Conference Session

BME Curriculum Development

Collection

2006 Annual Conference & Exposition

Authors

Ann Saterbak, Rice University; Michele Follen, M.D. Anderson Cancer Center; Rebecca Richards-Kortum, Rice University

Tagged Divisions

Biomedical

included exposure to clinicalmedicine and the relevant vocabulary, research experiences that emphasize the creation andapplication of new scientific knowledge, and entrepreneurial experience and its attendantvocabulary. The ten-week summer course also emphasizes development of skills in leadership,communication, ethics, and team building.The typical day for the internship students begins with ninety minutes of lectures and exercisesabout ethics, communication skills, entrepreneurship, and leadership. Students attend a full-dayhuman cadaver-based anatomy course for the first two weeks of the course. Lectures, dissection,and special projects comprise this course of instruction in the anatomy, physiology, andpathophysiology of the major organ systems

Conference Session

Design in the BME Curriculum and ABET Assessment

Collection

2006 Annual Conference & Exposition

Authors

John D. Gassert, Milwaukee School of Engineering; John Denis Enderle, University of Connecticut; Amy Lerner, University of Rochester; Samantha Jacques; Peter Katona, The Whitaker Foundation

Tagged Divisions

Biomedical

system, component, or Page 11.412.4process to meet desired needs within realistic constraints such as economic,environmental, social, political, ethical, health and safety, manufacturability, andsustainability.” Additionally, Criterion Four states ”Students must be prepared forengineering practice through the curriculum culminating in a major design experiencebased on the knowledge and skills acquired in earlier course work and incorporatingappropriate engineering standards and multiple realistic constraints.” Both of thesecriteria support the accepted definition for an engineer and for engineering.The design requirement is supported by the biomedical

Conference Session

BME Curriculum Development

Collection

2006 Annual Conference & Exposition

Authors

Jay Goldberg, Marquette University

Tagged Divisions

Biomedical

medical technologies at all stages of maturation, from prototype development, through testing, marketing, customer use, and into obsolescence. Examines how these standards and regulations affect technology viewed from different perspectives based on what a technology is (e.g. physical device or drug, information, and knowledge) and what technology causes in the adopting organizations (e.g. change, new processes).• Ethics of Technology Utilization – (taught on-line) Ethics applied to the utilization and management of healthcare technologies in a patient care setting. Topics include beneficence, nonmaleficence, quality-cost, resource allocation and personal-public conflicts, technology diffusion models and controls

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

Novel BME Courses and Course Adaptations

Collection

2006 Annual Conference & Exposition

Authors

Karen Coyne, U.S. Army ECBC; Arthur Johnson, University of Maryland-College Park

Tagged Divisions

Biomedical

ormodifications to the old models that have appeared in the current literature. Also included arearticles from journals showing new information about physiology, especially information thatmay contradict what we once thought. This is done to show students advancement in the fieldand that the field is always evolving. It also emphasizes that it is important to keep up withcurrent literature and that students should question existing theories.At the end of the semester, several comprehensive models are introduced. The challenge ofdeveloping these types of models, the limitations in applying them, and the reasons such modelsare needed are discussed. This year, the course will conclude with a discussion of the ethics ofdeveloping and using a model. Data

Conference Session

Novel BME Courses and Course Adaptations

Collection

2006 Annual Conference & Exposition

Authors

Conrad Zapanta, Pennsylvania State University; Keefe Manning, Pennsylvania State University

Tagged Divisions

Biomedical

- 1 1 well as to analyze and interpret data from living and non-living systems3. An ability to design a system, component, or 2 3 1 process to meet desired needs within realistic constraints.4. An ability to function on multi-disciplinary teams - - -5. An ability to identify, formulate, and solve 3 4 1 engineering problems6. An understanding of professional and ethical 2 - - responsibility7. An ability to communicate effectively 1 - 18. The broad education necessary to understand the 1

Conference Session

Novel BME Courses and Course Adaptations

Collection

2006 Annual Conference & Exposition

Authors

George Catalano, State University of New York-Binghamton

Tagged Divisions

Biomedical

2006-26: LIFE IN MOVING FLUIDS: INTRODUCING CLASSICAL FLUIDMECHANICS INTO BIOENGINEERINGGeorge Catalano, State University of New York-Binghamton Dr. Catalano is a Professor of Mechanical Engineering. He researches and teaches in the areas of engineering design, the fluid dynamics of the natural world and applied mathematics and is included in the Philosophers’ Index for his work in environmental ethics Page 11.896.1© American Society for Engineering Education, 2006Life in Moving Fluids: Integrating Classical Fluid Mechanics into an Undergraduate Bioengineering ProgramAbstractA new course that seeks to

Conference Session

Innovative Laboratories in BME

Collection

2006 Annual Conference & Exposition

Authors

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

Tagged Divisions

Biomedical

instrumentation andexperiments. This three-course traditional laboratory sequence allows students to progress fromsimple performance of experiments on standard equipment using prescribed protocols, to thedesign of instrumentation, and finally, to the design of experiments for investigating hypothesesabout physiological systems, integrating knowledge from previous laboratory and lecture classes.The first junior laboratory course runs concurrently with a bioinstrumentation course and the firstsemester of a two-semester course sequence in engineering physiology and provides studentswith laboratory experiences and discussions on biomedical ethics. The outcomes for this courseinclude the ability to use modern engineering tools to make measurements on and

Conference Session

Design in the BME Curriculum and ABET Assessment

Collection

2006 Annual Conference & Exposition

Authors

Glen Livesay, Rose-Hulman Institute of Technology; Renee Rogge, Rose-Hulman Institute of Technology

Tagged Divisions

Biomedical

, selecting the best design, constructing, and evaluating performancerelative to initial design specifications. Teams undertake a common project – in terms of clientneeds – although design products to meet these needs may vary.Biomedical Engineering Design I & IIDuring these two quarters, seniors undertake and construct their capstone design project workingon a relevant problem in biomedical engineering. This begins from the development of thedesign problem from a set of (real) client needs, establishing specifications, planning the project, Page 11.1427.3scheduling and efficient use of resources, examining ethics and safety in