Courtesy of Turner Construction

Bioengineering Day 2022

Photographed by Jeff Fitlow, www.fitlow.com/

Bioengineering Day 2022

Bioengineering Day 2022

The reshaped streambanks have been mulched to prevent erosion, but still need to be planted

Professor Rui L. Reis was chosen as the 2017 recipient of the IET Harvey Engineering Research Prize for his outstanding contributions to research in the field of Medical Engineering, specifically for contributions to bioengineering, biomedical engineering, tissue engineering and biomaterials.

He presented a prize lecture on 20 March 2018, discussing his research and how the prize funding will be used to further it.

Photos courtesy of Trampenau photography - Steve Pearcy.

Dept. of Chemical Engineering & Applied Chemistry - Edwards' Lab, Faculty of Applied Science & Engineering, University of Toronto

Photo by Sara Collaton

On May 30-31, a conference at the Center featured discussion and presentations by physicians and scholars from the U.S., China and throughout the Asia Pacific region, exploring critical topics with a focus on Molecular Mechanisms and Bioengineering for Surgical Diseases.

Students in Bioengineering Lab. Micro Pump Close ups of Microscope, Printer, etc., Santa Clara University

FMP DB# 3383

A visit to Cellular Bioengineering. Located in Moiliili, the company is a Hawaii based accelerator of disruptive technologies with biomedical and biodefense applications.

Professor Rui L. Reis was chosen as the 2017 recipient of the IET Harvey Engineering Research Prize for his outstanding contributions to research in the field of Medical Engineering, specifically for contributions to bioengineering, biomedical engineering, tissue engineering and biomaterials.

He presented a prize lecture on 20 March 2018, discussing his research and how the prize funding will be used to further it.

Photos courtesy of Trampenau photography - Steve Pearcy.

The first piece of culvert comes free

This view shows the stream flowing through the restored channel from the same viewpoint as the first photo in the set

Bioengineering Day 2022

Brianna Siller presents her research on the Orsay virus at the Rice University Summer Undergraduate Research Program poster symposium. She and Norma Perez, both San Jacinto College students, were selected for the 10-week program. Photo credit: Jeannie Peng-Armao, San Jacinto College marketing, public relations, and government affairs department.

A visit to Cellular Bioengineering. Located in Moiliili, the company is a Hawaii based accelerator of disruptive technologies with biomedical and biodefense applications.

Frontiers in Bioengineering Symposium, Sept. 7-9, 2014

On May 30-31, a conference at the Center featured discussion and presentations by physicians and scholars from the U.S., China and throughout the Asia Pacific region, exploring critical topics with a focus on Molecular Mechanisms and Bioengineering for Surgical Diseases.

Trutag (aka PixieTag)

“Emerging Technologies in Biomedical Engineering” contains papers presented at the First International Symposium on Bioengineering (ISOB 2011) held at the Nanyang Technological University, Singapore. The Symposium is jointly organized by the College of Engineering of Nanyang Technological University and Chang Gung University of Taiwan.

The First International Symposium on Bioengineering is designed to be a major forum for the scientific exchange of multi-disciplinary and inter-organizational aspects of biomedical engineering and related areas, making a significant contribution for further development of these fields. It will also provide a platform for collaboration and joint research amongst the delegation.

with her bioluminescent eggplant scarf in honor of the Bellows Falls Farmers Market

Bioengineering Day 2022

Bioengineering Day 2022

Bioengineering Day 2022

Nearly half of all deaths in Europe is attributable to atherosclerosis, where fatty deposits build up and harden in arteries leading to serious complications such as heart attacks and strokes. Stent deployment is a minimally invasive treatment option that is currently performed for 1 in 100 people in Europe, this procedure however still require improvements in clinical outcomes. Success rates for the treatment can be achieved through further research into the cellular and molecular processes involved and how the materials from which these devices are made are processed. The project aims to construct a physiological model of the blood-vessel wall to study cell-material interactions within a controlled environment, using the technique of electrostatic spinning to produce 3D fibres that mimic the natural fibres found within the blood vessel wall. The proposed model will find application in research programmes for arterial stent design and deployment, drug delivery and pharmaceuticals testing.

Image: © 2013 Kit Mei Tan

"Over Consumption With Mass Production" photo serie

Artist and mathematician Robert B. LISEK presents his recent bioengineering software projects SPECTRUM and CAPITAL, exploring the relationship between bio-molecular technology, code and issues arising from network technologies by combining his DNA code with codes of viruses and recently by testing influence of radioactive materials on biological entities.

Leaders in Software and Art was founded in 2009 to bring together the community of software and electronic artists, creative coders, data visualists, curators, collectors, digital and interactive agencies, and others who make their careers at the intersection of art and technology. [Photo © 2013 Emilio Vavarella]

Professor Rui L. Reis was chosen as the 2017 recipient of the IET Harvey Engineering Research Prize for his outstanding contributions to research in the field of Medical Engineering, specifically for contributions to bioengineering, biomedical engineering, tissue engineering and biomaterials.

He presented a prize lecture on 20 March 2018, discussing his research and how the prize funding will be used to further it.

Photos courtesy of Trampenau photography - Steve Pearcy.

Wai Keung Eric Marx Chu

Ph.D. Student, Bioengineering

This light microscopy image illustrates the enzymatic separation of human embryonic stems cells (hESCs) in the microcarrier culture. The new method to grow hESCs on microcarriers allows small samplings for continuous monitor over the course of cell expansion. Multiple qualification tests require the removal of cells from these microcarriers. Particularly flow cytometry requires individual cells passing through a capillary tube for fluorescent markers detection. The adhesion proteins of the cells in this image were digested by an enzyme called Accutase for 5 minutes. Some of the cells were individualized while some required longer separation time. Eventually all cells will be stripped from the microcarriers and separated into individual cells. Time optimization was done in this experiment to avoid prolonged damages made to the vulnerable cells.

A visit to Cellular Bioengineering. Located in Moiliili, the company is a Hawaii based accelerator of disruptive technologies with biomedical and biodefense applications.

Professor Rui L. Reis was chosen as the 2017 recipient of the IET Harvey Engineering Research Prize for his outstanding contributions to research in the field of Medical Engineering, specifically for contributions to bioengineering, biomedical engineering, tissue engineering and biomaterials.

He presented a prize lecture on 20 March 2018, discussing his research and how the prize funding will be used to further it.

Photos courtesy of Trampenau photography - Steve Pearcy.

Bioengineering Institute

Professor, Director

University of Auckland

Private Bag 92019

Level 6, 70 Symonds St

Auckland, New Zealand

p.hunter@auckland.ac.nz

+64 9 -373-7599 X 88395(voice) +64 9 -367-7157(fax)

A visit to Cellular Bioengineering. Located in Moiliili, the company is a Hawaii based accelerator of disruptive technologies with biomedical and biodefense applications.

Frontiers in Bioengineering Symposium, Sept. 7-9, 2014

Students in the 7th and 8th grades from throughout the state of Maryland take part in the Easy As PI day event to learn about topics in the fields of Science, Technology, Engineering, and Mathematics (STEM) at the Garrett-Jacobs Mansion in Baltimore, Md., March 30, 2016. (U.S. Army Corps of Engineers photo by Alfredo Barraza)

photo attribution: sean dreilinger durak.org

Todd P. Coleman

Neural Interaction Lab

coleman.ucsd.edu/

Todd P. Coleman is an Associate Professor in the Department of Bioengineering at UCSD. His graduate training at MIT was in electrical engineering, while his postdoctoral training at MIT was in neuroscience. Dr. Coleman directs the Neural Interaction Laboratory at UCSD, where his research group builds flexible ?tattoo electronics? for neurological monitoring and brain-computer interfaces applications. Dr. Coleman is a science advisor for the Science & Entertainment Exchange (National Academy of Sciences). His research has been featured in CNN, the New York Times, and Popular Science.

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view Todd Coleman - Where Will the Chips of Tomorrow Take Us? - TEDxS on a black background.

View of Lucca, Italy, from church bell tower

Frontiers in Bioengineering Symposium, Sept. 7-9, 2014

Dept. of Chemical Engineering & Applied Chemistry - Edwards' Lab, Faculty of Applied Science & Engineering, University of Toronto

Photo by Sara Collaton

A visit to Cellular Bioengineering. Located in Moiliili, the company is a Hawaii based accelerator of disruptive technologies with biomedical and biodefense applications.