DOCSLIB.ORG

DMD 2016 Program

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
DMD 2016 Program Design of Medical Devices Conference2016 April 11th, 12th-14th The Commons Hotel & McNamara Alumni Center Minneapolis, MN Welcome to the 15th Annual University of Minnesota Design of Medical Devices Conference The Design of Medical Devices Conference was created in 2001 to enhance collaboration between academia and industry, promote policy, research and educational initiatives as they relate to medical device design and to support medical devices education at the University of Minnesota. This forum, uniquely positioned in the middle of one of the most significant medical device communities in the world, has provided invaluable insight and leadership to promote the future of this evolving industry. Conference attendance has more than tripled since its inception and we look forward to continued growth. The success of this conference is due in large part to the continued support from our industry sponsors and University of Minnesota partners. On behalf of the DMD Planning Committee, we thank you. We hope you enjoy this year’s conference! Sincerely, 2016 Design of Medical Devices Conference Planning Committee The Design of Medical Devices Conference is presented by the University of Minnesota Medical Devices Center (part of the Institute for Engineering in Medicine), the College of Science and Engineering and the Department of Mechanical Engineering. In Cooperation with the Office of University Economic Development, University of Minnesota. Connecting to the Wireless Network The Commons Hotel McNamara Alumni Center Network: Commons Convention Network: UofM Guest Password: DMD2016 (case-sensitive) Follow the prompts to gain access For technical assistance call 612-362-6662 tag #dmdconf in your social media postings Design of Medical Devices Conference 2016 Corporate Sponsors Premier Executive Associate COMPUTER AIDED TECHNOLOGY Supporting Engineering World Health, University of Minnesota MEDICAL DEVICES CENTER Medical Device Innovation Workshop “Becoming a Medical Technology Innovator” Monday, April 11, 2016 Pinnacle Ballroom, The Commons Hotel 7:00 am Check-in and Continental Breakfast Welcome and Introduction 8:00 am Paul Iaizzo and William Durfee, University of Minnesota "How New Medical Products are Developed" 8:25 am William Durfee, Mechanical Engineering, University of Minnesota “Global Markets for Medical Devices” 9:10 am Tim Laske, Vice President, Research and Business Development, Medtronic AF Solutions "Creativity Basics: Warming the brain." 9:40 am Barry Kudrowitz, College of Design, University of Minnesota 10:15 am Networking Break “Market Assessments” 10:40 am Mike Finch, Acting Director, MILI Carlson School of Management, University of Minnesota 11:10 am Innovation Exercise 1: Generate an Idea that Solves a Need 12:00 pm Networking Lunch "Evaluating Your Medical Device Idea Using Bench Tests, Animal Tests and Clinical Trials" 12:45 pm Paul Iaizzo, Surgery, Institute for Engineering in Medicine, University of Minnesota “Medical Device Regulations” 1:30 pm Susan Alpert, Executive in Residence, MILI, University of Minnesota "Reimbursement for Medical Devices" 2:05 pm Mike Finch, Acting Director, MILI, Carlson School of Management, University of Minnesota “Protecting Your Intellectual Property Through Patents” 2:40 pm William Durfee, Mechanical Engineering, University of Minnesota 3:20 pm Networking Break 3:35 pm Innovation Exercise 2: Develop a New Medical Technology Product 4:20 pm Team Presentations “The Corporate View of Technology Assessments and Acquisitions” 4:40 pm Tim Laske, Vice President, Research and Business Development, Medtronic AF Solutions “How to Build a Medical Device Company” 5:10 pm Michael Hoey, Co-Founder & Chief Technology Officer, NxThera Inc. "Panel Discussion: Medical Technology Innovation" 5:40 pm Panelists: Michael Hoey, Tim Laske and Susan Alpert 6:00 pm Adjourn 2016 Design of Medical Devices Conference www.dmd.umn.edu ADDITIONS TO THE 2016 PROGRAM International Student Design Showcase Judges Tuesday, April 12, 5:30-7:30, University Hall, McNamara Alumni Center Shai Ashkenazi, University of Minnesota Alec Johnson, St. Thomas University Dawn Bardot, Medical Device Innovation Consortium Steve Saliterman, University of Minnesota Jim Fairman, QFO Labs Chris Scorzelli, Medical Devices Consultant Danny Gelfman, Medtronic, Inc. Alena Talkachova, University of Minnesota Joe Hale, University of Minnesota Greg Voss, University of Minnesota Elizabeth Hsiao-Wecksler, University of Illinois at Urbana–Champaign Government Funding of Start-ups Wednesday, April 13, 10:30-12:00 12, Thomas H. Swain Room, McNamara Alumni Center Speaker Addition: “SBIR Research Funding for Start-ups” Ruth Shuman, Program Director, National Science Foundation Three-in-Five Competition Wednesday, April 13, 8:00-10:00, Meridian Ballrooms 2/3, The Commons Hotel Speaker Change: “Design of a Low-cost Social Robot for Children with Complex Communication Needs” DMD2016-8444 Sadra Hemmati, Department of Mechanical, Aerospace, and Biomedical Engineering, University of Tennessee Associate Level Sponsor Supporting Level Sponsor Engineering World Health University of Minnesota Office of University Economic Development Advancing new medical device technologies and promoting business growth in Minnesota frontdoor.umn.edu FEATURED EXHIBIT A Heart to Learn Tuesday & Wednesday from 8:00am-4:00pm (closed during lunches) Thursday from 8:00am-12:00pm Think 4, The Commons Hotel This is an interactive display of perfusion fixed human hearts courtesy of the Visible Heart® Laboratory and the Department of Surgery. This is a unique library of human hearts received from organ donors and their families via LifeSource and the University of Minnesota’s Anatomy Bequest Program. Perfusion fixation dilates these hearts as if they were filled with blood (diastole). Additionally, computer stations will be available to introduce The Atlas of Human Cardiac Anatomy and utilize during the display. The Atlas of Human Cardiac Anatomy is an interactive educational site created and maintained by the Visible Heart® Laboratory at the University of Minnesota in collaboration with Medtronic, Inc. This site features images created from the Visible Heart® project, a novel educational tool which allows for viewing functional human cardiac anatomy from within. www.vhlab.umn.edu Tuesday, April 12, 2016 7:00 a.m. The Commons Hotel CARDIOVASCULAR KEYNOTE LIVE CLINICAL CASE: ABDOMINAL Meridian Ballrooms 2/3 Registration and Continental Breakfast AORTIC ANEURYSM Session Organizer: The Commons Hotel A.I Johnson Great Room Paul Iaizzo, University of Minnesota 8:00 a.m. Meridian Ballrooms 1-4 McNamara Alumni Center The Commons Hotel Moderator: Ablating Ventricular Fibrillation - Towards a Reality Conference Welcome and Plenary Session Dan Kussman, Boston Scientific Corporation Samuel Asirvatham Mayo Clinic Moderators: St. Mary Medical Center Surgeons: Arthur Erdman, University of Minnesota David Drucker, MD, FACC, FSCAI Unmet Needs in Structural Heart Disease William Durfee, University of Minnesota George Heyrich, MD, FACC, FSCAI, FSCCT Sameer Gafoor Swedish Medical Center On the Design of Bionic Leg Devices: The Science of Extreme Interface FUNCTIONAL & QUANTITATIVE IMAGING ADVANCES IN MEDICAL DEVICES 1 Hugh Herr Ski-U-Mah Meridian Ballroom 4 Massachusetts Institute of Technology Session Organizer: McNamara Alumni Center Session Organizer: The Commons Hotel Emad Ebbini, University of Minnesota Matthew Johnson, University of Minnesota Moderator: Meridian Foyer, The Commons Hotel Diffusion MRI for Imaging the Brain and Spine Vincenzo Parenti-Castelli, University of Bologna 10:00 a.m. - 10:30 a.m. Christophe Lenglet Tracheal Cartilage Ring Biomechanical Properties SPONSOR EXHIBIT SHOWCASE University of Minnesota for Pediatric Exostent Design (DMD2016-8474) Functional MR Parameter Mapping in the Teja Karkhanis 10:30 a.m. - 12:00 p.m. Texas A&M University Concurrent Technical Sessions Myocardium Mehmet Akçakaya A New Test Rig for Human Joint and Prosthesis NEUROENGINEERING 1: NEURAL University of Minnesota Characterization (DMD2016-8436) Vincenzo Parenti-Castelli RECORDING DEVICES Perfusion Imaging Using Contrast Enhanced University of Bologna Meridian Ballroom 1 Ultrasound Session Organizers: The Commons Hotel Emad Ebbini A Rigid Mechanism with Uniform, Variable Tay Netoff, University of Minnesota University of Minnesota Curvature (DMD2016-8483) Taner Akkin, University of Minnesota Kaitlin Oliver Butler A Next Generation Brain Technology for Very-Large- MEDICAL DEVICE INNOVATION University of Tennessee Scale Recording and Precise Stimulation Thomas H. Swain Room Session Organizer: McNamara Alumni Center Thematic Framing: Creating Healthcare Innovations Zhi Yang (DMD2016-8495) Joe Hale, University of Minnesota University of Minnesota Willem Mees van der Bijl Presenters/Participants: ide Group Automatic Patch Clamp and Devices for Intracellular Tom KraMer Recordings Kablooe Design CM&RS 1: AN INTRO TO FDA MEDICAL DEVICE DEVELOPMENT TOOLS (MDDT) Suhasa Kodandaramaiah Brian Mullins AND UPDATES FROM SUBMITTERS University of Minnesota Kablooe Design A.I. Johnson Great Room Clinical Studies at Neuropace Brian Krohn Session Organizers: McNamara Alumni Center Ritu Kapur University of Minnesota Mark Horner, ANSYS, Inc. NeuroPace, Inc. Brad Slaker Dawn Bardot, Medical Device Innovation Consortium University of Minnesota What is an MDDT and How Does Qualification Work? CYBERSECURITY Donna Lochner Meridian Ballrooms 2/3 12:15 p.m. Memorial Hall U.S. Food and Drug Administration Session Organizer:
Load more

Recommended publications
  • Meet the Faculty Candidates
    MEET THE FACULTY CANDIDATES Candidates are displayed in alphabetically by last name. Prospective employers are invited to attend and while no event pre-registration is required however they must be registered for the BMES 2018 Annual Meeting. A business card will be required to enter the event. COMPLETE DETAILED CANDIDATE INFORMATION AVAILABLE AT www.bmes.org/faculty. Specialty - Biomaterials Alessia Battigelli Woo-Sik Jang Sejin Son John Clegg Patrick Jurney Young Hye Song R. Cornelison Kevin McHugh Ryan Stowers Yonghui Ding Yifeng Peng Varadraj Vernekar Victor Hernandez-Gordillo Shantanu Pradhan Scott Wilson Marian Hettiaratchi Eiji Saito Yaoying Wu Era Jain Andrew Shoffstall Specialty - Biomechanics Adam Abraham Vince Fiore Panagiotis Mistriotis Edward Bonnevie Zeinab Hajjarian Simone Rossi Alexander Caulk Xiao Hu Alireza Yazdani Venkat Keshav Chivukula Heidi Kloefkorn Rana Zakerzadeh Jacopo Ferruzzi Yizeng Li Specialty - Biomedical Imaging Mahdi Bayat Chong Huang Katheryne Wilson Zhichao Fan Jingfei Liu Kihwan Han Alexandra Walsh Specialty - BioMEMS Jaehwan Jung Aniruddh Sarkar Mengxi Wu Specialty - Cardiovascular Engineering Reza Avaz Kristin French Zhenglun (Alan) Wei Specialty - Cellular Engineering Annie Bowles Kate Galloway Kuei-Chun Wang Alexander Buffone Laurel Hind Mahsa Dabagh Matthew Kutys See other side for more candidates Specialty - Device Engineering (Microfluidics, Electronics, Machine-Body interface) Taslim Al-Hilal Brian Johnson David Myers Jungil Choi Tae Jin Kim Max Villa Haishui Huang Jiannan Li Ying Wang Specialty
    [Show full text]
  • USI2019 Usievents.Com
    2019 24 25 usievents.com #USI2019 line-up Robert PLOMIN MRC Research Professor of Behavioural Genetics, Institute of Psychiatry, Psychology and Neuroscience KING’S COLLEGE LONDON THE IMPLICATIONS OF THE DNA REVOLUTION Prof. Plomin is one of the world’s top behavioral geneticists who offers a unique, insider’s view of the exciting synergies that came from combining genetics and psychology. His research shows that inherited DNA differences are the major systematic force that make us who we are as individuals. The DNA Revolution, namely using DNA to predict our psychological problems and promise from birth, calls for a radical rethink about what makes us who we are, with sweeping—and no doubt controversial—implications for the way we think about parenting, education and the events that shape our lives. A pioneer of what’s sometimes called “hereditarian” science. - The Guardian - Read Blueprint: How DNA makes us who we are Sylvia EARLE Robert Oceanographer PLOMIN © Todd Richard_ synergy productions synergy Richard_ © Todd NO WATER, NO LIFE. NO BLUE, NO GREEN Dr. Sylvia Earle is a living legend. If the celebrated oceanographer, marine biologist, explorer, author, and lecturer isn’t already your hero, allow us to enlighten you. ‘Her Deepness’ has spent nearly a year of her life underwater, logging more than 7,000 hours beneath the surface. She has led countless deep-sea expeditions, was the first female chief scientist of the National Oceanic and Atmospheric Administration, and the first human—male or female—to complete an untethered walk across the seafloor at a depth of 1,250 feet. Sylvia has been a National Geographic explorer-in-residence since 1998, and continues to share her knowledge and experiences on stage, through film, in writing, and beyond.
    [Show full text]
  • Control of a Powered Ankle-Foot Prosthesis Based on a Neuromuscular Model
    TNSRE – 2009-00034 1 Control of a Powered Ankle-Foot Prosthesis Based on a Neuromuscular Model Michael F. Eilenberg, Hartmut Geyer, and Hugh Herr, Member, IEEE devices permit some energy storage during controlled Abstract— Control schemes for powered ankle-foot prostheses dorsiflexion and plantar flexion, and subsequent energy rely upon fixed torque-ankle state relationships obtained from release during powered plantar flexion, much like the Achilles measurements of intact humans walking at target speeds and tendon in the intact human [3], [4]. Although this passive- across known terrains. Although effective at their intended gait elastic behavior is a good approximation to the ankle's speed and terrain, these controllers do not allow for adaptation to environmental disturbances such as speed transients and terrain function during slow walking, normal and fast walking speeds variation. Here we present an adaptive muscle-reflex controller, require the addition of external energy, and thus cannot be based on simulation studies, that utilizes an ankle plantar flexor implemented by any passive ankle-foot device [5]-[7]. This comprising a Hill-type muscle with a positive force feedback deficiency is reflected in the gait of transtibial amputees using reflex. The model's parameters were fitted to match the human passive ankle-foot prostheses. Their self-selected walking ankle’s torque-angle profile as obtained from level-ground speed is slower, and stride length shorter, than normal [8]. In walking measurements of a weight and height-matched intact subject walking at 1 m/sec. Using this single parameter set, addition, their gait is distinctly asymmetric: the range of ankle clinical trials were conducted with a transtibial amputee walking movement on the unaffected side is smaller [9], [10], while, on on level ground, ramp ascent, and ramp descent conditions.
    [Show full text]
  • Human Enhancement Technologies and Our Merger with Machines
    Human Enhancement and Technologies Our Merger with Machines Human • Woodrow Barfield and Blodgett-Ford Sayoko Enhancement Technologies and Our Merger with Machines Edited by Woodrow Barfield and Sayoko Blodgett-Ford Printed Edition of the Special Issue Published in Philosophies www.mdpi.com/journal/philosophies Human Enhancement Technologies and Our Merger with Machines Human Enhancement Technologies and Our Merger with Machines Editors Woodrow Barfield Sayoko Blodgett-Ford MDPI • Basel • Beijing • Wuhan • Barcelona • Belgrade • Manchester • Tokyo • Cluj • Tianjin Editors Woodrow Barfield Sayoko Blodgett-Ford Visiting Professor, University of Turin Boston College Law School Affiliate, Whitaker Institute, NUI, Galway USA Editorial Office MDPI St. Alban-Anlage 66 4052 Basel, Switzerland This is a reprint of articles from the Special Issue published online in the open access journal Philosophies (ISSN 2409-9287) (available at: https://www.mdpi.com/journal/philosophies/special issues/human enhancement technologies). For citation purposes, cite each article independently as indicated on the article page online and as indicated below: LastName, A.A.; LastName, B.B.; LastName, C.C. Article Title. Journal Name Year, Volume Number, Page Range. ISBN 978-3-0365-0904-4 (Hbk) ISBN 978-3-0365-0905-1 (PDF) Cover image courtesy of N. M. Ford. © 2021 by the authors. Articles in this book are Open Access and distributed under the Creative Commons Attribution (CC BY) license, which allows users to download, copy and build upon published articles, as long as the author and publisher are properly credited, which ensures maximum dissemination and a wider impact of our publications. The book as a whole is distributed by MDPI under the terms and conditions of the Creative Commons license CC BY-NC-ND.
    [Show full text]
  • Hugh Herr Wants to Build a More Perfect Human
    strategy+business ISSUE 85 WINTER 2016 Hugh Herr Wants to Build a More Perfect Human At MIT’s Media Lab, an engineer and biophysicist — and double amputee — is designing prosthetics that connect body and brain. BY SALLY HELGESEN REPRINT 16410 feature innovation 1 AT MIT’S MEDIA LAB, AN ENGINEER AND BIOPHYSICIST — AND HUGHDOUBLE AMPUTEE — IS DESIGNING PROSTHETICS THAT CONNECT BODY AND HERR BRAIN BY SALLY HELGESEN feature WANTS innovation TO BUILD A MORE 2 PERFECT HUMAN Sally Helgesen [email protected] is an author, speaker, and leadership development consultant whose most recent book is The Female Vision: Women’s Real Power at Work (with Julie Johnson; Berrett- Koehler, 2010). Hugh Herr sits at a table in his austere glass office we have to ask ourselves now is: What would be more in the famous Media Lab at the Massachusetts Institute useful here, skin or polymer? Fit, function, comfort, and feature of Technology, scrolling through images of a striking aesthetics will dictate our decisions.” fashion model born without a right forearm. As head of A computer scientist, mechanical engineer, and biomechatronics research at MIT and one of the world’s biophysicist, Herr is himself a double amputee. And innovation leading developers of wearable robotics, Herr is making his immersion in robotics was initially driven by a per- a point about how disability is becoming obsolete as the sonal quest to develop superior prosthetics. By analyz- boundary between humans and robots vanishes. ing human motion, studying how electronic devices The model, Rebekah Marine, strikes a pose on the interface with the nervous system, and using live mus- runway.
    [Show full text]
  • ÉDITION Unexpected Sourcesusievents.Com of Inspiration François HISQUIN Président & Curateur D'usi
    ÉDITION Unexpected Sourcesusievents.com of Inspiration François HISQUIN Président & Curateur d'USI VERS UNE SOCIÉTÉ INCLUSIVE, RÉSILIENTE ET ÉCORESPONSABLE Il y a 12 ans, en lançant la première conférence USI, nous avions la conviction que l’IT jouerait un rôle fondamental dans la transformation de nos Sociétés. Nos convictions n’ont pas changé. Résolument visionnaires, nous souhaitons offrir à tous une conférence novatrice et singulière, pour explorer, challenger et questionner les grands enjeux de notre avenir. Au service, dans un premier temps, d’un développement purement économique, les technologies sont aujourd’hui présentes dans toutes les strates de la société et nous poussent à redéfinir nos pratiques, nos valeurs et notre responsabilité. Face à l’immensité des enjeux, le seul objectif qui vaille, celui d’une société inclusive, résiliente, écoresponsable et offrant à tous une meilleure qualité de vie, ne pourra être atteint qu’en mobilisant toutes les ressources possibles. Les technologies sont souvent tenues comme grandes responsables de nos maux, mais ne renferment-elles pas une partie de la solution ? USI décrypte les transformations sociétales au sens large en conviant des visionnaires engagés. Philosophes, chercheurs, experts en cybersécurité, économistes, sociologues, scientifiques, éthologues, ou encore astrophysiciens... Tous ont choisi USI pour nous aider à donner du sens à nos transformations. Donner du sens, mais aussi du temps. Laisser la part belle à la créativité et à la réflexion, avant de passer à l’action. Car agir,
    [Show full text]
  • The Age of Living Machines
    THE AGE OF LIVING MACHINES HOW BIOLOGY WILL BUILD THE NEXT TECHNOLOGY REVOLUTION SUSAN HOCKFIELD W. W. NORTON & COMPANY Independent Publishers Since 1923 New York | London TO TOM AND ELIZABETH, FOR THEIR CONSTANT PATIENCE, WISDOM, AND LOVE. CONTENTS Prologue 1 WHERE THE FUTURE COMES FROM 2 CAN BIOLOGY BUILD A BETTER BATTERY? 3 WATER, WATER EVERYWHERE 4 CANCER-FIGHTING NANOPARTICLES 5 AMPLIFYING THE BRAIN 6 FEEDING THE WORLD 7 CHEATING MALTHUS, ONCE AGAIN: Making Convergence Happen Faster Acknowledgments Notes Index PROLOGUE For the last couple of decades, as a dean and then provost at Yale, and then as president and now president emerita of the Massachusetts Institute of Technology (MIT), I’ve had the privilege of looking over the scientific horizon, and what I’ve seen is breathtaking. Ingenious and powerful biologically based tools are coming our way: viruses that can self-assemble into batteries, proteins that can clean water, nanoparticles that can detect and knock out cancer, prosthetic limbs that can read minds, computer systems that can increase crop yield. These new technologies may sound like science fiction, but they are not. Many of them are already well along in their development, and each of them has emerged from the same source: a revolutionary convergence of biology and engineering. This book tells the story of that convergence—of remarkable scientific discoveries that bring two largely divergent paths together and of the pathbreaking researchers who are using this convergence to invent tools and technologies that will transform how we will live in the coming century. We need new tools and technologies.
    [Show full text]
  • Annual Report 2017 Annual Report 2017 of the Christian Doppler Laboratory for Restoration of Extremity Function
    CD- Laboratory for Restoration of Extremity Function Annual Report 2017 Annual Report 2017 of the Christian Doppler Laboratory for Restoration of Extremity Function Report Authors: Oskar C. Aszmann, Clemens Gstöttner, Aron Cserveny Head and Address of the Christian Doppler Laboratory Prof. Dr. Oskar C. Aszmann Division of Plastic and Reconstructive Surgery Department of Surgery Medical University of Vienna Spitalgasse 23 1090 Vienna, AUSTRIA Phone: +43 1 40400 69940 / 68290 Fax: +43 1 40400 69820 Email: [email protected] Web: www.bionicreconstruction.com Table of Contents Introduction 5 Press Highlights 2017 7 2017 – A Year in Numbers 8 Vienna – Bionic Capital of Europe 10 Projects Overview 12 Scientific Output 20 Funding 29 Awards & Scholarships 30 Cooperations 32 Teaching & Public Relations 34 Impressions of a Great Year 36 People 38 2018 – An Outlook 48 Annex – Projects in Detail 50 Introduction 2017 has been the sixth year since the inauguration of the With her special gift of writing she has compiled their CD-Laboratory for Restoration of Extremity Function. The amazing stories in our textbook “Bionische Rekonstruk- foundations have been laid out wide and well providing a tion – Wieder herstellung an der Grenze zwischen Mensch solid structure for the current tasks and future growth. In und Maschine”, which will be published by the Manz Verlag the life-cycle of the Lab we have reached a plateau and in March 2018. The psychological dimension of losing bodily steady-state both in regards to the number of PhD students integrity and finding restoration in mechatronic parts has and projects that are under way.
    [Show full text]
  • Hugh Herr Press Release
    EMBARGOED FOR RELEASE Contacts: Jon Newman SEPTEMBER 12, 2007 (804) 788-1414 Russ Martz (412) 497-5775 Biomechatronics Pioneer Honored with $250,000 Heinz Award for Technology, the Economy and Employment Dr. Hugh Herr recognized for breakthrough innovations in prosthetics and orthotics PITTSBURGH, September 12, 2007 – A double amputee whose trailblazing work in the emerging field of biomechatronics has led to the development of new prosthetic innovations that merge body and machine has been selected to receive the 13th annual Heinz Award for Technology, the Economy and Employment, among the largest individual achievement prizes in the world. Dr. Hugh Herr, 43, a professor at the Massachusetts Institute of Technology’s Media Lab whose advances in prosthetics and orthotics – technology that marries robotics and human biomechanics – have given greater mobility and new hope to those with physical disabilities, is among six distinguished Americans selected to receive one of the $250,000 awards, presented in five categories by the Heinz Family Foundation. “Everything about Dr. Herr is an expression of the triumph of the human spirit over adversity,” said Teresa Heinz, chairman of the Heinz Family Foundation. “His breakthrough advances in rehabilitation technologies are immeasurably improving the quality of life for thousands of people with physical challenges, but for him, every breakthrough is just an invitation to push harder and do more. Accomplished yet modest, determined yet good natured, he approaches his work with great skill and great wonder. Both his life and his inventions demonstrate what an unbeatable combination that is.” - more - Page 2 of 5 – Heinz Awards, Technology, the Economy and Employment With more than 36,000 new amputees in the United States every year – including hundreds of American soldiers who have lost limbs in the War in Iraq and Afghanistan since 2001 – Dr.
    [Show full text]
  • MIT 150 | Hugh Herr SM '93
    MIT 150 | Hugh Herr SM '93 INTERVIEWER: Today is November 16, 2015. I'm Barbara Seidl. And as part of MIT's Infinite History Project, we're speaking with Professor Hugh Herr. Professor Herr heads the Biomechatronics Research Group at the MIT Media Lab, is associate professor of media arts and science at MIT, and associate professor at the Harvard MIT division of Health Sciences and Technology. His revolutionary work in the emerging field of biomechatronics focuses on developing physically assistive technologies that are intimate extensions of the human body. A double amputee himself, he's hailed as the leader of the bionic age for his breakthrough advances in bionic limbs that emulate the function of natural limbs, and for challenging us to rethink the meaning of disability and the potentials of human augmentation. Professor Herr, thank you so much-- HERR: Thank you. INTERVIEWER: --for speaking with us today. So it's well known that you are a prodigious climber, and have been since a very young age. And I wonder if you would take us back to growing up in rural Pennsylvania, and what it was that got you started in climbing-- got you started to being the person you are now. HERR: My parents were adventurous, and that led the family every summer to going on extended road trips across North America, often three-month trips out to California and then into Canada and to Alaska, often. And in those trips we would hike and canoe and fish. And the adventure became more and more pronounced. And the walls became steeper and steeper.
    [Show full text]
  • Uncertain Bioethics
    Uncertain Bioethics “Stephen Napier argues with verve and subtlety for a cautious and restrained approach to acts of killing in bioethics; central to his argu- ment is the difficulty of being sure that active interventions are per- missible. This book intriguingly combines insights from a wide variety of different recent philosophical literatures to offer an important and interesting contribution to numerous current debates.” Sophie-Grace Chappell, Professor of Philosophy at Open University, UK Bioethics is a field of inquiry and as such is fundamentally an epistemic discipline. Knowing how we make moral judgments can bring into relief why certain arguments on various bioethical issues appear plausible to one side and obviously false to the other. Uncertain Bioethics makes a significant and distinctive contribution to the bioethics literature by culling the insights from contemporary moral psychology to highlight the epistemic pitfalls and distorting influences on our apprehension of value. Stephen Napier also incorporates research from epistemology addressing pragmatic encroachment and the significance of peer disa- greement to justify what he refers to as epistemic diffidence when one is considering harming or killing human beings. Napier extends these developments to the traditional bioethical notion of dignity and argues that beliefs subject to epistemic diffidence should not be acted upon. He proceeds to apply this framework to traditional and developing issues in bioethics including abortion, stem cell research, euthanasia, decision- making for patients in a minimally conscious state, and risky research on competent human subjects. Stephen Napier is an associate professor of philosophy at Villanova University. His previous publications include Virtue Epistemology: Motivation and Knowledge, and he edited Persons, Moral Worth, and Embryos.
    [Show full text]
  • Aaron M. Dollar Updated 1/6/20 15 Prospect St
    Aaron M. Dollar Updated 1/6/20 15 Prospect St. Becton 215 New Haven, CT 06511 Office - (203) 436-9122 [email protected] http://www.eng.yale.edu/grablab/ PROFESSIONAL EXPERIENCE Yale University Professor (July 2019 - present) Associate Professor with Tenure (Jan. 2016-June 2019) John J. Lee Associate Professor on Term (Jan. 2014 – Dec. 2015) John J. Lee Assistant Professor (Oct. 2012 – Dec. 2013) Assistant Professor (Jan. 2009 – Oct. 2012) Department of Mechanical Engineering and Materials Science Providence Veterans Affairs Medical Center, Rhode Island Research Associate, Without Compensation (WOC) (Fall 2011 – present) Brown University Visiting Professor (June 2014 – June 2015) Department of Ecology and Evolutionary Biology (Host: Prof. Stephen Gatesy) Scuola Superiore Sant’Anna, Pisa, Italy Visiting Professor (Jan. 2012 – July 2012) Biorobotics Institute (Host: Prof. Maria Chiara Carrozza) Massachusetts Institute of Technology Postdoctoral Associate (Dec. 2006 – Dec. 2008) Harvard/MIT Health Sciences and Technology and MIT Media Lab Research Advisor: Hugh Herr EDUCATION Harvard University Ph.D. Engineering Sciences (2007) S.M. Engineering Sciences (2002) Dissertation Title: “Design Principles for Robust Grasping in Unstructured Environments” Thesis Advisor: Robert D. Howe University of Massachusetts at Amherst B.S. Mechanical Engineering (2000) HONORS AND AWARDS Major Awards: UMass Amherst College of Engineering Outstanding Junior Alumni Award, Sept. 2016 NASA Early Career Faculty Award, July 2014 DARPA Young Faculty Award, July
    [Show full text]