Elastic properties of normal breast tissues using an indentation protocol - preliminary stud
Ana Margarida Teixeira, António André, Rossana Correia, Maria da Luz Barroso, Horácio Costa, and Pedro Martins. Elastic properties of normal breast tissues using an indentation protocol - preliminary study. In Computer Methods, Imaging and Visualization in Biomechanics and Biomedical Engineering II, pages 281–289. Springer International Publishing, jul 2022a. doi: 10.1007/978-3-031-10015-4_24
The mechanical properties of breast tissues are important for medical diagnose since the stiffness changes with a pathology. The mechanical behavior of breast tissues has been investigated, however the results in literature are not coherent.s The experimental protocols are not standardized and the need of preconditioning is still debatable, which might be one of the reasons for the variety of results. Thus, this study aims to evaluate the elastic properties of normal breast tissues, considering the effect of preconditioning. Indentation tests were performed and hysteresis was observed. The Young’s modulus ranged from 3.2±0.4 kPa to 8.8±1.1 kPa and from 43.0±5.2 kPa to 117.6±14.2 kPa in the first and second linear regions, respectively. Moreover, the preconditioning increased the stiffness on the first linear region. Despite being a preliminary study, important considerations about the experimental protocol were obtained.
The mechanical properties of breast tissues are important for medical diagnose since the stiffness changes with a pathology. The mechanical behavior of breast tissues has been investigated, however the results in literature are not coherent.s The experimental protocols are not standardized and the need of preconditioning is still debatable, which might be one of the reasons for the variety of results. Thus, this study aims to evaluate the elastic properties of normal breast tissues, considering the effect of preconditioning. Indentation tests were performed and hysteresis was observed. The Young’s modulus ranged from 3.2±0.4 kPa to 8.8±1.1 kPa and from 43.0±5.2 kPa to 117.6±14.2 kPa in the first and second linear regions, respectively. Moreover, the preconditioning increased the stiffness on the first linear region. Despite being a preliminary study, important considerations about the experimental protocol were obtained.