BE Seminar: “Musculoskeletal Tissue Engineering”
MEAM Seminar: “Cell Polarization and Growth”
Polarization is an essential behavior of living cells, yet the dynamics of this symmetry-breaking process are not fully understood. We have developed a spatial stochastic model of cellular polarization during […]
BE Seminar: “Immunomodulatory Biomaterials for Limb Salvage”
Diabetes and peripheral arterial disease affect hundreds of millions of people worldwide. Patients with these conditions frequently develop chronic wounds on the lower limbs that lead to amputation, with a […]
BE Seminar: “High-throughput T cell repertoire profiling enabled systems immunology and immune engineering”
T cells are important to the initiation, prevention, and cure of many diseases. For example, various T cells based cancer immunotherapies have been quite effective in treating several types of […]
BE Seminar: “Nanofluidic Technologies for Biomolecule Manipulation”
In the last 20 years, microfabrication techniques have allowed researchers to miniaturize tools for a plethora of bioanalytical applications. In addition to better sensitivity, accuracy and precision, scaling down the […]
MEAM Seminar: “Physics-Informed Neural Networks (PINNs) for Physical Problems & Biological Problems”
We will present a new approach to develop a data-driven, learning-based framework for predicting outcomes of physical and biological systems and for discovering hidden physics from noisy data. We will […]
Herman P. Schwan Distinguished Lecture: “Engineering human tissues for medical impact”
The classical paradigm of tissue engineering involves the integrated use of human stem cells, biomaterial scaffolds (providing a structural and logistic template for tissue formation) and bioreactors (providing environmental control, […]
MEAM Seminar: “Architecture in Biological Materials: A Template for Toughness Enhancement, or a Siren Song?”
Structural biological materials, such as animal bones and shells, display remarkable mechanical properties despite being composed of quite simple and ordinary constituent materials. For example, the toughness of nacre, a […]
MEAM Seminar: “Origami Micro, Bio, and Nanosystems “
Due to the inherent planarity of conventional micro and nanofabrication, it is challenging to pattern and assemble micro, bio, and nano-materials and devices in all three dimensions. Origami inspired mechanical […]
BE Seminar: “Developing neuroengineering solutions of biomedical relevance using crayfish as a model system”
In my talk, I will first describe one of the main projects in my lab that investigates the underlying cellular-molecular mechanisms for changes in alcohol sensitivity of crayfish with different […]