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Article Dans Une Revue Mechanisms of Ageing and Development Année : 2021

Evolving structure-function relations during aortic maturation and aging revealed by multiphoton microscopy

Résumé

The evolving microstructure and mechanical properties that promote homeostasis in the aorta are fundamental to age-specific adaptations and disease progression. We combine ex vivo multiphoton microscopy and biaxial biomechanical phenotyping to quantify and correlate layer-specific microstructural parameters, for the primary extracellular matrix components (fibrillar collagen and elastic lamellae) and cells (endothelial, smooth muscle, and adventitial), with mechanical properties of the mouse aorta from weaning through natural aging up to one year. The aging endothelium was characterized by progressive reductions in cell density and altered cellular orientation. The media similarly showed a progressive decrease in smooth muscle cell density and alignment though with inter-lamellar widening from intermediate to older ages, suggesting cell hypertrophy, matrix accumulation, or both. Despite not changing in tissue thickness, the aging adventitia exhibited a marked thickening and straightening of collagen fiber bundles and reduction in cell density, suggestive of age-related remodeling not growth. Multiple microstructural changes correlated with age-related increases in circumferential and axial material stiffness, among other mechanical metrics. Because of the importance of aging as a risk factor for cardiovascular diseases, understanding the normal progression of structural and functional changes is essential when evaluating superimposed disease-related changes as a function of the age of onset.

Dates et versions

hal-03977700 , version 1 (07-02-2023)

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Cristina Cavinato, Sae-Il Murtada, Alexia Rojas, Jay Humphrey. Evolving structure-function relations during aortic maturation and aging revealed by multiphoton microscopy. Mechanisms of Ageing and Development, 2021, 196, pp.111471. ⟨10.1016/j.mad.2021.111471⟩. ⟨hal-03977700⟩
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