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. 2025 Feb 1;147(2):021004.
doi: 10.1115/1.4067152.

Effect of Collagen Fiber Tortuosity Distribution on the Mechanical Response of Arterial Tissues

Yamnesh Agrawal  1 Ronald N Fortunato  1 Alireza Asadbeygi  1 Michael R Hill  1 Anne M Robertson  2 Spandan Maiti  3
Affiliations

Effect of Collagen Fiber Tortuosity Distribution on the Mechanical Response of Arterial Tissues

Yamnesh Agrawal et al. J Biomech Eng. .

Abstract

This study investigated the effect of collagen fiber tortuosity distribution on the biomechanical failure and prefailure properties of arterial wall tissue. An in-silico model of the arterial wall was developed using data obtained from combined multiphoton microscopy imaging and uni-axial tensile testing. Layer-dependent properties were prescribed for collagen, elastin, and ground substance. Collagen fibers were modeled as discrete anisotropic elements, while elastin and ground substance were modeled as homogeneous isotropic components. Our parametric analysis, using a finite element approach, revealed that different parameters of collagen fibers tortuosity distribution significantly influence both prefailure and failure biomechanical properties. Increased fiber tortuosity improved the tissue strength whereas the dispersion in the tortuosity distribution reduced it. This study provides novel insights into the structural-mechanical interdependencies in arterial walls, offering potential targets for clinical assessments and therapeutic interventions aimed at mitigating rupture risks.

Keywords: collagen fiber; fiber failure; fiber tortuosity distribution; finite element analysis; multiphoton microscopy; tissue failure.

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References

    1. Hutson, H. N., Marohl, T., Anderson, M., Eliceiri, K., Campagnola, P., and Masters, K. S., 2016, “Calcific Aortic Valve Disease Is Associated With Layer-Specific Alterations in Collagen Architecture,” PLoS One, 11(9), p. e0163858.10.1371/journal.pone.0163858 - DOI - PMC - PubMed
    1. Panwar, P., Butler, G. S., Jamroz, A., Azizi, P., Overall, C. M., and Brömme, D., 2018, “Aging-Associated Modifications of Collagen Affect Its Degradation by Matrix Metalloproteinases,” Matrix Biol., 65, pp. 30–44.10.1016/j.matbio.2017.06.004 - DOI - PubMed
    1. Omens, J. H., Miller, T. R., and Covell, J. W., 1997, “Relationship Between Passive Tissue Strain and Collagen Uncoiling During Healing of Infarcted Myocardium,” Cardiovasc. Res., 33(2), pp. 351–358.10.1016/S0008-6363(96)00206-4 - DOI - PubMed
    1. Monson, K. L., Converse, M. I., and Manley, G. T., 2019, “Cerebral Blood Vessel Damage in Traumatic Brain Injury,” Clin. Biomech., 64, pp. 98–113.10.1016/j.clinbiomech.2018.02.011 - DOI - PubMed
    1. Signorelli, F., Sela, S., Gesualdo, L., Chevrel, S., Tollet, F., Pailler-Mattei, C., Tacconi, L., Turjman, F., Vacca, A., and Schul, D. B., 2018, “Hemodynamic Stress, Inflammation, and Intracranial Aneurysm Development and Rupture: A Systematic Review,” World Neurosurg., 115, pp. 234–244.10.1016/j.wneu.2018.04.143 - DOI - PubMed

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