Biomedical Engineering

3D Culture of Patient-Derived Xenograft (PDX) Mammary Organoids

Biomedical Engineering, Cheng, Qingsu, College of Engineering & Applied Science, Heraly, Jessica, Mentor, Poster Presentation, Project, School and College, Student

Jessica Heraly, “3D Culture of Patient-Derived Xenograft (PDX) Mammary Organoids” Mentor: Qingsu Cheng, Biomedical Engineering Poster #72 Three-dimensional (3D) culture models is an emerging technology that is more relevant to study the initiation, progression, and metastasis of breast cancer. 3D…… Read More

An Algorithm to Accurately Differentiate Growing and Stable Cerebrovascular Aneurysms

Biomedical Engineering, College of Engineering & Applied Science, Dabagh, Mahsa, Kim, Pilhwan, Mentor, Poster Presentation, Project, School and College

Pilhwan Kim, “An Algorithm to Accurately Differentiate Growing and Stable Cerebrovascular Aneurysms” Mentor: Mahsa Dabagh, Biomedical Engineering Poster #85 Aneurysm is a medical condition, rather than a disease, and its exact cause is not yet fully understood. It occurs when…… Read More

Design of Drug Loaded Double Layered Microparticles

Biomedical Engineering, College of Engineering & Applied Science, Mentor, Poster Presentation, Premnath, Priyatha, Project, School and College, Slawinski, Marina, Student

Marina Slawinski, “Design of Drug Loaded Double Layered Microparticles” Mentor: Priyatha Premnath, Biomedical Engineering Poster #165 Over 2 million bone fractures occur in the United States each year, with about 900,000 requiring hospitalization or other additional care to recover [1]……. Read More

Developing in Silico Models for Drug Screening

Biomedical Engineering, College of Engineering & Applied Science, Dabagh, Mahsa, Mentor, Poster Presentation, Project, School and College, Sovitzky, Nathanael, Student

Nathanael Sovitzky, “Developing in Silico Models for Drug Screening” Mentor: Mahsa Dabagh, Biomedical Engineering Poster #167 Pancreatic cancer is one of the leading causes of cancer related deaths in the US and worldwide. This is in large part due to…… Read More

Nano-Indentation Based Analysis of Healing Murine Callus

Biomedical Engineering, College of Engineering & Applied Science, McWilliams, Mikayla, Mentor, Poster Presentation, Premnath, Priyatha, Project, School and College

Mikayla McWilliams, “Nano-Indentation Based Analysis of Healing Murine Callus” Mentor: Priyatha Premnath, Biomedical Engineering Poster #103 During the reparative phase of bone healing, a thick mass of callus forms around the bone ends, stemming from the fractured hematoma. The callus…… Read More

Quantifying Hemodynamic Conditions That Facilitate Cancer Cell Deformation

Biomedical Engineering, College of Engineering & Applied Science, Dabagh, Mahsa, Mentor, Poster Presentation, Project, School and College, Student, Terasaki, Ashlyn

Ashlyn Terasaki, “Quantifying Hemodynamic Conditions That Facilitate Cancer Cell Deformation” Mentor: Mahsa Dabagh, Biomedical Engineering Poster #12 Understanding the impact of different hemodynamic conditions (conditions that control blood flow that influence the deformation of circulating cancer cell deformation) is an…… Read More

Understanding Biodex Strength Testing and Inertial Measurement Unit Based Measurement Assessments of Wheelchair Users Performance

Biomedical Engineering, College of Engineering & Applied Science, Manansala, Thalia, Mentor, Owens, Caitlynn, Poster Presentation, Project, Rammer, Jacob, School and College, Student

Caitlynn Owens and Thalia Manansala, “Understanding Biodex Strength Testing and Inertial Measurement Unit Based Measurement Assessments of Wheelchair Users Performance” Mentor: Jacob Rammer, Biomedical Engineering Poster #10 Approximately 10% of individuals in the U.S. have a physical disability and over…… Read More