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Viscoelastic Characterization of Parasagittal Bridging Veins and Implications for Traumatic Brain Injury: A Pilot Study

Silvia García‐Vilana, David Sánchez‐Molina, Jordi Llumà, Ignasi Galtés, Juan Velázquez-Ameijide, M. Carmen Rebollo-Soria, Carlos Arregui‐Dalmases

2021Bioengineering14 citationsDOIOpen Access PDF

Abstract

Many previous studies on the mechanical properties of Parasagittal Bridging Veins (PSBVs) found that strain rate had a significant effect on some mechanical properties, but did not extensively study the viscoelastic effects, which are difficult to detect with uniaxial simple tensile tests. In this study, relaxation tests and tests under cyclic loading were performed, and it was found that PSBVs do indeed exhibit clear viscoelastic effects. In addition, a complete viscoelastic model for the PSBVs is proposed and data from relaxation, cyclic load and load-unload tests for triangular loads are used to find reference values that characterize the viscoelastic behavior of the PSBVs. Although such models have been proposed for other types of blood vessels, this is the first study that clearly demonstrates the existence of viscoelastic effects from an experimental point of view and also proposes a specific model to explain the data obtained. Finally, this study provides reference values for the usual viscoelastic properties, which would allow more accurate numerical simulation of PSBVs by means of computational models.

Topics & Concepts

ViscoelasticityBridging (networking)Materials scienceUniaxial tensionRelaxation (psychology)Structural engineeringUltimate tensile strengthMechanicsComputer scienceComposite materialPhysicsEngineeringMedicineComputer networkInternal medicineAutomotive and Human Injury BiomechanicsTraumatic Brain Injury and Neurovascular DisturbancesElasticity and Material Modeling