Consultez les proceedings de la Conference COMSOL 2020
Alternate Glucometer Bio-sensor Model based on Ultrasonic MEMS Transceivers
To prevent further complications in diabetes, proper management of blood glucose levels is essential. By using ultrasonic transceivers (both transmit and receive) the glucose level of human blood can be determined. By using this ultrasonic technique miniaturized sensors for non-invasive ... En savoir plus
Electrohydrodynamic Micropump Modeling for Performance Optimization
We present an optimized and efficient design of an electrohydrodynamic (EHD) micropump for high performance in microscale and biological applications. We are targeting two major applications, a parylene C design for electrically-actuated medicine delivery, and a silicon-based pump design ... En savoir plus
Application of the Focused Impedance Method (FIM) to Determine the Volume of an Object within a Volume Conductor
Focused Impedance Method (FIM), a new technique of electrical impedance measurement having high sensitivity in the central region, can sense the change in transfer impedance of an object embedded at a shallow depth within a volume conductor of unchanging background conductivity, using ... En savoir plus
Simulation of the Electrode-Tissue Interface with Biphasic Pulse Train for Epi-retinal Prosthesis
Retinitis Pigmentosa (RP) and Age-related Macular Degeneration (AMD) are diseases causing blindness in a large number of people. In this type of degenerative disease, mostly the photoreceptors are damaged. Thus attempts have been made to electrically stimulate the surviving inner retinal ... En savoir plus
Electrical Characterization of Biological Cells on Porous Substrate Using COMSOL Multiphysics®
In this paper, the gross electrical characterization of biological cells on porous substrate is analyzed using COMSOL Multiphysics®. Dynamic electrical characterization during cell growth is used as a non-invasive and label-free technique to understand the growth kinetics of cells. It is ... En savoir plus
Computational Analysis on Commercially Available Stent Designs
Cardiovascular disease has become a major healthcare problem. To tackle this along with bypass surgery, the use of the cardiovascular stent is considered promising and effective. In this study, we aim to find the effectiveness of stent deployments and their influence on haemodynamics ... En savoir plus
Computational design and analysis of Microwave Tomography in Intracerebral Hemorrhage
Intracerebral hemorrhage is a condition where a blood vessel in the brain ruptures and causes internal bleeding leading to hemorrhagic stroke. 800 in every 100,000 people suffer from stroke each year and it's one of the major causes of mortality worldwide. Diagnosis involves Neurological ... En savoir plus
Multiphysics Modeling and Analysis of DBS Electrodes: Application to Parkinson’s Disease
Deep Brain Stimulation (DBS) is a surgical technique that involves surgically implanting Platinum electrode to create an electric field to activate the targeted nerve cells and fibers with minimized side effects. Important stimulation parameters to monitor include temperature, electric ... En savoir plus
Shear Stress Analysis in High-Throughput Dual-micropillar-based Microfluidic Platform
We developed the dual-micropillar-based microfluidic platform to control cellular behavior. The 4×4 dual micro-pillar based platform consists of 16 circular-shaped outer micropillars and 8 saddle shaped inner-micropillars. We simulated various shapes of inner micropillars to analyze the ... En savoir plus
A Practical Method to Model Complex Three-Dimensional Geometries with Non-Uniform Material Properties Using Image-based Design and COMSOL Multiphysics®
Geometries with heterogeneous material properties are typically defined as a set of multiple parts, each part representing a different material. However, assembling or defining the individual parts of complex geometries can be difficult. A practical method based on image-based mesh ... En savoir plus