I-Lin Ho scite author profile

The distribution of ECM proteins within the walls of resistance vessels is complex both in variety of proteins and structural arrangement. In particular, elastin exists as discrete fibers varying in orientation across the adventitia and media as well as often resembling a sheet-like structure in the case of the IEL. Adding to the complexity is the tissue heterogeneity that exists in these structural arrangements. For example, small intracranial cerebral arteries lack adventitial elastin while similar sized arteries from skeletal muscle and intestinal mesentery exhibit a complex adventitial network of elastin fibers. With regard to the IEL, several vascular beds exhibit an elastin sheet with punctate holes/fenestrae while in others the IEL is discontinuous and fibrous in appearance. Importantly, these structural patterns likely sub-serve specific functional properties, including mechanosensing, control of external forces, mechanical properties of the vascular wall, cellular positioning, and communication between cells. Of further significance, these processes are altered in vascular disorders such as hypertension and diabetes mellitus where there is modification of ECM. This brief report focuses on the three-dimensional wall structure of small arteries and considers possible implications with regard to mechanosensing under physiological and pathophysiological conditions.

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A simple closed-form approximation for the cumulative distribution function of the composite error of stochastic frontier models

Tsay

Huang

et al. 2012

J Prod Anal

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Coupled-wave theory for birefringent photonic quasicrystal structures

Lee

Chang

2012

J. Opt. Soc. Am. B

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I-Lin Ho

A detailed derivation of rigorous coupled wave algorithms for three-dimensional periodic liquid-crystal microstructures

Small Artery Elastin Distribution and Architecture—Focus on Three Dimensional Organization

A simple closed-form approximation for the cumulative distribution function of the composite error of stochastic frontier models

Coupled-wave theory for birefringent photonic quasicrystal structures

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