天美传媒视频无限制观看

In keeping with the mission of 天美传媒视频无限制观看’s Jesuit values, specifically the concept of men and women for others, the School of Engineering & Computing inspires students to become leaders of integrity within the industry. Through their comprehensive curriculum, students are given opportunities to conduct innovative, in-depth research with faculty mentors. This hallmark of a solid educational experience offers students a chance to put their academic skills to the test, explore their passions, and make a difference.

Getting involved in faculty-mentored undergraduate research is a great way to supplement coursework and gives students the chance to explore a topic at the cutting edge of the biomedical engineering discipline. To learn more, meet with your academic advisor to discuss your research interest.

Recent Research Projects

The goal of this research project is to fabricate microwave foamed, three-dimensional (3D) tissue scaffolds leading to extracorporeal bio-artificial organ systems that will assist in organ transplantation. Associate Professor Mechanical Engineering Sriharsha Sundarram, PhD, and engineering students Nwachukwu Ibekwe, Stephanie Prado, Sean Feeney, Clarissa Rotonto project builds on the work currently being performed in the school’s research group on fabrication of 3D tissue scaffolds for biomedical applications.

Three-dimensional tissue scaffolds can be used to grow cells and replicate the functioning of the tissues in the human body. However, the major challenge in the fabrication of large-scale 3D tissue scaffolds is the need to have highly porous and interconnected scaffolds with desired mechanical properties to allow for cell growth and proliferation. In this study, a unique approach of combined additive manufacturing (3D printing) and microwave foaming is adopted to fabricate tissue scaffolds. These scaffolds with desired properties will be incorporated into bioreactor chambers integrated with sensors and fluidic networks resulting in extracorporeal bio-artificial organs. The key outcomes upon successful completion of this project include: (1) Fabrication of a scalable, inexpensive system for development of bio-artificial organs; and, (2) Opportunity for graduate and undergraduate students at 天美传媒视频无限制观看 to participate directly in state-of-the-art research.

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Under the leadership of faculty mentor Isaac Macwan, PhD, biomedical engineering majors Jenna Madigan ’22 and Jack Devlin ’22 launched a research project that focuses on the impact of the human protein MutSbeta, which is essential in repairing incorrect sequences in DNA after replication. The overall role of MutSbeta is known but our goal is to examine the initial interactions when the DNA and protein first come in contact. By simulating the interactions as they would happen in our cells with molecular dynamics, we hope to learn about this system through analysis of interaction energies, changes in protein structure, and more. With this information, the students will draw conclusions about the implications of defective MutSbeta, which causes human Lynch Syndrome and colorectal cancer.

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Human memory is not infallible - people often provide false reports of events, either by providing incorrect details of an event or recounting an event that never occurred. And yet, they believe they are telling the truth when they give this quantifiably false information. This is because it is often the memory of the person that is incorrect. This phenomenon is known as False Memory.

An interdisciplinary collaboration between the Department of Psychology and the Department of Computer Science, Assistant Professor of Psychology Jessica Karanian, PhD, Assistant Professor of Computer Science and Engineering Danushka Bandara, PhD and students Tal Nizan and Thanh Le aim to identify whether a person is experiencing a true or false memory by exclusively using their brain activity patterns. This method can be applied to battle misinformation and to test if witness testimony is trustworthy.

Demonstrating innovative thinking, Dr. Karanian, Dr. Bandara, Nizan, and Le utilized event-related potentials (ERP), a technique known for its high temporal resolution, to see whether a difference in neural activity was visible between false and true memories. If a difference was found, an additional goal is to discern where and when false memories originate. After using this method, they were able to find a significant difference in activity in the occipital lobe during true and false memory.

Virtual reality is an emerging modality for interacting with computers. Danushka Bandara, PhD's project aims to identify a computer user’s workload and emotion levels while immersed in Virtual Reality experiences. Such a system has great potential in training aircraft pilots, athletes, and other professions where virtual reality is used to train for hazardous or high-stakes situations. Ultimately, these devices could be in everyday use, sensing and adapting to humans when using computers.

In their research project, Andrey Zaznaev and Ky Duyen Le ’21 worked alongside faculty mentor Isaac Macwan, PhD to study how molecules move and behave in biological systems through molecular dynamics simulations. The specific focus is on understanding how graphene oxide, a nanoparticle, interacts with NDPK, a protein responsible for many processes in the human body, including the functioning of the heart. Heart failure results from the interactions of an inferior NDPK protein with another protein called G protein that inhibits the beating of the heart resulting in cardiac infarction. It is expected that the results of this work will show theoretical potential for utilizing graphene oxide material blocking such interactions to be a possible strategy against heart failure.

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