascular surgery: aorta, extremities, vena cava. 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subjects	Animals Aorta - surgery Assisted Circulation - methods Biological and medical sciences Blood Pressure Cardiac Output, Low - surgery Counterpulsation - methods Goats Hemodynamics Medical sciences Muscles - transplantation Myocardial Contraction Pericardium - transplantation Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases Surgical Flaps Vascular surgery: aorta, extremities, vena cava. Surgery of the lymphatic vessels
title	Dynamic aortomyoplasty to assist left ventricular failure
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