1 / 20

SensaMove Arm

SensaMove Arm. SensaMove Technologies Irena Barbulovic-Nad Stefanie Blain Geneviève Gavigan Rohini Gupta Jennifer Kohlenberg Golnaz Vahedi November 30 th , 2005. Where’s my change?.

mauve
Télécharger la présentation

SensaMove Arm

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. SensaMove Arm SensaMove Technologies Irena Barbulovic-Nad Stefanie Blain Geneviève Gavigan Rohini Gupta Jennifer Kohlenberg Golnaz Vahedi November 30th, 2005

  2. Where’s my change? • Problems with current prosthetics (suggested from literature and by individual who uses four prosthetic limbs) • Weight • Audible noise • Unnatural appearance • Durability • Temperature • Speed of arm’s movement • Ease of Use • Functionality

  3. Objective • Develop a prosthetic that improves upon: Functionality Weight Audible noise Ease of use

  4. Outline • Highlights of technology • Biopsychosocial implications • FDA approval • Commercialization • Questions

  5. MMG electrodes User-trained Microprocessor Supinating / pronatingwrist 90º ROM elbow Artificial muscles Electroactive Polymer sensors Open / close hand The SensaMove Arm

  6. Sensors Grip pressure sensor Grip EAP locations Finger pressure sensors

  7. Artificial Muscles Hydrogel Muscle conformation Artificial muscle E.A. Moschou et al. / Sensors and Actuators B xxx (2005) xxx–xxx

  8. Training User Elbow Artificial Neural Network Hand Wrist

  9. ICF Model

  10. Get to Market: FDA Approval Data for Market Submission “Medical Device” Classify Device Step 1 Step 2 Step 3 • Step 1 • defined by 201(h) in FD&C Act • Step 2 • no substantially equivalent • PMA $90,910 • “de novo” process as Class II under 513(f)(2) • 510(k) $3,066 Step 3 • performance standards • clinical performance data • patient registries • post market surveillance • guidelines

  11. Competitors: • Motion Control, Inc. • Otto Bock HealthCare • T.R.S., Inc • Variety Ability Systems Inc.

  12. Can we commercialize?

  13. Source: BCC, Inc Commercialization: Market (USA data) • 350,000 amputees - 30% upper limb loss • 50,000 new amputations/yr - 20% upper limb • Target Clients: 100,000 • Market increase from $5.2 billion in 2005 to $6.8 billion in 2010 (AAGR of 5.5%)

  14. Commercialization: The ‘So-So’ • R&D: • New techniques in preliminary research • Legal: • Concepts: Artificial muscle, MMG, EAP • Commercial: • Acceptance – New training

  15. Commercialization: The ‘Good’ • Legal: • Patentable: Pressure Sensor, Complete arm • People: • Dynamic team • Skilled and Resourceful • Commercial: • Address unmet needs for prosthetics • Reach market in 3 yrs • High market potential

  16. Start Up Company

  17. SensaMove Prosthetics • Lead Product: SensaMove Arm • Platform Technology: Feedback Sensors • Timeline:

  18. Investment = $1.5 M Money Money Money NPV = $7.5 M

  19. Technology that Feels Questions ?

More Related