Biomechanical analysis for the epidural needle insertion

Author

Furuya, Keiichi ; Naemura, K. ; Nagai, Kanto ; Okubo, N. ; Saito, Hiroshi

Author_Institution

Mech. & Syst. Eng. Dept., Gifu Univ., Gifu, Japan

fYear

2013

fDate

3-7 July 2013

Firstpage

6699

Lastpage

6702

Abstract

In order to test the hypothesis about reduction in the deformation of the ligamentum flavum due to tension inside the ligamentum flavum, nonlinear finite element (FE) analysis was employed. As a preliminary analysis of natural tissue, nonlinear FE analysis was applied to a rubber plate. Assuming that the rubber is third-order Mooney-Rivlin model, the analysis and the experimental curves overlap with each other until pierced point. The maximum major strain calculated by FE analysis was feasible to predict pierced point. To apply nonlinear FE analysis for the porcine ligamentum flavum, the Mooney-Rivlin coefficient of the porcine ligamentum flavum was identified from the tensile test data. Assuming that the sharp bar pierced the ligamentum flavum when the maximum major strain reached a constant value, the required displacement became shorter by 1.0mm by applying the initial tension.

Keywords

biomechanics; bone; deformation; finite element analysis; needles; plates (structures); biomechanical analysis; epidural needle insertion; ligamentum flavum deformation reduction; natural tissue; nonlinear finite element analysis; porcine ligamentum flavum; rubber plate; third order Mooney-Rivlin model; Analytical models; Finite element analysis; Force; Iron; Needles; Rubber; Strain; Ligamentum flavum; Maximum major strain; Mooney-Rivlin model; Nonlinear finite element analysis; Animals; Finite Element Analysis; Injections, Epidural; Ligamentum Flavum; Needles; Swine;

fLanguage

English

Publisher

ieee

Conference_Titel

Engineering in Medicine and Biology Society (EMBC), 2013 35th Annual International Conference of the IEEE

Conference_Location

Osaka

ISSN

1557-170X

Type

conf

DOI

10.1109/EMBC.2013.6611093

Filename

6611093