Active vascular contraction significantly reduced the outer diameters of the coronary intima-media layer compared to the passive state (3.17 vs 3.62 mm at 1.2 axial stretch; P < 0.05).
A two-layer mechanical model of the coronary artery reveals that the intima-media layer bears the majority of circumferential tension and that the adventitia layer significantly influences vascular contraction.
Absolute Event Rate: 3.17% vs 3.62%
p-value: p=< 0.05
Since vascular tone is regulated by smooth muscle cells in the media layer, a multilayer mechanical model is required for blood vessels. Here, we performed biaxial mechanical tests in the intima-media layer of right coronary artery to determine the passive and active properties in conjunction with the passive properties of adventitia for a full vessel wall model. A two-layer (intima-media and adventitia) model was developed to determine the transmural stress and stretch across the vessel wall. The mean ± SE values of the outer diameters of intima-media layers at transmural pressure of 60 mmHg in active state were 3.17 ± 0.16 and 3.07 ± 0.18 mm at axial stretch ratio of 1.2 and 1.3, respectively, which were significantly smaller than those in passive state (i.e., 3.62 ± 0.19 and 3.49 ± 0.22 mm, respectively, P 25%) in the intima-media layer compared with those in the intact vessel. This suggests that the adventitia layer affects vascular contraction. The two-layer analysis showed that the intima-media layer bears the majority of circumferential tensions, in contrast to the adventitia layer, while contraction results in decreased stress and stretch in both layers.
Huo et al. (Fri,) berichteten über einen anderen. Aktiver Zustand (Gefäßkontraktion) vs. passiver Zustand wurde an Außendurchmessern der Intima-Media-Schichten bei einem transmuralen Druck von 60 mmHg und einem axialen Dehnungsverhältnis von 1,2 (p=< 0,05) bewertet. Die aktive Gefäßkontraktion verringerte signifikant die Außendurchmesser der koronaren Intima-Media-Schicht im Vergleich zum passiven Zustand (3,17 vs. 3,62 mm bei 1,2 axialer Dehnung; P < 0,05).
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