The Feasibility of the DKUH-75 Left Ventricular Assist Device for Acute Cardiogenic Shock in Pigs.
- Author:
Seongsik PARK
1
Author Information
1. Department of Thoracic and Cardiovascular Surgery, College of Medicine, Dankook University, Korea. cardiacs@dku.edu
- Publication Type:Original Article
- Keywords:
Cardiogenic shock;
Heart-assist device;
Hemodynamics
- MeSH:
Animals;
Arterial Pressure;
Biomedical Engineering;
Blood Pressure;
Cardiopulmonary Bypass;
Cooperative Behavior;
Coronary Vessels;
Echocardiography;
Heart Failure;
Heart-Assist Devices*;
Hemodynamics;
Humans;
Ischemic Preconditioning;
Ligation;
Myocardial Infarction;
Shock;
Shock, Cardiogenic*;
Swine*;
Thoracic Surgery
- From:The Korean Journal of Thoracic and Cardiovascular Surgery
2007;40(3):168-179
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
BACKGROUND: The recent trend of an increasing number of patients with acute cardiogenic shock or chronic congestive heart failure following myocardial infarction, as well as the considerable number who can not be weaned from cardiopulmonary bypass after open heart surgery, call for immediate efforts to develop affordable ventricular assist devices that are suitable for the Korean physique. Recently, a pneumatic pulsatile ventricular assist device (VAD), named DKUH-75, has been developed by the Department of Biomedical Engineering, in collaboration with the Department of Thoracic and Cardiovascular Surgery of Dankook University College of Medicine. The feasibility of the DKUH-75 VAD was evaluated on the bases of common hemodynamic variables and echocardiographic measurements in pigs, which are subjected to an acute cardiogenic shock state following myocardial infarction, using a novel coronary artery ligation method employing the ischemic preconditioning concept. MATERIAL AND METHOD: Acute cardiogenic shock was induced in 10 Yorkshire Landrace Duroc strain pigs by ligating the left anterior descending coronary artery via an ischemic preconditioning process. The hemodynamic variables were monitored, with epicardial echocardiographic measurements performed before and one hour after the ligation. The DKUH-75 VAD was implanted into 5 pigs one hour after the onset of the shock. The hemodynamic variables and echocardiographic measurements were taken one hour after installation of the VAD. RESULT: The systolic, diastolic and mean systemic arterial pressures were significantly decreased in all the experimental animals one hour after the ligation. The systolic, diastolic and mean pulmonary arterial pressures were increased (Eds note: this completely contradicts the preceding statement? However, if you mean the non-experimental animals this should be stated?). The left ventricular end diastolic pressure (LVEDP) was increased, but the cardiac index decreased. An increase in the left ventricular end systolic dimension and decreases in the fractional shortening and ejection fraction were observed all animals one hour after the coronary artery ligation. In all 5 of the VAD implanted pigs, the systolic and mean systemic arterial pressures were increased, and the pulmonary arterial pressures decreased one hour after the implantation; the LVEDP decreased, but the cardiac index was significantly increased. In the echocardiographic measurements, the left ventricular end systolic dimension decreased after the implantation of the VAD, but the fractional shortening and ejection fraction significantly increased. CONCLUSION: Significant improvements in the hemodynamic variables and echocardiographic measurements were observed in the 5 VAD implanted animals one hour after installation, which had been subjected to an acute cardiogenic shock state by ligation of the coronary artery, indicating that the DKUH-75 VAD could help in the recovery of the myocardial function. This suggests that the DKUH-75 VAD is feasible in the short term in relation to an acute cardiogenic shock state due to myocardial infarction.
