Research

Computational Fluid Dynamics

Our lab focuses on creating an innovative research facility oriented towards solving complex problems in biomedical engineering utilizing computational fluid dynamics (CFD). CFD provides excellent ways to understand physiological flows, including airflow dynamics, blood flow, aneurysms and fluid-structure-interaction (FSI). Through interdisciplinary collaboration our goal is to develop innovative solutions that enhance treatment procedures and diagnostics, optimize medical device performance and improve patient outcomes.

Biomaterials

Biomaterials integrates the field of engineering, biology and materials science that addresses to solve critical healthcare challenges. Through the means of molecular dynamics and experimental research our work on bio adhesive research aims to develop strong, biocompatible solutions for surgical applications and drug coated ballon focuses targeted drug delivery system for medical interventions.

Computational Medicine

Computational medicine aims to address the healthcare challenges by developing computational disease models, data analysis and experimental validation utilizing patients’ data. These models are used to predict disease progression and design optimal treatment. Our work includes considering medication development methods using simulations and prediction algorithms to improve safety and efficacy while cutting costs and time. Also, in bioinformatics, the use of machine learning and big data to gain understanding of intricate biological systems so that precision medicine can be developed.

Bioheat Transfer

The bioheat transfer field provides a great scope in prevention, diagnosis, treatment disease and studying physiological systems, including heat treatment in tumor cell destruction and patient outcomes. Our research group is working on breast tumor ablation optimization and developing pre-operative tools for best treatment outcomes utilizing computer modeling and simulation based on direct patients’ MRI data of breast cancer.

Medical Device Development

The medical device sector is the point where healthcare meets technology. This area guarantees quick progress in the creation of various life-saving medical gadgets, whether they be therapeutic or diagnostic equipment. Complex healthcare issues can only be solved when state-of-the-art engineering technology is combined with medical industry expertise. Our lab focuses on several compulsory medical device design projects such as portable air disinfection system, biosensors and 3D printed guide for dental implant surgery. We are committed to advancing personalized medicine by creating devices tailored to individual patient needs

Biomechancis

Biomechanics consists of mechanical load’s effect on tissue, muscle and bones. It’s the study of forces and energy in biological components and how to model, analysis and predict the living system’s mechanical behavior. Our lab is dedicated to biomechanics research including gait analysis and biofluid mechanics.