Chair: Robin Shandas
Denver Office: North Classroom 2204
Anschutz Office: Bioscience 2, 12705 E. Montview Blvd., Aurora, CO 80022
Robin Shandas, PhD
Specialties: Novel methods for translational bioengineering
Richard Benninger, PhD
Specialties: Optical microscopy, pancreatic islet biology and biophysics, diabetes
Cathy Bodine, PhD
Specialties: Assistive technology, rehabilitation engineering
Emily Gibson, PhD
Specialties: Microfluidics technology, optical microscopy, and spectroscopy
Jeffrey Jacot, PhD
Specialties: Stem cells and heart tissue engineering
Vitaly Kheyfets, PhD
Assistant Research Professor
Specialties: Vascular/ventricular function, cellular metabolism in cardiovascular disease, and pulmonary hypertension
Cassandra Howard, MSC
Specialties: Medical device innovation and biodesign
Kendall Hunter, PhD
Specialties: Soft tissue mechanics, vascular and cardiac imaging diagnostics, translational biomechanics
Steven Lammers, PhD
Specialties: 3D printing & design, bioprintable materials, tissue engineering of 3D cellularized scaffolds
Craig Lanning, MS
Specialties: Digital manufacturing, reverse engineering, medical device and software design
Chelsea Magin, PhD
Specialties: Bio-inspired materials for tissue engineering, R & D product development
Keith Neeves, PhD
Specialties: Hematology and oncology
Daewon Park, PhD
Specialties: Biomaterials, drug delivery, tissue engineering and regenerative medicine
Bradford Smith, PhD
Specialties: Lung structure-function relationships, optimized mechanical ventilation, and high performance computing
Specialties: Medical imaging, 3D modeling, surgical guides/tools, tissue engineering, and material characterization
Richard Weir, PhD
Research Associate Professor
Specialties: Neural engineering, biomechatronic design, and rehabilitation engineering
Associate Clinical Professor
Specialties: Cardiopulmonary disease, autoimmunity, in vivo cell lineage tracing & imaging
Bryan Yunker, PhD
Specialties: Product design & development, product marketing, intellectual property, reconstructing physical anatomy in virtual reality
Students receive instruction from affiliate faculty in the University of Colorado system, including CU Boulder and the CU School of Medicine. Faculty research areas include Imaging and Biophotonics; Cardiovascular Biomechanics and Hemodynamics; Orthopedic Biomechanics; Surgery; Ophthalmology; and Neuroscience Engineering.
The Department of Bioengineering bridges the fields of engineering and medicine with a core mission of applying engineering principles and analyses to improving human health. The department will fulfill this mission by providing opportunities for training, research, and service in bioengineering to faculty, students, and residents of Colorado and the greater Rocky Mountain region.
The Department of Bioengineering offers high-quality training in bioengineering that is both flexible and multidisciplinary. A design-based focus permeates every aspect of our training philosophy which can be summarized by the following question: what does the user want and how can I best utilize my bioengineering training to achieve this need? Our academic instruction focuses on developing core competencies in life sciences, quantitative methods, technology, and research methods.
The program offers a bachelor of science (BS) degree in bioengineering. All undergraduate students begin the program on the CU Denver (Auraria) campus. In consultation with faculty advisors, each student chooses elective courses, training pathways, and research to fit talents, preparation, and career plans.
The BS in bioengineering degree will prepare students for careers in the biomedical industry, in hospital, government, or academic research labs, in regulatory agencies such as the FDA, and for further education in graduate school, medical school, or other advanced health sciences program.
The minimum of 128 semester hours is required to earn the BS degree, including 58 credits in bioengineering premajor coursework and 24 credits in general education core at the Denver campus. This training is complemented by 46 credits in the upper-level bioengineering major and track specialization courses at the CU Anschutz Medical Campus.
All students interested in bioengineering will commence their studies in the department as pre-majors. Admittance to the major will be granted to students who have successfully completed all pre-major courses and who meet the program’s selection criteria.
For full-time undergraduate CU Denver bioengineering students in the major, the bioengineering BS/MS option provides students the opportunity to begin graduate work while completing the undergraduate degree. Students are able to take six credits toward the master of science during the last year in the major as part of the bachelor of science track electives, accelerating the time to obtain a graduate degree. Visit our website or contact us at email@example.com.