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Thread: Miscellaneous

  1. #11


    Interview with Mir Imran: Medical device innovation challenges and solutions in 2013

    Published on Jan 9, 2013

    UBM Canon's Vu Nguyen chats with InCube Labs' Mir Imran about Medical device innovation challenges and solutions in 2013.

  2. #12


    Systems Biology - Curing Diseases with the Help of Robots
    September 15, 2012

  3. #13


    Mechanical luck
    February 8, 2014

    "Of course, if it's a man takes away from me, then it all goes much much faster. This feeling: I as physically Limited can not make 'a lot, with the help of technology. I think that's great. "Lena Kredel brings the future into the present. Together with a robot is part of a research project at the Institute of Automation in Bremen. The goal is to return people like Lena their autonomy.

  4. #14
    transparencymarketresearch.com/medical-robotic-systems.html

    Medical Robotic Systems Market (Surgical Robots, Non-Invasive Radiosurgery Robotic Systems, Prosthetics and Exoskeletons, Assistive and Rehabilitation Robots, Non-Medical Robotics in Hospitals and Emergency Response Robotic Systems) - Global Industry Analysis, Size, Share, Growth, Trends and Forecast 2012 - 2018

    Description


    The use of robotic surgery systems in medical procedures dates back to the 1980s. Since then, this market has experienced tremendous growth in terms of product innovation and development as well as uptake by end-users. The major advantages of these systems include improved surgical outcomes, accurate procedure execution and rapid post-surgical recovery of the patient. In addition to these factors, the growing global aging population and increase in the per-capita healthcare expenditure are set to drive future growth of this market.

    This report studies the market for medical robotic systems by different types of systems including surgical robots, non-invasive radiosurgery, emergency response, prosthetics, assistive & rehabilitation and non-medical robotic systems. The global market has been segmented based on these systems, and market size and forecasts for the period 2010 to 2018 have been provided for each segment, in terms of USD million. The CAGR (%) of each market segment for the forecast period 2012 to 2018 has also been provided, considering 2011 as the base year.

    The market has also been segmented geographically into four regions, namely, North America, Europe, Asia and RoW, and respective market sizes have been highlighted for each of these regions. A qualitative analysis of the market dynamics including the factors responsible for driving and restraining growth of this market, and future opportunities is described in the market overview section.

    The competitive landscape section includes market share analysis of all the leading players in this market, for the year 2011. Some of the major players profiled in this report include Accuray, Inc., Hansen Medical, Inc., Intuitive Surgical, Varian Medical Systems, iRobot Corporation, MAKO Surgical Corp. and Stereotaxis, Inc.
    The global medical robotic systems market is segmented as follows:
    Global medical robotic systems market, by segments
    Surgical Robots
    Orthopedic Robotic Systems
    Robodoc surgical system
    MAKO RIO surgical system
    iBlock surgical system
    Navio PFS surgical system
    Stanmore Sculptor surgical system
    Neurosurgery robotic systems
    NeuroMate surgical system
    Pathfinder surgical system
    Renaissance surgical system
    General laparoscopy robotic systems
    Da Vinci robotic surgery system
    FreeHand endoscope holder system
    Telelap ALF-X surgical system
    Noncatheter percutaneous robotic systems
    InnoMotion robot arm system
    Steerable catheters
    Sensei X robotic catheter system
    Niobe remote magnetic navigation system
    Non-invasive Radiosurgery Robotic Systems
    CyberKnife robotic radiosurgery system
    TrueBeam STx radiosurgery system
    Gamma Knife Perfexion radiosurgery system
    Emergency response robotic systems
    AutoPulse Plus robotic system
    LS-1 robotic system
    Others
    Prosthetics/Exoskeletons
    Rheo – knee prosthetic
    C-leg - knee prosthetic
    i-limb ultrahand – hand prosthetic
    ReWalk - walking assistance exoskeleton
    Assistive and rehabilitation systems
    Handy 1 assistive robot
    iARM - robotic arm
    Mobility System – muscle re-education device
    Lokomat rehabilitation system
    Non-medical robotics in hospitals
    Telemedicine robots
    Cart transportation robots
    Robotic hospital pharmacy
    Global medical robotic systems market, by geography
    North-America
    Europe
    Asia-Pacific
    Rest of the World (RoW)

  5. #15


    Published on Dec 12, 2013

    Device Improves Neuroplasticity for Quicker Recovery. An apparatus for the rehabilitation of stroke victims is conquering hospitals. It is being tested in particular by the CHUV hospital in Lausanne, Switzerland and soon by the Stanford Stroke Center in the United States.

  6. #16
    Article "Prospects for Medical Robots"

    by Vadali Shanthi and Sravani Musunuri
    September 5, 2007

    Topics Covered
    Abstract
    Introduction
    What are Nanorobots
    Elements of Nanorobots
    The Constituents and Design of Nanorobots
    Approaches for the Construction of Nanorobots
    Recognition of Target Site by Nanorobots
    Strategies Employed by Nanorobots for Evading the Immune System
    Nanorobots in Cancer Detection and Treatment
    Practical Example of Nanorobots Approach for Cancer Detection and Treatment
    Nanorobots in the Diagnosis and Treatment of Diabetes
    Controlling Glucose Level using Nanorobots
    Respirocyte - An Artificial Oxygen Carrier Nanorobot
    Artificial Phagocytes – Microbivores Nanorobots
    Chromallocyte: A Hypothetical Mobile Cell-Repair Nanorobot
    Further Applications of Nanorobots
    Conclusion
    References
    Contact Details

  7. #17


    RoboBusiness 2013 keynote
    October 25, 2013

    Aethon and El Camino Hospital co-present the keynote talk at RoboBusiness 2013 and discuss an Intralogistics(tm) implementation using 20 TUG robots in the hospital to deliver medications, laboratory specimens, meals, materials, trash and linens.

  8. #18


    ASK NAO : Be part of the journey

    Published on Oct 24, 2013

    ASK NAO (Autism Solution for Kids) was created by Aldebaran Robotics to customize NAO, our humanoid robot, in order to support teachers with in-class tasks and help children with autism reach new levels of greatness.

    This initiative was developed after noticing that many children with Autism seem impulsively attracted to technology therefore allowing NAO to become the perfect bridge between technology and our human social world.

    ASK NAO clears the path for a revolution in thinking, driven by those who are most intimate with Autism and technology. Altogether with NAO, we can shape the special education world of tomorrow for the best of the children.

    To accomplish this Aldebaran Robotics is creating a multi-sided community made up of developers, therapists, researchers, teachers, parents, enthusiasts, and the Aldebaran team collaborating to help children at surpassing their limits!

    Stay in touch with us:
    www.asknao.com

  9. #19


    RI Seminar: Pierre E. Dupont : Creating Robots for Ultra-minimally Invasive Surgery

    Streamed live on Sep 20, 2013
    Pierre E. Dupont
    Boston Children Hospital, Harvard Medical School

    September 20, 2013

    Abstract
    Image-guided minimally invasive surgery has revolutionized the standard of care throughout the body. While robotics has been an important part of the solution for certain laparoscopic procedures, its impact has been limited by the size and straight-line access requirement of many existing robotic systems. Our lab is investigating smaller, less-invasive robot technologies and two will be described in this talk. The first is a type of continuum robot that is based on concentrically combining pre-curved elastic tubes. We are designing these robots together with a tool set with the goal of converting intracardiac procedures currently performed as open-heart surgery to percutaneous, beating-heart interventions. We are also developing tetherless robots that can move or swim inside the body and that are powered, controlled and imaged using an MRI scanner. Applications of this technology at several length scales will be discussed including robotic implants for applying tissue traction forces and millimeter-scale robots for targeted drug delivery.

    Speaker Biography
    Pierre E. Dupont is Chief of Pediatric Cardiac Bioengineering and holder of the Edward P. Marram Chair at Boston Children's Hospital. His academic appointments include Visiting Professor of Surgery at Harvard Medical School and Professor of Biomedical Engineering at Boston University. His research group develops robotic instrumentation and imaging technology for minimally invasive surgery. He received the BS, MS and PhD degrees in Mechanical Engineering from Rensselaer Polytechnic Institute, Troy, NY, USA. After graduation, he was a Postdoctoral Fellow in the School of Engineering and Applied Sciences at Harvard University, Cambridge, MA, USA. He subsequently moved to Boston University, Boston, MA, USA where, until 2009, he was a Professor of Mechanical Engineering and Biomedical Engineering. His group has received a number of paper awards including the King-Sun Fu Best Paper Award of the IEEE Transactions on Robotics in 2010 and the IEEE ICRA Best Medical Robotics Paper Award in 2012. He is an IEEE Fellow who has served in many capacities with the IEEE Robotics and Automation Society.

  10. #20


    First of its Kind in North Texas: Scarless Robotic Hysterectomy at Medical City Dallas Hospital
    May 22, 2013

    A surgical team at Medical City performed the first single site hysterectomy using the da Vinci robot on May 9. The patient’s uterus, ovaries and cervix were removed after Medical City’s Dr. Thomas Heffernan made one tiny incision in the belly button. The procedure is virtually scarless, due to the natural appearance of the navel. Traditional robotic surgeries require three to four small incisions. Dr. Heffernan is one of a small group of surgeons in the nation, and one of only two in Texas, who is trained to perform the single-site robotic surgery. Benefits of the surgery include minimal pain, low blood loss, and a typical hospital stay of 24 hours. This particular patient took two-mile walks just days after the surgery.

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