Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 2 of 2
Full-Text Articles in Mechanical Engineering
Numerical Design Of Steerable Guidewires, Onkar Prakash Salunkhe
Numerical Design Of Steerable Guidewires, Onkar Prakash Salunkhe
Dissertations, Master's Theses and Master's Reports
Biomedical devices are an integral part of the medical industry nowadays. With the increase in cases of heart disease, catheterization procedures are becoming more frequent. Small-scale actuators are needed for the guidance of small-scale catheters and guidewires to remote targets in the human body. Numerical modelling is needed to guide the experiments in developing such steerable devices and to optimize their design. Here, we designed small-scale steerable guidewires by first developing bending actuators and then assembling them with guidewires. The actuators use materials with strain response to electric potential in a very low voltage range that is not harmful to …
Finite Element Modeling Of Active And Passive Behavior Of The Human Tibialis Anterior: A Preliminary Approach, David Joda
Dissertations, Master's Theses and Master's Reports
This research project serves as exploratory work in the field of computational human biomechanics. A connection between muscular force and intramuscular pressure (IMP) has been uncovered that could prove invaluable in medical diagnostics as a method to circumvent the use of electromyography.
Preliminary finite element simulations were conducted to model the human tibialis anterior muscle in passive lengthening and active contraction. These simulations, totaling over 50 unique runs, utilized a novel constitutive model developed within the IMP research group. Volumetric strain, reaction forces, and pressure gradients were compared to data acquired from ongoing in vivo human experiments. A mechanism for …