Interdisciplinary Medical Product Development Senior Capstone Design

Kotche, Miiri; Tharp, Stephanie

doi:10.18260/p.24350

Cited by 4 publications

(6 citation statements)

References 8 publications

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“…Some preference was given to students enrolled in the Interdisciplinary Medical Product Design course over the traditional senior design capstone sequence. The IMPD course is a two-semester medical product development course that engages interdisciplinary teams of bioengineers, industrial designers, graphic designers and business students to provide a solution to a "real world" problem identified by an industry partner and co-instructors from Bioengineering, Industrial Design and Business [9]. Corporate partners over the last four years have been Baxter Healthcare and Motorola Mobility.…”

Section: Interdisciplinary Medical Product Design Coursementioning

confidence: 99%

“…Students with an interest in working in the medical device industry are encouraged to enroll in IMPD. Interdisciplinary capstone design courses provide teams the opportunity to integrate theory with practice, and make effective use of the best joint resources available [9]. Indeed, ABET recognizes "the need to cross and mesh disciplinary boundaries is increasingly evident because new knowledge is increasingly created at disciplinary interfaces" [9].…”

Section: Interdisciplinary Medical Product Design Coursementioning

confidence: 99%

“…Interdisciplinary capstone design courses provide teams the opportunity to integrate theory with practice, and make effective use of the best joint resources available [9]. Indeed, ABET recognizes "the need to cross and mesh disciplinary boundaries is increasingly evident because new knowledge is increasingly created at disciplinary interfaces" [9]. To that end, ABET criteria requires engineering programs to demonstrate that students can function on multidisciplinary teams [10].…”

Section: Interdisciplinary Medical Product Design Coursementioning

confidence: 99%

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Clinical Immersion Internship Introduces Students to Needs Assessment

Kotche¹

2016 ASEE Annual Conference &Amp; Exposition Proceedings

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Miiri Kotche is a Clinical Associate Professor of Bioengineering at the University of Illinois at Chicago, and currently serves as Director of the Medical Accelerator for Devices Laboratory (MAD Lab) at the UIC Innovation Center. Prior to joining the faculty at UIC, she worked in new product development for medical devices, telecommunications and consumer products. She co-teaches bioengineering capstone design courses, including the core senior design sequence and the recently launched interdisciplinary medical product development course.

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Section: Interdisciplinary Medical Product Design Coursementioning

confidence: 99%

Section: Interdisciplinary Medical Product Design Coursementioning

confidence: 99%

Section: Interdisciplinary Medical Product Design Coursementioning

confidence: 99%

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Clinical Immersion Internship Introduces Students to Needs Assessment

Kotche¹

2016 ASEE Annual Conference &Amp; Exposition Proceedings

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“…The problem solving and communication skills required for healthcare professionals to successfully work together are skills that will benefit other professionals such as engineers. Collaborative education between engineering and medical students has shown to result in innovation for community benefit through assistive device creation 11 , addressing real-world clinical problems 12,20,21 , and improvements to medical teaching laboratories 22 .…”

Section: Interdisciplinary Educationmentioning

confidence: 99%

“…For example, the Interdisciplinary Medical Product Development (IMPD) senior design capstone course at the University of Illinois at Chicago involves students and faculty from bioengineering, medicine, industrial design, marketing, and graphic design. 20 At California Baptist University, engineering capstone students design devices to assist hearing impaired individuals and work with nursing students to prepare the units for clinical testing. 23 A cross institution collaboration between biomedical engineering students at Lawrence Technological University and mechanical engineering and nursing students from University of Detroit, Mercy has resulted in multidisciplinary capstone teams focused on helping patients from a local Veteran Administration hospital with physical disabilities.…”

Section: Interdisciplinary Educationmentioning

confidence: 99%

Community Health Innovation through an Interprofessional Course

Nagel

Ludwig

Lewis³

2017 ASEE Annual Conference &Amp; Exposition Proceedings

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is an Assistant Professor in the Department of Engineering at James Madison University. She has eight years of diversified engineering design experience, both in academia and industry, and has experienced engineering design in a range of contexts, including product design, bio-inspired design, electrical and control system design, manufacturing system design, and design for the factory floor. Dr. Nagel earned her Ph.D. in mechanical engineering from Oregon State University and her M.S. and B.S. in manufacturing engineering and electrical engineering, respectively, from the Missouri University of Science and Technology. Dr. Nagel's long-term goal is to drive engineering innovation by applying her multidisciplinary engineering expertise to instrumentation and manufacturing challenges. Dr. Patrice M. Ludwig, James Madison UniversityPatrice Ludwig is an Assiatant Professor of Biology at James Madison University. She earned her doctoral degree in biology from the University of Virginia. Her research interests are in understanding changes in undergraduate attitudes and knowledge as a result of work across disciplines to solve real world problems. She also studies using artificial substrates to restore and conserve oyster reefs. Community Health Innovation through an Interprofessional Course AbstractThe broad goal of this interdisciplinary course is to allow pre-professional biology, pre-nursing, and engineering students to leverage MakerSpace technology to produce and communicate tangible solutions to current challenges in community health. For the past two iterations of the course students developed solutions to metabolic syndrome using MakerSpace technologies (3D printing, laser cutters/engravers, virtual reality, and related software). Communication between disciplines that impact each other, but may have different biases and goals, is important. This communication is facilitated through teamwork. In the course, students receive explicit training in problem solving techniques, teamwork, and communication. For example, students form their teams using the StrengthsFinders analysis to build on the individual strengths. Moreover, the teams watch a video on the challenger disaster to evaluate systemic reasons leading to failure in team decision making. Additionally, the MakerSpace is used to foster creative problem solving, collaboration skills, and knowledge of technologies that may shape their professions' future.The instructor's' role in the course is to serve as facilitators and guides while students work to develop their solutions. This process ensures that students take ownership of their project as an engaged team. It allows students to strengthen their problem-solving and collaboration skills. The interdisciplinary teaching team models the teamwork skills the students are learning. The aim is to promote interdisciplinary learning, foster teamwork, and improve student engagement. Other course objectives are to develop students' creative problem solving, empathetic design practices, communication skills, prototyp...

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