Conference Session

BME Assessment and the VaNTH ERC

Collection

2007 Annual Conference & Exposition

Authors

David Cordray, Vanderbilt University; Alene Harris, Vanderbilt; Thomas Harris, Vanderbilt University

Tagged Divisions

Biomedical

experimental designs, with randomization (SeeCordray, Harris and Gilbert4). The other (60%) comparative studies used quasi-experimental methods (with non-random assignment) to assess the effectiveness ofmodules and course augmentations. Although an experimental approach to improving engineering education isdemanding, it provides the only path to deriving unbiased estimates of the effects oflearning on students. On the other hand, practical and ethical issues must be addressed. Page 12.13.3One particularly difficult practical constraint in using true experiments in assessing 2VaNTH materials entailed small class

Conference Session

Design in BME Education

Collection

2010 Annual Conference & Exposition

Authors

Nur Ozaltin, University of Pittsburgh; Mary Besterfield-Sacre, University of Pittsburgh; Larry Shuman, University of Pittsburgh

Tagged Divisions

Biomedical

the University of Pittsburgh. His research focuses on improving the engineering educational experience with an emphasis on assessment of design and problem solving, and the study of the ethical behavior of engineers and engineering managers. A former senior editor of the Journal of Engineering Education, Dr. Shuman is the founding editor of Advances in Engineering Education. He has published widely in the engineering education literature, and is co-author of Engineering Ethics: Balancing Cost, Schedule and Risk - Lessons Learned from the Space Shuttle (Cambridge University Press). He received his Ph.D. from The Johns Hopkins University in Operations Research and the BSEE from the University of

Conference Session

Developments in BME Pedagogy and Assessment

Collection

2011 ASEE Annual Conference & Exposition

Authors

Hatice O. Ozturk, North Carolina State University; Dianne Raubenheimer, North Carolina State University

Tagged Divisions

Biomedical

Negotiation skills (conflict management, consensus building) d-2 Time management skills d-3 Self-assessment skills d-4 Team building skillse) An ability to identify, formulate and solve engineering problems e-1 Critical thinking skills e-2 Problem identification skills e-3 Mechanical analysis skills e-4 Systems analysis skills Page 22.1143.4 e-5 Modeling skills e-6 Reverse engineering skills e-7 Differential equation solution skillsf) An understanding of professional and ethical responsibility f-1 Comprehension of ethical codes in engineering and medicine f-2 Financial/budgeting skills f-3 IP, disclosure reading

Conference Session

Freshman Design and Other Novel Programs

Collection

2007 Annual Conference & Exposition

Authors

Michele Temple, University of California-San Diego; Peter Chen, University of California-San Diego; Robert Sah, University of California-San Diego

Tagged Divisions

Biomedical

objectives and for their future success as a Bioengineer.The overall mission of the Bioengineering program at UCSD is to provide students with anexcellent education that enables successful, innovative, and lifelong careers in bioengineeringindustries and professions. The overall educational objectives are to provide students with amodern bioengineering education, consisting of depth, breadth, and creativity in the central areasof bioengineering, its underlying sciences, and related technologies; effective communication,learning, and teamwork skills that facilitate bioengineering practice, continued professionaladvancement, and adaptation; and a recognition of professional and social responsibilities,including sensitivity to ethical and health

Conference Session

Innovations in Design within BME Curricula

Collection

2011 ASEE Annual Conference & Exposition

Authors

Howard P. Davis, Washington State University; Denny C. Davis, Washington State University

Tagged Divisions

Biomedical

requirements and pros and cons of different sources of capital. 5. Abilities to apply knowledge about intellectual property to strategically create barriers to entry for competitors. 6. Abilities to plan and manage a design project to complete specified deliverables within allotted time and budget. 7. Abilities to organize, improve, and contribute effectively to a multidisciplinary project team. 8. Abilities to access, learn, process, and demonstrate knowledge competence to advance a team-based entrepreneurial engineering project. 9. Abilities to explain and demonstrate ethical and professional responsibility in the context of team interactions, class assignments, client interactions, and professional

Conference Session

BME Laboratory and Project Experiences

Collection

2012 ASEE Annual Conference & Exposition

Authors

Donna M. Ebenstein, Bucknell University; Eric A. Kennedy, Bucknell University

Tagged Divisions

Biomedical

provide a detailed description of a three week core module which can becompleted in two lecture hours and seven lab hours in addition to brief descriptions ofsupplemental activities that can be used to expand the unit, including biostatistics and ethics. Forthe core module and each supplemental activity, the time and materials resources required willbe indicated, as well as the ABET criterion that are addressed. Finally, we will report on ABETand student assessment relating to the unit, and end with some discussion and conclusions.Core ModuleThe core module consists of two hours of lecture and seven hours of lab. In our course, thiscovers three weeks of class – one week of lecture followed by two weeks of lab; however,supplemental activities used

Conference Session

Integrating Design into the BME Curriculum

Collection

2009 Annual Conference & Exposition

Authors

Joe Tranquillo, Bucknell University; Daniel Cavanagh, Bucknell University

Tagged Divisions

Biomedical

accustomed to the cycle of technical lectures, homework, labs and tests that compose the typical undergraduate engineering course. When they enter senior design, this familiar cycle is replaced by lectures and assignments on topics such as device specifications, ethics, memos, decision matrices, economics, prototype construction, benchmarking and careful documentation. While the students are used to new topics in a new course, design topics are of a type that is very unfamiliar to the students. Furthermore, as design is an iterative process, students can easily get lost in the repetitious nature of the design process. We have found that some students find this switch in course structure difficult and view

Conference Session

Integrating Design into the BME Curriculum

Collection

2009 Annual Conference & Exposition

Authors

Patricia Mellodge; Brad Deschenes

Tagged Divisions

Biomedical

sponsored by an industrial partner. Throughout this coursesequence, non-technical aspects of engineering are emphasized including group dynamics,teamwork, communication skills, leadership skills, and creativity.Sophomore Engineering Design CourseThe outcomes for the sophomore course, Engineering by Design, are not technical, but rather arerelated to areas such as formulation of ideas, communication, creativity, and analytical ability.Specifically, upon completing the course, students should be able to: 1. Formulate each step of the design process. 2. Work successfully in interactive groups. 3. Develop their creativity, imagination, and analytical skills. 4. Make informed ethical decisions. 5. Improve their written and oral

Conference Session

Pipeline and Performance in BME Education

Collection

2015 ASEE Annual Conference & Exposition

Authors

Davide Piovesan, Gannon University; Karinna M. Vernaza, Gannon University

Tagged Divisions

Biomedical

long learning C) An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, Ability to find information outside of normal class sources I1 environmental, social, political, ethical, health and safety, (pursue of knowledge) manufacturability and sustainability Ability to recognize need for improvement of currentC1 Design techniques I2 engineering solutions (self-motivation)C2

Conference Session

Biomedical Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Karen R. Thickman, University of Washington

Tagged Divisions

Biomedical

balance the learning 2016UndergraduateStudentsBasedon PerformanceonFinalExamobjectives tested and to align each question moreclearly with an objective. Second,studentperceptionsofinterestinandimportanceofgenomicstechnologieswillbeassessedthroughsurveysadministered at the beginning and end of the course.Third, as questions of ethics, consent, and privacy arecentral to appropriate use of these genomictechnologies, in-class discussions and studentreflections on these issues will be used to asses studentunderstanding of the non-technical challengesassociated with these tools.1. Mardis, E. R.; Trends Genet. 24, 133–141 (2008).2. Hood, L. & Flores, M.; N. Biotechnol. 29, 613

Conference Session

Biomedical Engineering Division Poster Session

Collection

2015 ASEE Annual Conference & Exposition

Authors

Mansoor Nasir, Lawrence Technological University; Eric G Meyer, Lawrence Technological University; Yawen Li, Lawrence Technological University

Tagged Divisions

Biomedical

4 3 2 1Construct a system or process to meet desired needs within suchrealistic constraints as economic, environmental, social, political, 52% 48%ethical, health and safety, feasibility and sustainability.Demonstrate the ability for self-directed learning by planning, 78% 22%research and design for the project.Student comments generally indicate that the course structure helped with finding out new ideas “Good design of the class. Helps to generate ideas initially. Concept of idea generation explained really well.”The exit interviews respondents have also “made numerous positive references to

Conference Session

Biomedical Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Dianne Grayce Hendricks, University of Washington

Tagged Divisions

Biomedical

introductory and honors courses in bioengi- neering, tissue and protein engineering lab courses, bioengineering ethics, leadership, and bioengineering capstone writing and design courses. She is committed to enhancing diversity and inclusivity in engineer- ing, and creating opportunities for undergraduate students to engage in K-12 educational outreach. Dr. Hendricks has over a decade of experience leading educational outreach and summer camp programs at both Duke University and the University of Washington. c American Society for Engineering Education, 2017 Work-in-Progress: Making an Introductory Tissue Culture Lab Course Accessible to Novice StudentsThe ability

Conference Session

Biomedical Division Poster Session

Collection

2016 ASEE Annual Conference & Exposition

Authors

Bryan Paul Ruddy, University of Auckland; Poul Fønss Nielsen, University of Auckland

Tagged Divisions

Biomedical

writtenreports about the design process, prepare group oral presentations, utilize electrical and mechani-cal computer-aided design, and create instrumentation software in LabVIEW. These, in turn, relyon students having achieved a set of learning objectives related to electronic circuit theory, oper-ational amplifiers, and electronic components.BIOMENG 241 is organized with two lectures per week of one hour each, plus one two-hourlaboratory session per week. Lectures cover the design process, passive electronics, operationalamplifiers, filters, digital sampling, component selection, ethics, and safety. Laboratories coverbrainstorming, electronics instrumentation, soldering, operational amplifier circuits, aliasing, andquantization. Project work is

Conference Session

Biomedical Division Poster Session

Collection

2016 ASEE Annual Conference & Exposition

Authors

Dianne Grayce Hendricks, University of Washington; Ken Yasuhara, Center for Engineering Learning & Teaching (CELT); Alyssa Catherine Taylor, University of Washington

Tagged Divisions

Biomedical

projects, internships, extracurriculars, and othereducational experiences. In revisiting these experiences with a focus on leadership, students cannewly recognize that these experiences are helping them develop leadership skills.    To facilitate reflection on leadership, students in the two featured courses are introduced to the“leadership competencies” identified by Seemiller4 including ethics, analysis, conflictnegotiation, communication, providing/receiving feedback, problem solving, decision making,and personal contributions to effectiveness of group. Promoting familiarity with these leadershipcompetencies is intended to provide students with a vocabulary to articulate their leadershipabilities, and a lens with which to reflect on their past

Conference Session

BME Curriculum Development

Collection

2006 Annual Conference & Exposition

Authors

Thomas Harris, Vanderbilt University; Sean Brophy, Purdue University; Robert Linsenmeier, Northwestern University; Alene Harris, Purdue University

Tagged Divisions

Biomedical

andgovernmental leaders regarding the ability of the USA to compete in a global market1,2, 3 .A persistent theme in these discussions is the role and importance of scientific and engineeringeducation in making the US workforce competitive. Issues regarding “innovation” areprominent in these discussions. Clough et al 2 emphasize that the “Engineer of 2020” should becharacterized by strong analytical skills, practical ingenuity, creativity, high ethical standards,dynamism, agility, resilience, flexibility and abilities for lifelong learning as well as otherimportant characteristics.We have been working on designs for bioengineering educational environments that seek toimprove the effectiveness of bioengineering education and inculcate the principles

Conference Session

BME Course and Curriculum Development

Collection

2012 ASEE Annual Conference & Exposition

Authors

Steve Warren, Kansas State University

Tagged Divisions

Biomedical

Enderle Ch. 5 Application Domains F T-to-L Topics 13 MW Telemedicine and Home Care F Open House 14 M Emergency and Military Medicine W T-to-L Topics F Exam #3 15 M Medical Information Systems; Electronic Patient Records W Medical Facility Design Resources F T-to-L Topics 16 MW Medical Ethics

Conference Session

Design in the Curriculum

Collection

2014 ASEE Annual Conference & Exposition

Authors

Amit Janardhan Nimunkar, University of Wisconsin, Madison; John P. Puccinelli, University of Wisconsin, Madison; Matthew S. Bollom; Willis J. Tompkins, University of Wisconsin, Madison

Tagged Divisions

Biomedical

ethics, intellectual property, FDAapproval, and animal/human subjects testing. The students also have the opportunity to learn asthey are needed, various technical skills including computer-aided design, finite elementanalysis, machining/fabrication, electronics and electrical measurement and design, LabVIEW,MATLAB and microcontroller programming, mechanical testing, and basic laboratorytechniques related to biomaterials and tissue engineering. As our student population has grown,we have had an increasing challenge to informally and effectively teach our students thesecutting-edge skills that will enable them to be better engineers. In addition, our BME StudentAdvisory Committee (BSAC) has expressed interest in having more formal, directed

Conference Session

Biomedical Engineering Poster Session

Collection

2013 ASEE Annual Conference & Exposition

Authors

Cyrus Habibi P.E., Minnesota State University, Mankato; Eric Diep, Minnesota State University, Mankato

Tagged Divisions

Biomedical

provide an update on the project and to receive feedbackfrom the project mentor. The project progress and tasks were tracked at each DR. The objectivesof the LR were to address topics related to the engineering professional development. At each Page 23.1388.3LR, the team discussed teamwork skills, engineering ethics, engineering design process, andcontextualization.3.3 Technical learningUnlike traditional design courses, where technical learning (i.e. coursework) may not be relatedto the design project, the idea behind project-based learning is to facilitate learning using designprojects. The team used this project to facilitate the learning of

Conference Session

Biomedical Engineering Division Poster Session

Collection

2015 ASEE Annual Conference & Exposition

Authors

Ruth Ochia P.E., Temple University

Tagged Divisions

Biomedical

choose a pathway of interest for further study during their undergraduate career. o Fink’s Taxonomy: Caring, Human dimension II. Analyze current real world problems related to bioengineering by assessing resources available and brainstorming possible solutions to these problems. o Fink’s Taxonomy: Application, Integration, Learning how to learnThese significant learning course goals are closely tied to the ABET student outcomes assignedto this course: Page 26.1757.4 F) An understanding of professional and ethical responsibility G) An ability to communicate

Conference Session

Careers and Professional Development in BME

Collection

2008 Annual Conference & Exposition

Authors

Timothy Allen, University of Virginia; Shayn Peirce-Cottler, University of Virginia

Tagged Divisions

Biomedical

. Additionally, they participate in a discussion series with readings relevant to the field,often on contentious topics (embryonic stem cell research, the role of design in biomedicalresearch, biomedical ethics, etc.). In other classes in the third year of study in our curriculum,students focus on concise, clear technical writing, as well as oral presentations. Other requiredcourses within our Engineering School emphasize the global, societal, and ethical impact ofengineering endeavors.The sections that follow describe the methods we have implemented in our BiomedicalEngineering Capstone Course sequence to address the need for additional professional skillsdevelopment in our undergraduates. The overarching aims of these methods are not necessarilyunique

Conference Session

BME Laboratory Courses and Experiences

Collection

2009 Annual Conference & Exposition

Authors

Melissa Micou, University of California, San Diego

Tagged Divisions

Biomedical

focus on community building, communication,problem solving, leadership, and fun. The same cohort of students attended weekly seminarsfocused on preparing students to apply to and succeed in graduate school. Seminar topicsincluded: How to Impress a Graduate Admissions Committee (panel discussion), How to Write aPersonal Statement, Dinner & Dialogue with a Graduate Student, Keys to Success in GraduateSchool, Professional Ethics, Effective Scientific Presentations, and How to write a ScientificPaper. Following each one hour seminar there was a group dinner to give students from thedifferent programs an opportunity to meet and discuss the workshop topic in depth. Participantsfrom the same set of programs also attended GRE preparation courses

Conference Session

Design and Research in BME

Collection

2015 ASEE Annual Conference & Exposition

Authors

Lily Hsu Laiho, California Polytechnic State University; Kristen O'Halloran Cardinal, California Polytechnic State University; Trevor R. Cardinal, California Polytechnic State University

Tagged Divisions

Biomedical

during the internship, write a finalreport on their capstone project, and deliver a final poster presentation of their capstone project.Rubrics are provided for the students so they understand the expectations for each deliverable.Upon completion of the program, students will be able to 1. Demonstrate broad technical skills 2. Think critically & solve problems 3. Discuss current research 4. Discuss the history, theory, & ethics of stem cell investigation 5. Present and communicate effectively 6. Network with professionals in the fieldInternship MatchingThe centerpiece of this program is the 9-month internship that our students embark on. As such,we worked to develop a formal procedure to facilitate the pairing process to

Conference Session

BME Assessment and the VaNTH ERC

Collection

2007 Annual Conference & Exposition

Authors

Steven Schreiner, Western New England College; Judy Cezeaux, Western New England College; Diane Testa, Western New England College

Tagged Divisions

Biomedical

, political, ethical, health and safety, manufacturability, and sustainability (3d) an ability to function on multi-disciplinary teams, (3e) an ability to identify, formulate, and solve engineering problems, (3f) an understanding of professional and ethical responsibility, (3g) an ability to communicate effectively, (3h) the broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context, (3i) a recognition of the need for, and an ability to engage in life-long learning, (3j) a knowledge of contemporary issues, (3k) an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice, (8a) a knowledge of

Conference Session

Bioengineering laboratories: Bringing research into the classroom

Collection

2007 Annual Conference & Exposition

Authors

David Barnett, Saint Louis University; Rebecca Willits, Saint Louis University

Tagged Divisions

Biomedical

practical, hands-on experiences within the overall academic environment can varywidely. At Saint Louis University, the biomedical engineering (BME) department was developedaround a program offering solely undergraduate degrees. The faculty developed the seniorprojects course around the concept of immersing students in a faculty lab to give them an in-depth exposure to solving open-ended engineering problems. Depending on the investigator, therange of topics could range widely and also included external faculty advisors with a need forbiomedical engineering design solutions.The two-semester course sequence has evolved over the past seven years to further emphasizedesign theory, expand the ethical topic coverage, adding a comprehensive exam to

Conference Session

BME Assessment and the VaNTH ERC

Collection

2007 Annual Conference & Exposition

Authors

Mary Verstraete, University of Akron

Tagged Divisions

Biomedical

Results (2-25/25, 1-24/25), (1-25/25, 1-21/25, 1-20/25), (1-25/25, 1-22/25, 1-21/25).Quantitative assessment was accomplished through an examination. Three exam questions evaluated several aspects of Laplace and Fourier Transforms. Exam results (2-60/60, 1-54/60) CO-8: Understand and use data acquisition hardware and software The use of Dataq® data acquisition or similar devices was required to make permanent recordings if the laboratory experimental data. There was no specific quantitative evaluation method required. Ethics Component: The primary ethical component encountered in this class is to note that calibration statistics must represent the true behavior of the device, even if it points out some shortcomings in the design. Calibration

Conference Session

Experiential Learning in BME

Collection

2010 Annual Conference & Exposition

Authors

Rebecca Willits, Saint Louis University; David Barnett, Saint Louis University

Tagged Divisions

Biomedical

club (or how to find and read a research article), discussions on laboratory etiquette andresearch ethics. Participants were then integrated into their research mentors laboratory, andspent eight weeks on a research project. The program has two Peer Mentors, who areundergraduates with research experience, that live with the students and participate in theresearch project. The mentors are also responsible for additional social and academic activitiesduring nights and weekends. This paper describes the program, evaluations and critiques fromthe first year (from both research mentors and participants), as well as the challenges andopportunities the program presents to future “Research Experience for Undergraduates”programs. Surveys will continue

Conference Session

BME Laboratory and Project Experiences

Collection

2012 ASEE Annual Conference & Exposition

Authors

Barbara Burks Fasse Ph.D., Georgia Institute of Technology; Essy Behravesh, Georgia Institute of Technology

Tagged Divisions

Biomedical

problem solving nature of engineering. Thus,we grounded our “big idea” in the objectives developed by a 2002 colloquy commissioned byABET through the Sloan Foundation. The fifty engineering educators identified thirteenfundamental objectives of engineering instructional laboratories: instrumentation, models,experiment, data analysis, design, learning from failure, creativity, psychomotor (selection,modification, and operation of appropriate engineering tools), safety, communication, teamwork,ethics, and sensory awareness (using the human senses to gather information and makejudgments when formulating conclusions about real-world problems) (Feisel & Rosa, 2005).These instructional lab objectives as consistent with the ABET criteria determining

Conference Session

Design in BME Education

Collection

2010 Annual Conference & Exposition

Authors

Robert Gettens, Western New England College; Michael Rust, Western New Engalnd College; Diane Testa, Western New England College; Judy Cezeaux, Western New England College

Tagged Divisions

Biomedical

simulation, internships and cooperative education, guest speakers,guest instructors, field trips, bioethics instruction and problem-centered instruction.5 AtBucknell, a four course sequence over the Junior and Senior Years was implemented in order tointroduce students to such skills as regulatory issues, teamwork, environmental impacts, formaldecision making, computer-aided design, machining, rapid prototyping, cell culture andstatistical analysis.4 Importantly these skills are taught and practiced prior to embarking on thesenior capstone design project.4 At the University of Virginia professional skills such as jobsearching, interviewing, written and oral communication, ethics, negotiation skills, leadership,intellectual property and

Conference Session

Innovations in Upper-level Biomedical Engineering Courses

Collection

2015 ASEE Annual Conference & Exposition

Authors

Lindsey Taylor Brinton, University of Virginia; Colleen T. Curley, University of Virginia; Kimberly Kelly, University of Virginia

Tagged Divisions

Biomedical

implemented as part of the Medicare programPET and SPECT imaging tracer decay and worksheet: creating a PET/SPECT: functional detection, functional vs. textbook-style application imaging beyond flow.9 anatomical imaging, half- box that describes how life, sensitivity PET/SPECT use radioactivityclinical trails phases, randomization, worksheet: designing a An overview of the drug FDA approval, ethical clinical trial based on a development

Conference Session

"Best" of BED

Collection

2013 ASEE Annual Conference & Exposition

Authors

Anthony J McGoron, Florida International University; Hamid Shahrestani, Florida International University, BME; Michael Edward Brown, Florida International University; James Dennis Byrne, Florida International University

Tagged Divisions

Biomedical

surveys alsonote that the results suggest that capstone courses are increasingly incorporating more subjectmatter with an emphasis on professional skills. This will undoubtedly lead to greater pressure onfaculty time. Also noted by the authors was a surge in computer engineering and computerscience collaboration in the past decade, reflecting the growing role of computers in engineeringdesign which begs for greater multidisciplinary teams.A report from the National Academy of Engineering identified the ideal attributes of the engineerof 2020 and recommends ways to improve the training of engineers to prepare them foraddressing the complex technical, social, and ethical questions raised by emergingtechnologies26. The report notes that innovation