At a Glance
Inside the Collaborative Life Sciences Building (CLSB), now rising on Portland's waterfront, is the physical manifestation of a new framework for addressing some of science's most complex and pressing questions.
The OHSU Center for Spatial Systems Biomedicine will cover 25,280 gross square feet over part of three floors in the Collaborative Life Sciences Building. The space includes a low-vibration underground microscopy suite, wet labs, offices and more. Designed to encourage collaboration, connectivity and outreach, the center’s floor plan is open with lounges and other opportunities for the unplanned “corridor conversations” from which scientific history is sometimes made.
The careful attention to building architecture mirrors the scientific goals of the center as well. The center will support a coordinated measurement science research program, providing quantitative, systems-level information about the architecture of molecules, cells and tissues and their function in both normal and disease states – with a focus on cancer, neurological disease, cardiovascular disease and infectious diseases. The OHSU Center for Spatial Systems Biomedicine will bring together technology and expertise necessary for OHSU to become a leader – nationally and internationally – in the transition from relying on two dimensional cell “parts lists” to creating “assembly manuals” of four-dimensional, multi-scale functional cell structures.
“The center brings together the people, the technology and an intentionally-designed space for both groundbreaking science and to help sustain the collaborative culture essential to translate knowledge into new treatments,” said Joe Gray, PhD, Director of the center, and Associate Director of Translational Research in the OHSU Knight Cancer Institute. Dr. Gray is also Chair of the Department of Biomedical Engineering, holding the Gordon Moore Endowed Chair in Biomedical Engineering.
An early scientific emphasis of the center will be on multi-scale imaging of the molecular assemblies that regulate information flow in signaling networks, emphasizing those that are associated with a number of acute and chronic diseases.
“Dr. Gibbs is one of what will be several new faculty recruits to support the scientific goals of the center,” said Dr. Gray. “Her expertise in developing a new generation of fluorescent dyes to enable extremely high resolution, multicolor fluorescence microscopy , will be a key piece of putting together the puzzle that will allow us to visualize cells in four dimensions.”
“I am very excited about this move. It’s a great time to come to OHSU,” said Dr. Gibbs. “Both the science and institution are flourishing, and I want to be part of the collaborative environment being fostered there.”
Dr. Gibbs is currently conducting research focused on the development of near-infrared fluorescent nerve-specific contrast agents for image-guided surgery. This research is currently supported by a K01 Award from the National Institutes of Health. She earned her PhD from the Thayer School of Engineering at Dartmouth College.
Last year, Paul Spellman, PhD, Associate Professor in the Department of Molecular & Medical Genetics and a member of the OHSU Knight Cancer Institute, also was recruited to provide expertise to the center. Working at the intersection of computational biology, genomics and cancer biology, Dr. Spellman is an internationally renowned scientist and one of 30 principal investigators on the high-profile, NIH-led Cancer Genome Atlas Project. Prior to OHSU, Dr. Spellman spent more than seven years at Lawrence Berkeley National Laboratory in Berkeley, Calif. as a staff scientist with a focus on cancer biology. Now at an academic health center, Dr. Spellman has found natural synergies with clinical faculty, a supportive research environment, and with construction of the center underway, plenty to get excited about.
“One of the things that attracted me to OHSU was the new building for the Center for Spatial Systems Biomedicine,” said Dr. Spellman. “The opportunity for that center is really amazing. Between that and the new faculty hires coming on, I’m really looking forward to being here for the development and growth of the center.”
For more information about the center – and information about open faculty positions – please visit the OCSSB website.
Details on the OCSSB
- The OCSSB will have approximately 25,280 gross square feet in CLSB. This breaks out as follows:
- Low Vibration Microscopy Suite on P2: 9,116 GS
- Wet Lab, Lab Support & Office Space on Level 3 & 4: 16,164 GSF
- There will be a dedicated elevator that connects the Microscopy Suite on P2 with the research floors in the north tower.
- Occupants of the building will be able to circulate by and look into the wet lab areas for “science on display.”
- The layout of the office and wet lab areas is designed to enhance communication. There will be several informal collaborative lounge areas within the research area.
- The lounge on the 3rd floor is open to the floor above with the intent to promote connectivity between the researchers on the 3rd and 4th floors.
- The building’s main lobby will be a large, open volume with bridges connecting the north and south towers, lots of natural daylight, and a coffee kiosk to encourage interaction on a building level.
- The building will be LEED Gold minimum although we are hopeful that it will achieve LEED Platinum certification.
- The Electron Microscope Imaging Portion of the Microscopy suite sits on a 4’ thick isolated concrete slab.
- This slab is separated from the building by an 18” wide by 35’ deep moat, preventing vibration from the surrounding roads, river traffic, light rail and street car from disturbing the sensitive equipment.