Conference Session

Teaching Interventions in Biomedical Engineering (Works in Progress) - June 22nd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Vignesh Subbian, University of Arizona; Daniel B. Whitaker, University of Arizona

Tagged Divisions

Biomedical Engineering

students take atleast one course at a distance, while public higher education institutions serve two-thirds of alldistance learners [1]. The growing student population and the need for more skilled workforce,together, are changing the landscape of online education in engineering disciplines. Theoverarching purpose of this work is to review and demonstrate the implications of onlineeducation in biomedical engineering. Specifically, this work will present strategies, qualityassessment, and lessons from designing and implementing the first fully online course in theDepartment of Biomedical Engineering (BME) at the University of Arizona.BackgroundAfter three years of offering an on-campus version of an introductory, dual-level (graduate

Conference Session

Biomedical Engineers and Professional Development - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Cassandra Sue Ellen Jamison, University of Michigan; Aileen Huang-Saad, University of Michigan; Shanna R. Daly, University of Michigan; Lisa R. Lattuca, University of Michigan

Tagged Divisions

Biomedical Engineering

learning and development [1]. Broadly, studies of student engagement have oftenexamined relationships between a student’s educational experiences and the outcomes of interest,finding that, in general, higher engagement was linked to gains in outcomes such as learning andpersistence [2], [3]. In particular, engagement in co-curricular settings, or experiences outside theclassroom, has been linked to the development of several technical and professional outcomesfor engineering students such as leadership, ethical decision making, teamwork, andcommunication [4]–[9]. Beyond those outcomes, co-curricular engagement has also been linkedto outcomes such as self-efficacy and a sense of belonging, which can improve retention andpersistence in engineering

Conference Session

Biomedical Engineers and Professional Development - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Emmett Jacob Springer; Aileen Huang-Saad, University of Michigan

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

constructed to analyze what predictorconstructs contribute to a stronger identity for either engineering or science and how theseidentities influence career path goals and choices. This study shows that recognition from othersis a significant predictor of individual identity and that personal interest is a significant predictorof how an individual views BME. Gender was not found to influence professional identity orperception of BME in this study.1. IntroductionWhile biomedical engineering (BME) continues to grow as a discipline and the number ofprograms increase, there continues to be difficulties with defining BME [1][2]. BMEincorporates aspects of several science disciplines including biology, chemistry, and physics, aswell as traditional

Conference Session

Intro to Biomedical Engineering and Vertically Integrated Curriculum (Works in Progress) - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Amber L. Doiron, University of Vermont; Jason H.T. Bates, University of Vermont; Ryan S. McGinnis, University of Vermont; Juan Jose Uriarte, University of Vermont; Niccolo M. Fiorentino, University of Vermont; Jeff Frolik, University of Vermont; Rachael A Oldinski

Tagged Divisions

Biomedical Engineering

the field ofBME where advancements are often made at the interface of materials, electrical, mechanical,and medical knowledge. Moreover, today’s biomedical engineers must be capable problem-solvers who are comfortable working in multidisciplinary teams within the design process.Traditional educational approaches, which leverage standard lecture-style dissemination of siloedinformation with limited hands-on project and design experience, are not sufficiently preparingour graduates for success in the interdisciplinary, project-focused world [1]. At UVM,foundational technical content is currently taught across the departments of MechanicalEngineering, Civil Engineering, and Electrical Engineering. In the new curriculum, these topicswill be

Conference Session

Laboratory Learning in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Casey Jane Ankeny, Northwestern University; David P. O'Neill, Northwestern University; Lisa Beckmann, Northwestern University

Tagged Divisions

Biomedical Engineering

assignments. Students then have the opportunity to demonstratemastery of the LOs several times throughout the term. Instead of traditional summativeassessment, this approach aligns the student assessment with mastery of the desired outcomes.SBG allows for student and instructor monitoring of LO mastery and emphasizes the learningrather than earning points.1 Additionally, SBG allows for individualized instruction that adaptsthe course material to address students’ weaknesses in a just-in-time fashion.While used widely in K-12, we are just now beginning to assess SBG in higher education inengineering.2 Recent work by Carberry, et al. has uncovered best practices associated with SBGthat are leveraged in our work, including tracking a small number of

Conference Session

Teaching Interventions in Biomedical Engineering (Works in Progress) - June 22nd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Mark A. Chapman, University of San Diego; G. Bryan Cornwall, University of San Diego

Tagged Divisions

Biomedical Engineering

ourstudents with this assignment was their ability to critically evaluate journal articles. As such, weexamined student critical thinking skills through an analysis of written assignments. Althoughwe found that students valued this activity, we found that students did not develop their abilitiesto critically evaluate scientific articles. Future work is needed to develop structured feedback thatcan assist in developing these critical analysis skills.Introduction. Engineering curricula have a tendency of being strongly rooted in theoreticalconcepts that do not provide students with real-world examples of course topics [1], [2]. This canlead to student disengagement and may ultimately lead to decreases in student persistence inengineering programs [3

Conference Session

Teaching Interventions in Biomedical Engineering (Works in Progress) - June 22nd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Sharon Miller, Indiana University Purdue University, Indianapolis; Steven Higbee, Indiana University Purdue University, Indianapolis; Joseph M. Wallace, Indiana University Purdue University, Indianapolis; John H. Schild, Indiana University Purdue University, Indianapolis; Julie Y. Ji

Tagged Divisions

Biomedical Engineering

informed judgements [1]. Despite this,challenges of implementing engineering ethics in BME curricula still exist and can includedifficulty in emulating ethical situations [2], ill-prepared or tentative instructors [2]-[3],peripheral or isolated ethics coursework [4]-[5], and varied engineering ethics educationexpectations. Prior to engaging in this work, our program used varied approaches on teachingethics or ethical reasoning. After a curricular gap analysis, we decided that additionaltouchpoints covering BME-relevant ethical topics throughout our curriculum were warranted.This work in progress shares: 1) a method used by a biomedical engineering department todevelop embedded ethical reflection throughout its curriculum and 2) thematic analysis

Conference Session

Intro to Biomedical Engineering and Vertically Integrated Curriculum (Works in Progress) - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Erika M. Pliner, University of Pittsburgh; April Dukes, University of Pittsburgh; Kurt E. Beschorner, University of Pittsburgh; Arash Mahboobin, University of Pittsburgh

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

pathological), analysis and modeling of human postural control, and time-varying signals and systems. Engineering education research includes curriculum and laboratory development of biomechanics and bio-signal processing concepts. American c Society for Engineering Education, 2020 Work in Progress: Engaging Early Career Students in Bioengineering with Student-Specific ContentIntroductionThe number of bachelor’s degrees earned in engineering by women and minorities does not reflecttheir presence in the US population [1]. This lack of diversity impacts the relevance of engineeredsolutions to our diverse population. Thus, there is a need to increase

Conference Session

Design in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Erica M. Comber, Carnegie Mellon University; Elisha Anthony Raeker-Jordan, Carnegie Mellon University; Kalliope Georgette Roberts, Carnegie Mellon University; Melanie Alexis Loppnow, Carnegie Mellon University; Andrew Hudson, Carnegie Mellon University; Wayne Chung, Carnegie Mellon University; Conrad M. Zapanta, Carnegie Mellon University

Tagged Divisions

Biomedical Engineering

engineers today often work with industrial designers to help themunderstand unmet needs and generate new healthcare products optimized for intended users [1].Industrial designers can work alongside engineers as employees within a company or as out-sourced consultants [2]. However, few university courses offer students the opportunity todevelop a solution to a current problem with scholars outside of their specific disciplines.Previous initiatives at Carnegie Mellon University (CMU) to form multidisciplinary capstoneteams with students in the Department of Biomedical Engineering (BME) and students in theSchool of Design opted to embed a single industrial design (ID) student within a technical groupof 3-4 engineers. Although this offered the benefit

Conference Session

Design in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Katherine E. Reuther, Columbia University; Rachel Diane Field, Columbia University; Aaron Kyle, Columbia University

Tagged Divisions

Biomedical Engineering

identify and understand unmet global health needs, developand refine sustainable solutions, and form ventures equipped for successful implementation oftheir solutions.ApproachWe created a semester-long course, “Global Health Innovation and Entrepreneurship” aimed atpreparing students (BME and PH) to create sustainable solutions to global healthcareproblems. The learning objectives of the course were (1) create a novel solution to address acompelling unmet global health need (2) demonstrate knowledge of all aspects of human-centered design (3) demonstrate knowledge of how to get to a market-ready product/service andhow to evaluate its impact (4) demonstrate knowledge of how to develop a sustainable businessmodel and (5) develop communication and

Conference Session

Teaching Interventions in Biomedical Engineering (Works in Progress) - June 22nd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Jessica Dare Kaufman, Endicott College

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

primary research interests are bioinformatics and the mechanics of biomaterials. American c Society for Engineering Education, 2020Work in Progress: Improving student engagement in undergraduate bioinformaticsthrough research contributionsAbstractCUREs (Course-Based Undergraduate Research Experiences) are a model for changinglaboratory design to include hallmarks of authentic research. CUREs have been shown to havesimilar improvements in student research skills to apprentice-based research experiences [1].Unlike apprentice-based experiences, course-based research is available to all students in aprogram. At Endicott College, the undergraduate bioinformatics lecture course is

Conference Session

Intro to Biomedical Engineering and Vertically Integrated Curriculum (Works in Progress) - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Rosalyn Delia Abbott, Carnegie Mellon University; Conrad M. Zapanta, Carnegie Mellon University; Michael Cameron Melville, Carnegie Mellon University; Steven Moore, Carnegie Mellon University

Tagged Divisions

Biomedical Engineering

Coordinator at the Center for Excellence and Innovation in Teaching and Learning at the University of New Hampshire.Steven Moore, Carnegie Mellon University, HCII American c Society for Engineering Education, 2020 Work in Progress: Incorporating interactive modules related to cell culture and plasmid design into introduction to biomedical engineering 1 2 2 3 1 Rosalyn Abbott, Sophie Le Blanc, Michael Melville, Steven Moore, Conrad ZapantaCarnegie Mellon University: 1. Biomedical Engineering, 2. Eberly Center, 3. Human-Computer Interaction InstituteIntroduction

Conference Session

Laboratory Learning in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Scott Howard Seidman, University of Rochester

Tagged Divisions

Biomedical Engineering

crosslistedas a multidisciplinary course in the School of Arts, Science, and Engineering at the University ofRochester instructs on how to interface sensors and actuators with microcontrollers in order to makemeasurements and control objects in the real world.While learning objectives for this course center around teaching students to properly interfacemicrocontrollers with sensors and actuators, the course was designed with a number of meta-objectivesin mind. One such goal is the desire to enhance the employability of our engineering students byproviding them with more and earlier opportunities to acquire and demonstrate technical knowledge andskills, which have been shown to be very important to engineering employers [1] Second, this initiativesought

Conference Session

Laboratory Learning in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Michael P. Rathslag, University of Illinois, Urbana-Champaign; Brittany R. Van Vleet, University of Illinois, Urbana-Champaign; Jennifer R. Amos, University of Illinois, Urbana-Champaign; Karin Jensen, University of Illinois, Urbana-Champaign

Tagged Divisions

Biomedical Engineering

prosthetics to tissueengineering to bioinformatics [1]. As the field continues to evolve, undergraduate biomedicalengineering programs have also continued to grow and evolve. To support the needs of thegrowing field, biomedical engineering (BME) curricula were established as broad andinterdisciplinary, integrating knowledge from both basic sciences and engineering disciplines.This training prepares graduates for a wide variety of careers in medicine, government, andindustry. The first BME programs were accredited by ABET in the early 1970s [2] and at presentthere are 139 programs accredited, with new programs accredited each year [3].In an effort to define the core content of a BME undergraduate curriculum, the VaNTHcurriculum project identified key

Conference Session

Laboratory Learning in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Ryan P. Devine, University of Georgia; Dominik May, University of Georgia; Cheryl T. Gomillion, University of Georgia

Tagged Divisions

Biomedical Engineering

Bioengineering also at Clemson University. Dr. Gomil- lion’s long-standing research interests are in tissue engineering and regenerative medicine. Specifically, the work of her research group focuses on three general areas: (1) design and modification of biomaterial scaffolds to study cell-biomaterial interactions and to provide cues for directing cell behavior for tissue regeneration; (2) application of engineered tissues for aesthetic and functional tissue replacements; and (3) advanced application of tissue engineering strategies for developing in vitro tissue models for studying disease systems. Dr. Gomillion is committed to the integration of her biomedical interests with education research endeavors, with a specific

Conference Session

Intro to Biomedical Engineering and Vertically Integrated Curriculum (Works in Progress) - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Sara L. Arena, Virginia Polytechnic Institute and State University; Melissa C. Kenny, Wake Forest University; Andre Albert Muelenaer, Virginia Polytechnic Institute and State University; Yong Woo Lee, Virginia Polytechnic Institute and State University; Pamela Jean VandeVord, Virginia Polytechnic Institute and State University; Christopher Arena, Virginia Polytechnic Institute and State University

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

Paper ID #29807Work in Progress: Student and faculty perceptions of rotating facultyfacilitators for introductory biomedical engineering problem-basedlearningDr. Sara L Arena, Virginia Tech Sara L. Arena is a Collegiate Assistant Professor of Biomedical Engineering and Mechanics (BEAM) at Virginia Tech (VT), where she has been teaching since 2017. Prior to this position, Sara was an Assistant Professor of Exercise Science at High Point University (2013-2017). The BEAM Department at Virginia Tech offers two undergraduate programs: (1) Engineering Science and Mechanics and (2) Biomedical Engineering. Sara teaches

Conference Session

Design in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Christopher Arena, Virginia Polytechnic Institute and State University; Elham Morshedzadeh, Virginia Polytechnic Institute and State University; John L. Robertson, Virginia Polytechnic Institute and State University; Andre Albert Muelenaer, Virginia Polytechnic Institute and State University; Brad D. Hendershot, DoD-VA Extremity Trauma and Amputation Center of Excellence, Walter Reed National Military Medical Center; Jessica L. O'Leary, Salem VA Medical Center; Aliza M. Lee, U.S. Department of Veterans Affairs; Devasmita Choudhury; Brandon C. Briggs; Pamela Jean VandeVord, Virginia Polytechnic Institute and State University

Tagged Divisions

Biomedical Engineering

complimentary education on user-centered research methods toenhance their ability to define new opportunities, user behaviors, the use environment, and socialand cultural influences. Students will practice these techniques through clinical rotations andlearning forums at the Salem VA Medical Center (SAVMC) and Walter Reed National MilitaryMedical Center (WRNMMC), respectively. A pilot program with 15 students began in Spring2020. Student outcomes will be based on evaluating (1) the students’ ability to recognize unmetneeds that, if addressed, will benefit patients/providers and have the potential to supportcommercialization efforts, (2) the students’ appreciation for different roles and skill sets inmedical device development, and (3) the students

Conference Session

Laboratory Learning in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Sabia Zehra Abidi, Rice University; Renata Fortuna Ramos, Rice University

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

troubleshooting process. Studentsexplore basic equipment operating principles, identify failures and repair devices as a team.In previous course iterations, students expressed unfamiliarity surrounding common parts criticalto equipment e.g. solenoid valves, IR sensors (personal experience). Guided inquiry hasdemonstrated benefits in bridging the scientific gap in knowledge in students as described byNworgu [1]. To address this unfamiliarity among women and men alike, an intervention in theform of guided worksheets was introduced and its effect on student performance assessed.MethodsThe course utilizes a flipped classroom format where all students watch lecture videos andcomplete course readings and pre-labs individually before class. In class, directions

Conference Session

Intro to Biomedical Engineering and Vertically Integrated Curriculum (Works in Progress) - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Sabrina Jedlicka, Lehigh University; Eugene Thomas Pashuck, Lehigh University; Susan F. Perry, Lehigh University

Tagged Divisions

Biomedical Engineering

[1]. The practice of connecting projects across years,classes, and student cohorts, and further linking these projects to research interests of the faculty,is a model of education that could benefit members of a university system at all levels [2-3].Programs such as the KEEN network [4] have provided both the resources necessary to rethinktraditional curricula in engineering. Likewise, pedagogical training has reduced the activationenergy required to engage in active learning strategies, specifically open-ended, project basedlearning [5]. This educational model has been cited as one method to increase student motivation,curiosity, and ultimately understanding of how engineering truly fits into the world [6-7]. As theinterrelatedness of

Conference Session

Biomedical Engineering Curriculum and Design - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Kelsey Nicole Warren, Kansas State University; Charles Carlson, Kansas State University; Steve Warren, Kansas State University

Tagged Divisions

Biomedical Engineering

distributed medical monitoring technologies and learning tools that support biomedical contexts. His research focuses on (1) plug-and-play, point-of-care medical monitoring systems that utilize interoperability standards, (2) wearable sensors and signal processing techniques for the determination of human and animal physiological status, and (3) educational tools and techniques that maximize learning and student interest. Dr. Warren is a member of the American Society for Engineering Education and the Institute of Electrical and Electronics Engineers. c American Society for Engineering Education, 2020A Survey of Biomedical Design Projects to Inform Skill Development in a New Undergraduate

Conference Session

Intro to Biomedical Engineering and Vertically Integrated Curriculum (Works in Progress) - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Ross Aaron Petrella, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering; Lianne Cartee, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering; Devin K. Hubbard, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering; Kenneth Donnelly, University of North Carolina at Chapel Hill; David A. Zaharoff, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering; George T. Ligler, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering

Tagged Divisions

Biomedical Engineering

to second and third year students’ attitudes and ability to demonstratebiomedical engineering design skills. The value added to this approach is for second and thirdyear students to gain experience with the design process and early exposure to prototyping skills.Secondary benefits may also be extended to the capstone students in the ability to practiceprofessional skills which are generally considered lacking in many project based learning courses[1]. This includes leadership, communication, and project (both human and task) management.Project Approach Vertical integration with peer education is a curriculum-wide effort in the design coursesfor second, third, and fourth year students. The study takes place via a three week

Conference Session

Biomedical Engineering Curriculum and Design - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Carolina Vivas-Valencia, Purdue University, West Lafayette; Nan Kong, Purdue University, West Lafayette; Eunhye Kim, Purdue University, West Lafayette; Senay Purzer, Purdue University, West Lafayette; Lindsey B. Payne, Purdue University, West Lafayette

Tagged Divisions

Biomedical Engineering

DePauw University and M.S. and Ph.D. degrees in Ecological Sciences and Engineering from Purdue University. She has also worked professionally in the non-profit and secondary education sectors, and currently serves on multiple community-based environmental boards. c American Society for Engineering Education, 2020 1 Instrument development for assessing user-centered innovation potential among biomedical engineers: A preliminary study AbstractWith increasing challenges to health care in the foreseeable future, novel technology solutionsare

Conference Session

Educational Interventions and Pedagogy in Biomedical Engineering - June 22nd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Mary Pearson, North Dakota State University; Lauren Singelmann, North Dakota State University; Ryan Striker P.E., North Dakota State University; Enrique Alvarez Vazquez, North Dakota State University; Ellen M. Swartz, North Dakota State University

Tagged Divisions

Biomedical Engineering

, alongside the technical skills necessary to thrive within the currentglobal workplace [1]. Developing and instructing engineering students to be experienced in theabove-mentioned qualities and also thrive within the biomedical field is a daunting task requiringa creative solution. One successful solution is business integrated teaching and learningtechniques where engineering students team with medical professionals to experienceshortcomings faced by doctors, nurses, and healthcare providers [2]. However, this modelrequires engineering students to have access to hospitals or clinics with willing practitioners toact as mentors, and not all Higher Education Institutions (HEI) offering degrees in biomedicalengineering have this type of

Conference Session

Biomedical Engineering Curriculum and Design - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Steven Higbee, Indiana University Purdue University, Indianapolis; Sharon Miller, Indiana University Purdue University, Indianapolis

Tagged Divisions

Biomedical Engineering

without the knowledge, skills, and confidence required forengineering design success. With these shortcomings in mind, we integrated design experiencesacross our BME curriculum and evaluated student design performance throughout.Methods: Four engineering design project assignments were developed and integrated intosophomore- and junior-level BME laboratory courses, establishing a continuous design thread inthe curriculum. Through the sequence of projects, student teams worked to design (1) fracturefixation plates, (2) electromyogram-controlled motor systems, (3) compact spectrophotometers,and (4) drug dosing devices. We also developed a common instructional Design Module andused it in each course to build student understanding of the BME design

Conference Session

Introduction to the Field of Biomedical Engineering - June 25th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Jasmine Naik, University of California, Irvine; Emil Martin Lundqvist, University of California, Irvine; Christine E. King, University of California, Irvine; Anna Grosberg, University of California, Irvine

Tagged Divisions

Biomedical Engineering

, dynamics, and function of the heart at multiple length-scales. c American Society for Engineering Education, 2020 CardioStart: Development and Implementation of a Tissue Engineering Summer High School ProgramIntroductionCurrently, the United States faces a shortage of STEM graduates while the amount of STEMoccupations are expected to grow [1, 2]. One such occupation is biomedical engineering with thenumber of jobs expected to increase by 23% over the next ten years—with a notable fraction ofthese jobs in tissue engineering [3, 4]. To fill these roles in the future, today’s high school studentsneed more exposure to STEM [5]. Although high school programs explore the sciences

Conference Session

Biomedical Engineers and Professional Development - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

William H. Guilford, University of Virginia

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

research interests include novel assessments of educational efficacy, the molecular basis of cell movement, and the mitigation of infectious diseases. c American Society for Engineering Education, 2020 Clinician-engineer career bias and its relationship to engineering design self-efficacy among Biomedical Engineering undergraduatesBackgroundBiomedical engineering undergraduates are often drawn to clinical practice rather than to careersin engineering – 54% according to one study in 2008 [1]. An informal survey of recent careeroutcome dashboards suggests that this remains the case, though medical schools are not calledout separately in those reports. These

Conference Session

Biomedical Engineers and Professional Development - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Alexis Ortiz-Rosario, Ohio State University; Nathan Hyungsok Choe, Ohio State University; Amena Shermadou, Ohio State University; David A. Delaine, Ohio State University; Tanya M. Nocera, Ohio State University

Tagged Divisions

Biomedical Engineering

departments provide a diverse and broadcurriculum for students. Students may take courses based on their faculty’s research interests, and eachinstitution provides different courses based on their department’s focus. Stakeholders require additionalresources and efforts to look carefully for BME graduates’ engineering competencies compared to othertraditional engineering majors, including civil, chemical, electrical, and mechanical engineering. However,there is little empirical research that provides a broad understanding of graduates’ interests in industry andengineering job opportunities.RQ 1: How are the industry work opportunities different between different engineering majors at a largeMidwest institution?RQ 2: How do job fair participants and

Conference Session

Design in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Michael A. Phelan, Temple University; Aratrik Guha; Brandon K. Harrison, Temple University; George Moukarzel, Temple University; Abigail A. Tetteh; Yah-el Har-El, Temple University; Ruth Ochia P.E., Temple University

Tagged Divisions

Biomedical Engineering

process moves through ‘empathize,define, ideate, prototype, and test’1 and the biodesign process described by Yock, et al.2Our college has been introducing DT concepts in our first year Introduction to Engineeringcourse (ENGR 1101) and our senior design (SD) series (ENGR 4169 and 4269) since 2014.These courses are required for every engineering student in our college. As a bioengineeringdepartment, we have also included design thinking within our required, introductorybioengineering course since 2014, as well as, two newly developed elective Biodesign coursesstarted in 2018. Our goal is to determine if our intervention has made an impact on the designthinking mindset of engineering students as reflected in their culminating design experience

Conference Session

Biomedical Engineering Curriculum and Design - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Lauren Nicole Heckelman, Duke University; Elizabeth Kathleen Bucholz, Duke University

Tagged Divisions

Biomedical Engineering

solution card were available for each room; however, each hint added a time penalty (inminutes) equal to the total number of hints/solution cards used to the elapsed time. Additionally,a 30-second time penalty was assessed for each incorrect answer. Students were provided with aformula sheet, and were encouraged to use a calculator, blank paper, and writing utensils.The class consisted of 17 teams of 3-4 students. All teams successfully escaped all 6 rooms in anaverage (h:mm:ss) of 0:43:50 [range: 0:14:30-1:07:28]. Very few groups used hints, as moststudents did not want to be assessed a time penalty. None of the teams used a solution card toautomatically bypass a room without solving the puzzle.Our MATLAB-based escape room challenged students to

Conference Session

Teaching Interventions in Biomedical Engineering (Works in Progress) - June 22nd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Hirohito Kobayashi, University of Wisconsin, Platteville

Tagged Divisions

Biomedical Engineering

Paper ID #29595Development of a Video Analysis Software for Biomechanics EducationDr. Hirohito Kobayashi, University of Wisconsin, Platteville University of Wisconsin-Madison Ph.D. University of Wisconsin-Madison, M.S. Waseda University, Tokyo, JAPAN, B.S. c American Society for Engineering Education, 2020Work-In-Progress: Development of a Video Analysis Software for BiomechanicsEducation1 Introduction In the undergraduate senior-level biomechanics course, students should learn both 1) tissuemechanics through stress-strain analysis that requires a tissue mechanical testing or a simulationbased on Finite Element