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Set up of a cardiovascular simulator: application to the evaluation of the dynamical behavior of atheroma plaques in human arteries

2010; Elsevier BV; Volume: 3; Issue: 1 Linguagem: Inglês

10.1016/j.phpro.2010.01.142

1875-3892

Javier Brum, Daniel Bia, Nicolás Benech, G. Balay, Ricardo L. Armentano, Carlos Negreira,

Cardiovascular Function and Risk Factors

In this work a circulating loop capable of mimicking the physiological pressure and flow conditions inside a vessel is set up. The circulating loop consists of an artificial heart coupled to a perfusion line made of polyethylene and silicon. The artificial heart is driven by a pneumatic pump which provides the desired heart rate, pressure values and length of the systolic and diastolic period of each cycle. To measure the changes in diameter of the segment under study, an ultrasonic probe in pulse eco mode is used. For pressure monitoring a pressure sensor is positioned inside the sample. Pressure-diameter loops were obtained for characterization of the dynamical properties of the arterial wall. In vitro measurements were made on three different conduits: 1) Calibrated tubes made of latex: these phantoms were characterized by the presented method, 2) Non-atherosclerotic human carotid arteries obtained from donors and 3) Atherosclerotic human carotid arteries with atheroma plaques. In the three cases, under physiological simulated conditions, the mechanical properties of the conduit were obtained. We conclude that atheroma plaques were successfully detected and its dynamical properties characterized. This method could be used in the experimental and clinical field to characterize the effects of atheroma plaques on the arterial wall biomechanics.