Developing In Silico Model of Breast Tissue to Assess Biomechanics of Tumor Microenvironment

Hannah Vincent, “Developing In Silico Model of Breast Tissue to Assess Biomechanics of Tumor Microenvironment”  Mentor: Mahsa Dabagh, Biomedical Engineering, Engineering & Applied Science (College of)  Poster #43  The microenvironment endemic to breast tumors is not well understood. Due to…… Read More

Development of Patient Specific Cancer Tumor Models

Nathanael Sovitzky, “Development of Patient Specific Cancer Tumor Models”  Mentor: Mahsa Dabagh, Biomedical Engineering, Engineering & Applied Science (College of)  Poster #45  Breast cancer remains one of the most prevalent and complex malignancies, requiring advanced computational models to better understand…… Read More

Integrating Computational Fluid Dynamics and Machine Learning for Predicting Cerebrovascular Aneurysm Growth

Setayesh Abiazi Shalmani, “Integrating Computational Fluid Dynamics and Machine Learning for Predicting Cerebrovascular Aneurysm Growth” Mentor: Mahsa Dabagh, Biomedical Engineering, Engineering & Applied Science (College of) Poster #64 Cerebrovascular aneurysms pose a severe health risk, as their rupture can lead…… Read More

Validation of Microfluidic Droplet Formation using COMSOL

Ashlyn Terasaki, “Validation of Microfluidic Droplet Formation using COMSOL”  Mentor: Mahsa Dabagh, Biomedical Engineering, Engineering & Applied Science (College of)  Poster #44  Micro-droplet formation in microfluidic devices play a critical role in biomedical and chemical applications. Room temperature ionic liquids…… Read More