The Michigan Engineer News Center

Regents approve first floor renovations in Biomedical Engineering building

New space will support experiential learning and collaboration opportunities for students.| Medium Read
EnlargeAn overhead 3D rendering of the planned design space renovation.
IMAGE:  An overhead 3D rendering of the planned design space renovation.

The University of Michigan Biomedical Engineering department will receive new state-of-the-art design, innovation and prototyping spaces through a complete renovation of the first floor of the Lurie Biomedical Engineering (LBME) Building.

The 12,000-square-feet, $4.9 million renovation was approved Thursday by the Board of Regents. It will reinvent and redesign the space to create future-focused collaborative design spaces to support BME students’ active, project-based, hands-on learning experiences.

“Over the past decade, based on feedback from our students, employers and other stakeholders, we’ve made many changes to our curriculum to add more experiential learning opportunities for our students,” says Jan Stegemann, a professor of biomedical engineering and faculty lead on the initiative. “It became clear we needed to update our design spaces to further support this new curricular content.”

In addition to a large, flexible and reconfigurable classroom, new features include: a clinical simulation area, including XR (extended reality) capabilities, for surgical simulation training and usability testing; video-conferencing capabilities to enable teamwork locally and remotely, to observe medical procedures or hold international workshops; a dedicated 3D printing laboratory, machine shop, prototyping and fabrication spaces; instrumentation, mechanical testing and cell culture labs for experiential courses and student project teams.

EnlargeA 3D render showing part of the planned design space renovation
IMAGE:  A 3D render showing part of the planned design space renovation

“These facilities will enable our students and faculty to connect more effectively with our partners in engineering, medicine and industry, and ultimately the development and translation of new technologies,” said Lonnie Shea, the William and Valerie Hall Chair of Biomedical Engineering.

The project will be funded from College of Engineering resources. Integrated Design Solutions from Troy, Michigan will design the project.

The project will include architectural, electrical and mechanical work and will provide an average of six on-site construction jobs.

A phased construction schedule is planned in order to minimize disruption to the academic calendar with construction to be completed in the spring of 2021. There will be no impact on parking.

The Board of Regents also authorized issuing bids and awarding construction contracts for the project.

“The discussion of the design and composition of the space begin in a 2016 faculty retreat, which has evolved through extensive input from our students and faculty, the College of Engineering, the Michigan Medicine clinical and instructional faculty, BME alumni, and our industrial advisory board,” said Shea.

EnlargeA 3D render showing part of the planned design space renovation
IMAGE:  A 3D render showing part of the planned design space renovation

Four themes guided design of the space. These included:

  • Experiential learning opportunities for student teams, including clinical immersion, needs-finding, design, prototyping and fabrication
  • A sense of partnership and community to promote interaction among students, faculty, staff and BME stakeholders
  • Further integrating BME practice into teaching and research to support new collaborations and student opportunities
  • Creating physical spaces for innovative communities of practice and engineering-industry-medicine interactions

The brand new instructional labs, improved spaces for ideation, prototyping simulation and fabrication, in addition to the new cell culture facility for biotechnology-related work, all represent a focus on the future as biomedical engineering continues to evolve.

“As the field and our curriculum change over time, we’re planning for the space to evolve in tandem. Our initial plans fit our current needs well, and we’ve also built in some adaptable space as new student needs arise. That is very much by design,” Stegemann says.

The dynamic space is intended to feel open and inviting, to facilitate the collaboration and engagement necessary for innovation, and to create a strong sense of community for BME students, staff, and faculty as they bring new ideas to life.

“When students want to work together on projects, they’ve told us they haven’t really thought of hanging out in LBME because there haven’t been spaces that are especially conducive to teamwork,” says Stegemann. “The new BME Design Spaces will turn that around, giving students vibrant, energetic spaces where they can work collaboratively on clinical problems. They’ll also have these wonderful new experiential labs and prototyping spaces to design, test and build new technologies,” he adds.

EnlargeA 3D render showing part of the planned design space renovation
IMAGE:  A 3D render showing part of the planned design space renovation

Planning for the new BME Design Spaces has been led by a steering committee that, in addition to Stegemann, includes Brandon Baier (marketing and communications), Barry Belmont (instructors, design, labs), Karen Gates (alumni/industry relations), Dana Jackson (facilities), Rachael Schmedlen (instructors, design, labs), Cathy Seay-Ostrowski (administration), and BME Department Chair Lonnie Shea.

“There’s been a real and palpable sense of shared excitement as the plans have started to become reality,” Stegemann says. “It’s definitely the right time to capitalize on the investments we’ve been making in our experiential curriculum as we carry out our educational mission.”

This article was written by Kim Roth. 

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An overhead 3D rendering of the planned design space renovation.
A 3D render showing part of the planned design space renovation
A 3D render showing part of the planned design space renovation
A 3D render showing part of the planned design space renovation
Portrait of Zach Robertson


Zach Robertson
News and Communications Assistant

Michigan Engineering

1075 Beal Ave

  • Lonnie Shea

    Lonnie Shea

    William and Valerie Hall Department Chair of Biomedical Engineering

The electrons absorb laser light and set up “momentum combs” (the hills) spanning the energy valleys within the material (the red line). When the electrons have an energy allowed by the quantum mechanical structure of the material—and also touch the edge of the valley—they emit light. This is why some teeth of the combs are bright and some are dark. By measuring the emitted light and precisely locating its source, the research mapped out the energy valleys in a 2D crystal of tungsten diselenide. Credit: Markus Borsch, Quantum Science Theory Lab, University of Michigan.

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