Conference Session

"Best" of BED

Collection

2013 ASEE Annual Conference & Exposition

Authors

Idalis Villanueva, University of Maryland, College Park; Rachel L. Manthe, Fischell Department of Bioengineering, University of Maryland, College Park; Kevin M Knapstein, Bioprocess Scale-Up Facility, Fischell Department of Bioengineering, University of Maryland, College Park

Tagged Divisions

Biomedical

bioengineering laboratory courseAbstractSuccessful engineers are competent in 21st century skills (problem-solving, critical thinking,technology literacy, creativity, independent learning, excellent communication, and collaborationskills), as well as technical and mathematical principles in order to develop societal solutions.Typically, undergraduate engineering programs utilize capstone design projects and problem setsto promote understanding and integration of engineering concepts. However, in cross-disciplinary fields such as bioengineering, knowledge and use of life sciences is as important asapplying engineering principles. Thus, we need to identify ways to introduce more life sciencestrategies into our bioengineering curriculum. One way to

Conference Session

Biomedical Division Poster Session

Collection

2017 ASEE Annual Conference & Exposition

Authors

Dianne Grayce Hendricks, University of Washington

Tagged Divisions

Biomedical

the University of Washington include 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: Reflection Enhances Student Engagement and Team Service Project

Conference Session

Communication and Professional Skills in BME

Collection

2007 Annual Conference & Exposition

Authors

Donna Ebenstein, Bucknell University; Joe Tranquillo; Daniel Cavanagh

Tagged Divisions

Biomedical

project mentor,complete extensive professional communication assignments, and bring all relevant design andprofessional skills together to complete their specific project.Overall, this four course model exposes students to a wide range of soft and hard skills relevantto biomedical engineering. The sequential structure of the courses requires students to transferknowledge and skills between courses in the sequence and from courses previously taken. Theculmination of the sequence in the senior capstone provides students with repeated exposure to,and refinement of, many skill sets. Further, as students are required to decide which skills shouldbe applied to their specific design projects, this course sequence not only introduces students toan array

Conference Session

Biomedical Engineering Division Poster Session

Collection

2015 ASEE Annual Conference & Exposition

Authors

Jennifer Kadlowec, Rowan University; Tom Merrill, Rowan University; Robert Alan Hirsh, Cooper University Hospital; Sameer Sood, Rowan School of Osteopathic Medicine

Tagged Divisions

Biomedical

the fall semester, two of the three projects continued as capstone projects. At RowanUniversity, capstone (Junior/Senior Engineering Clinic) projects are inspired by a mix ofindustry-sponsored activities, professor research activities, professional society competitions,service learning activities, and student or faculty led entrepreneurial ideas and are conducted byteams of junior and senior students. A unique aspect of the projects that were fostered from thesummer program is that they were student discovered during the immersion process, rather thanindustry, research and/or faculty driven like many capstone experiences.OUTCOMES / RESULTSTwo primary deliverables in the summer program were completed in pairs for each of threedifferent needs

Conference Session

Design in the BME Curriculum

Collection

2008 Annual Conference & Exposition

Authors

Joe Tranquillo, Bucknell University; Donna Ebenstein, Bucknell University; James Baish, Bucknell University; William King, Bucknell University; Daniel Cavanagh, Bucknell University

Tagged Divisions

Biomedical

AC 2008-757: INTEGRATING EXTERNAL MENTORS INTO BME SENIORDESIGNJoe Tranquillo, Bucknell UniversityDonna Ebenstein, Bucknell UniversityJames Baish, Bucknell UniversityWilliam King, Bucknell UniversityDaniel Cavanagh, Bucknell University Page 13.764.1© American Society for Engineering Education, 2008 Integrating External Mentors into BME Senior DesignIntroductionTo build strong independent design skills, our department exposes students to more andmore open-ended projects through our curriculum. The culminating experience is a two-semester, team-based senior capstone project, mentored by external biomedical expertsand advised by faculty within the department. The single most

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

. Page 11.1427.1© American Society for Engineering Education, 2006 Vertical Mentoring: Closing the Loop in DesignAbstractTo help students ‘close the loop in design’ – that is, appreciate the importance and depth of theirdesign knowledge through a specific demonstration of this ability beyond their capstone designproject – we have implemented a vertical mentoring scheme in biomedical engineering design.Biomedical engineering seniors in the fourth quarter of the design sequence serve as designmentors to teams of juniors beginning their first quarter of design.In the junior-level course, student teams work on a smaller, common design project to ‘practice’a complete iteration of the design process before they tackle larger, more

Conference Session

Design in BME

Collection

2017 ASEE Annual Conference & Exposition

Authors

Joe Tranquillo, Bucknell University; Annmarie Mullen, Bucknell University

Tagged Divisions

Biomedical

’s, and use a case study from aspecific biomedical engineering capstone sequence to illustrate how the availability of rapidprototyping has impacted capstone projects and biomedical engineering education at theundergraduate level.The Early History of Rapid PrototypingRapid prototyping (RP) is the process by which a computer-aided design (CAD) file is used tocontrol an automated technology in order to produce a physical model.1 Its origin is often cited tobe with the release of the first technology by 3D Systems in 1987 and it was primarily used tocreate a first generation prototype to quickly verify a design.1 The first commercializedtechnologies in the 1990’s were based upon addition or removal of liquids, powders or solids(Table 1). Liquid

Conference Session

Integrating Design into the BME Curriculum

Collection

2009 Annual Conference & Exposition

Authors

Mary Besterfield-Sacre, University of Pittsburgh; Larry Shuman, University of Pittsburgh; Chris Yoder, University of Pittsburgh; Phil Weilerstein, National Collegiate Inventors and Innovators Alliance; Angela Shartrand, National Collegiate Inventors and Innovators Alliance

Tagged Divisions

Biomedical

might be used to evaluate the effectiveness of the overalldesign artifact in meeting its design specifications and purpose.1.0 IntroductionIn this paper we provide an initial descriptive study of how different teams of bioengineering“inventors” navigate the design process from idea conception to prototype. Nine bioengineeringcapstone teams from the Swanson School of Engineering Department of Bioengineering and 27teams from throughout the U.S. who entered the BME-Idea national competition each reflectedupon and diagramed their experiences via process maps that captured their engineering designand product development activities. Although many of the BME-Idea projects also resulted frombioengineering capstone projects, several others were either

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

their design project as a daily exercise in paperwork rather than a year-long experience of learning and implementing a technical design process. 2. The conclusion of the first semester of design can be unsatisfying Like many other institutions, our senior design is a two-semester sequence where the first semester concludes with a written design proposal and the second semester culminates in a functional deliverable. As such, teams are typically far from a final deliverable at the conclusion of the first semester. For students who are accustomed to finishing a course project at the end of the semester and experiencing a strong sense of completion, the first semester of the capstone leaves many students

Conference Session

Biomedical Division Poster Session

Collection

2016 ASEE Annual Conference & Exposition

Authors

Won Joo, Robert Morris University

Tagged Topics

Diversity

Tagged Divisions

Biomedical

design.MethodsIn capstone design course, ENGR4520 Design and Manufacturing of Biomedical Device andSystem at Robert Morris University, students were divided into groups (4-5 students per group)and selected their own project. The objective of the course and project were to understandDesign Control3, design, implement, and fabricate the prototype of a medical device thataddresses current market need. Student projects were in many different areas includingorthopedic implants, prosthetics, biomaterials, instrumentation and etc. Each group was requiredto produce a working prototype of the proposed design to assess the functionality of the device.For the groups who selected an orthopedic medical device, such as total joint replacement andtrauma implant

Conference Session

Education Programs in BME

Collection

2016 ASEE Annual Conference & Exposition

Authors

Miiri Kotche, University of Illinois, Chicago

Tagged Divisions

Biomedical

each rotation, teams present problem statements based on insights fromtheir primary research and potential design projects to address the identified needs. Participantsmaintain a blog to capture and reflect on their observations, which also allows them to share theirexperience with the other students. Upon completion of the Bioengineering Clinical Immersionprogram, students are well prepared for the senior design capstone course that emphasizesdevelopment of medical devices conceived from validated end-user needs. This paper alsodiscusses implementation challenges and program modifications, including having medicalstudents team with bioengineering students.2. IntroductionEngineering students entering the medical product industry are often

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

Paper ID #15682Work in Progress:Enhancing Student Leadership Competencies through Re-flectionDr. Dianne Grayce Hendricks, University of Washington Dr. Dianne G. Hendricks is a Lecturer in the Department of Bioengineering at the University of Wash- ington. She earned a BS in Molecular Biology at the University of Texas at Austin and a PhD in Genetics at Duke University. Dr. Hendricks’ teaching interests at the University of Washington include develop- ing and teaching introductory and honors courses in bioengineering, tissue and protein engineering lab courses, and capstone projects. She is committed to creating

Conference Session

Biomedical Division Poster Session

Collection

2016 ASEE Annual Conference & Exposition

Authors

Vladimir Genis, Drexel University (Eng. & Eng. Tech.); Lunal Khuon, Drexel University (Eng. Tech.)

Tagged Divisions

Biomedical

fundamentals of medical imaging equipment and discusses theprinciples of x-ray, computed tomography, ultrasonic, and magnetic resonance imaging systems.As a BET course, the primary focus is on principles of operation, applications, safety, andquality for the imaging equipment.BET 305 Clinical Lab Equipment, 3 credit hoursThis course describes clinical laboratory instrumentation and automation with emphasis on thedemands of clinicians for diagnostic information. Special attention is given to reliability, ease oftraining, and cost effectiveness.The courses MET 421 Senior Project Design I, MET 422 Senior Project Design II, and MET 423Senior Project Design III capture the ET capstone experience through 3 quarters of senior designthat begin in the fall

Conference Session

Innovations in Design within BME Curricula

Collection

2011 ASEE Annual Conference & Exposition

Authors

Aura Gimm, Duke University; Richard Goldberg, University of North Carolina, Chapel Hill; Kevin Caves, Duke University; Robert Malkin, Duke University

Tagged Divisions

Biomedical

experience can be limiting for both student learningand the depth that project teams can achieve. While providing challenging engineering problems,all capstone design courses address basic principles of engineering design, teamwork, technicalcommunications, ethics, and professionalism. In this paper, we will discuss how a few simpledesign challenges have been used in three capstone design courses to practice and applyengineering design principles and problem solving skills. These challenges are relativelyinexpensive to implement and could be done in teams or individually. The competitive aspectsof the challenges can further motivate students. The design challenge goals can be tailored tofocus on specific aspects of design practice or skills, such as

Conference Session

Developments in BME Pedagogy and Assessment

Collection

2011 ASEE Annual Conference & Exposition

Authors

Alyssa Catherine Taylor, University of Washington; Kelli Jayn Nichols, University of Washington, Seattle, Department of Bioengineering; Laura Wright, University of Washington; Christopher Neils, University of Washington

Tagged Divisions

Biomedical

Systems Lab 2 Failure Analysis and Human Physiology 4 TOTAL 26 TOTAL 31 Introduction to BIOEN Capstone 4 BIOEN Capstone Fundamentals 3 (Individual-based Research-Design Project), OR Capstone

Conference Session

Biomedical Division Poster Session

Collection

2014 ASEE Annual Conference & Exposition

Authors

Marcia A. Pool, University of Illinois, Urbana-Champaign; Jennifer L. Groh, Purdue University Women in Engineering Program, West Lafayette; Allison L. Sieving, Purdue University, West Lafayette

Tagged Divisions

Biomedical

contact hours)mini-design project based on a BME capstone senior design project in which each team workedto develop a “smart” gown which could replace traditional hospital gowns and measurephysiological signals (heart rate and respiration). Day 1 consisted of introducing participants toBME, brainstorming ideas for obtaining signals and implementing into a gown (sketchdocumented) and equipment overview. Day 2 involved building, design iteration, andverification testing; it also included gown assembly and planning for a scientific style poster.Day 3 began with an introduction to giving a professional presentation and continued withdeveloping the poster; the day concluded with participants presenting their posters and solutionsto their

Conference Session

Clinical, Patient, and Innovation Experiences in BME

Collection

2017 ASEE Annual Conference & Exposition

Authors

Jennifer Kadlowec, Rowan University; Tom Merrill, Rowan University; Sameer Sood, Rowan University School of Osteopathic Medicine; Jane Greene Ryan; Anilchandra Attaluri, Department of Mechanical Engineering, Pennsylvania State University-Harrisburg; Robert Alan Hirsh, Cooper Medical School of Rowan University

Tagged Divisions

Biomedical

: Into a third yearABSTRACTA need exists to train undergraduate engineering students to indentify and solve healthcareproblems of today and the future. A team of faculty has been contributing to that need byeducating students in a summer Clinical Immersion and Team Based Design program at a mid-Atlantic University. The summer program involves the Biodesign Process, physiology basics,clinical immersion, intellectual property basics, regulatory basics, business perspectives, anddevelopment of best practices. The program participants’ (or Scholars’) deliverables includedneed statements, specifications, and guidelines to pursue as capstone design projects. A briefoverview of the program content and structure is presented in this paper. Assessment of

Conference Session

Biomedical Engineering Division Poster Session

Collection

2015 ASEE Annual Conference & Exposition

Authors

Rohit Bhargava, University of Illinois at Urbana-Champaign; Marcia Pool, University of Illinois, Urbana-Champaign; Andrew Michael Smith, University of Illinois at Urbana-Champaign; P. Scott Carney, Electrical and Computer Engineering, University of Illinois; Dipanjan Pan

Tagged Topics

Diversity

Tagged Divisions

Biomedical

clinical trials, economics, ethics, and regulatorystrategies. Throughout the second year, students will continue working on their research project,with the culmination of the second year being a summer clinical or industrial immersion relevantto the project. In addition to immersion experiences, we are planning tracks: research,entrepreneurship, professional school, and industry; while these are at early stages indevelopment, they are being developed to integrate with other campus activities.Beginning junior year, students will continue undergraduate research while being extensivelytrained in engineering design, in contrast to traditional education which focuses primarily ondesign in the senior capstone course. The coursework for this year is not

Conference Session

Communication and Professional Skills in BME

Collection

2007 Annual Conference & Exposition

Authors

Willis Tompkins, University of Wisconsin-Madison; Naomi Chesler, University of Wisconsin-Madison; Walter Block, University of Wisconsin-Madison; Kristyn Masters, University of Wisconsin-Madison; William Murphy, University of Wisconsin-Madison; Mitchell Tyler, University of Wisconsin-Madison; John Webster, University of Wisconsin-Madison

Tagged Divisions

Biomedical

design specifications and a basic prototype that will be further developed in thesubsequent capstone design course.BME 400 – First-semester seniors improve on the initial prototype and complete theimplementation of their design in this course.BME 402 – Final-semester seniors test, evaluate, improve and produce final documentation oftheir device. In addition, all students complete an outreach requirement, typically by giving a talkin a K-12 classroom. Also all students write their project reports as technical papers in a formatappropriate to a target journal or conference.Every semester, three of these courses are taught (i.e., BME 200, 300 and 400 in the Fall or BME201, 301, and 402 in the Spring). A minimum of two faculty are assigned to each

Conference Session

Innovations in Design within BME Curricula

Collection

2011 ASEE Annual Conference & Exposition

Authors

Naomi C. Chesler, University of Wisconsin, Madison; Christopher L. Brace, University of Wisconsin; Willis J. Tompkins, University of Wisconsin, Madison

Tagged Divisions

Biomedical

changes have been Page 22.1000.10implemented as a result of the assessment process. However, since we do not make changes oneat a time, and since students, design projects, design advisors and Assessment Committeemembers are not constant, the impact of these individual changes is difficult to ascertain.An important limitation of our assessment process is that we evaluate the work output of studentteams, not individual students. This limitation is not unique to our process however. Manyprograms that use capstone senior design projects for ABET assessment are limited to team-based assessment7, 8. An advantage of this practice is that we sample a

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

’ design; and to date, very little work has focused on the process variables and factorsthat potentially influence innovation. This work attempts to investigate such influencers.Data CollectionWe collected data from both senior bioengineering students in their capstone courses, as well asdata about their final prototypes from the faculty instructors. Further, we collected informationfrom experts and practitioners in bioengineering design as input to this study.1. Data Collection From StudentsWe collected data from bioengineering students’ senior capstone projects during the 2007-08 and2008-09 academic years. For this research, we had 26 teams from two institutions thatparticipated in our study. The teams varied from three to five students. For

Conference Session

BME Course and Curriculum Development

Collection

2012 ASEE Annual Conference & Exposition

Authors

Alisha L. Sarang-Sieminski, Franklin W. Olin College of Engineering; Debbie Chachra, Franklin W. Olin College of Engineering

Tagged Divisions

Biomedical

through the senior capstone engineering design project. All students also take courses inmath and science (including physics, chemistry and biology). Together, these courses provide Page 25.417.4students with their technical fundamentals. Required coursework in arts, humanities, the socialsciences and entrepreneurship, including a capstone experience, provides context to their scienceand engineering background.The BioE program, then, complements this engineering foundation by both providing a deepunderstanding of biological systems and through the application of engineering approaches in abioengineering context. Given the limited number of courses

Conference Session

Design in the Curriculum

Collection

2014 ASEE Annual Conference & Exposition

Authors

James D. Sweeney, Florida Gulf Coast University; Kristine R. Csavina, Arizona State University, Polytechnic campus; Lisa Zidek, Florida Gulf Coast University

Tagged Divisions

Biomedical

Electrical and Electronics Engineers. He served as the 2009-10 Program Chair and 2010-11 Division Chair for the Biomedical Engineering Division of the ASEE.Dr. Kristine R. Csavina, Arizona State University, Polytechnic campus Dr. Kristine Csavina recently joined the faculty of the Department of Engineering & Computing Systems at Arizona State University Polytechnic campus, where she is the Associate Director for Engineering Program Innovation. Currently she is the instructor for the senior capstone design experience and ac- tive with the ABET accreditation process for the department, among other courses and responsibilities. Dr. Csavina came to the Polytechnic campus from Florida Gulf Coast University, where she was

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

each of the six semesters of design. BME Design throughout the Curriculum Sophomore 1 BME 200 Sophomore 2 BME 201 Junior 1 BME 300 Junior 2 Senior 1 Senior 2 BME 301 BME 400 BME 402 Phase 1: Phase 2: Phase 3: Phase 4: Peer Guided-design Independent Capstone Design Mentoring Fundamentals LearningFigure 1: The BME design course sequence throughout the curriculum where each semesterstudents work in teams of four or five on client-based design projects. During Phase

Conference Session

Design in BME Education

Collection

2010 Annual Conference & Exposition

Authors

Eric Kennedy, Bucknell University; Donna Ebenstein, Bucknell University

Tagged Divisions

Biomedical

conventionalmachining [1]. These skills are vital for engineers to communicate design ideas, and a basicunderstanding of manufacturing technology helps enable students to consider how a design onpaper might be turned into a physical prototype. Faculty observations and student and alumnifeedback have indicated that these skills are vital for success in classroom design projects suchas senior design, as well as for careers in industry [2]. Page 15.482.2Within the biomedical engineering curriculum at Bucknell University, a fabrication andexperimental design course is integrated into a four course design sequence where two coursescomprise the senior capstone

Conference Session

Clinical, Patient, and Innovation Experiences in BME

Collection

2017 ASEE Annual Conference & Exposition

Authors

Daniel P. Cavanagh, Bucknell University; Joe Tranquillo, Bucknell University

Tagged Divisions

Biomedical

Engineering Education Annual Meeting, Albuquerque, NM, 2001.10. Nasir, M., Kleinke, D.K., and McClelland, M., Multidisciplinary Patient-Centered Capstone Senior Design Projects, American Society for Engineering Education Annual Meeting, New Orleans, LA, 2016.11. Hess, J.L., Fila, N.D., Purzer, S., and Strobel, J., Exploring the Relationship between Empathy and Innovation amongst Engineering Students, American Society for Engineering Education Annual Meeting, Seattle, WA, 2015.12. Hess, J.L. and Fila, N.D., The Development and Growth of Empathy Among Engineering Students, American Society for Engineering Education Annual Meeting, New Orleans, LA, 2016.13. Schmitt, E., Kames, E., Morkos, B., and Conway, T.A., The Importance of

Conference Session

Design in BME Education

Collection

2010 Annual Conference & Exposition

Authors

Richard Goldberg, University of North Carolina, Chapel Hill; Robert Dennis, University of North Carolina; Charles Finley, University of North Carolina, Chapel Hill

Tagged Divisions

Biomedical

, J., “Jumpstarting the capstone experience through a bioengineering product designcourse”, Proceedings of the American Society for Engineering Education (ASEE) Annual Conference, Austin TX,2009.8. Cavanagh, D. and Tranquillo, J., “Preparing students for senior design with a rapid design challenge”,Proceedings of the American Society for Engineering Education (ASEE) Annual Conference, Austin TX, 2009. Page 15.765.129. Tompkins, W., Bernardoni, S., Nimunkar, A., and Lark, T.,“Student-initiated supplemental training curriculumfor support of BME design projects”, Proceedings of the American Society for Engineering Education (ASEE

Conference Session

Innovative Laboratories in BME

Collection

2006 Annual Conference & Exposition

Authors

Joe Tranquillo

Tagged Divisions

Biomedical

engineers experience a senior capstone experience. Thefinal lab in the sequence serves a similar purpose as the senior design but on a smallertime scale. 1) It is important for students to design and conduct their own experiment. 2) Some students will confront failure. It is important in these instances to remind students that technical failures are often successful learning experiences. Page 11.1056.3 3) Students become more independent. 4) Students learn to debug a system.These labs should be fun while building on technical skills. Grading should be basedmore on the process followed rather than the

Conference Session

Biomedical Engineering Poster Session

Collection

2013 ASEE Annual Conference & Exposition

Authors

M. Barbara Silver Thorn, Marquette University; Karla Bustamante, Itesm chihuahua

Tagged Divisions

Biomedical

engineering technical electives, one participated in a capstone designproject, and nearly all students conducted research in a faculty laboratory; no studentsparticipated in an engineering service project, industry internship, or formal clinical rotation asyet.The program supports eight (two at each of the four institutions out of country) studentexchanges per institution, 48 student exchanges total over the 4 year project duration. Theprogram is in its third year; none of the partner institutions have met this target allocation as yet.This may be attributed, at least in part, to the delayed completion of the MOU, personnelchanges affecting incoming student placement as well as recruitment of outgoing students,curriculum revisions affecting

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