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Rehabilitation Robots: Market Shares, Strategies, and Forecasts, Worldwide, 2015 to 2021
Mountains of Opportunity
Picture by Susan Eustis
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REPORT # SH26281852 659 PAGES 266 TABLES AND FIGURES 2015
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Lexington, Massachusetts
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CHECK OUT THESE KEY TOPICS
Rehabilitation Robots, Active Prostheses, and Exoskeletons: Patients Achieve
Faster, More Long Lasting Rehabilitation Support
Rehabilitation Robots Stroke Protocols
Active Prostheses Exoskeletons
Robotic Technologies Leverage Neuroplasticity
Wearable Robotics Strengthen The Upper
Extremity
Strengthen The Lower Extremity
Hand Rehabilitation Physical Therapy Automation
Recovery After Hip Injury Wrist Rehabilitation
Stroke Rehabilitation Rehabilitation Robots
Software
Hip Rehabilitation Anti-Gravity Treadmill
Continuous Positive Motion CPM
Spinal Cord Injury
Rehabilitation
Rehabilitation Robots, Active Prostheses, and Exoskeletons: Economies of Care
Delivery and Higher Quality Rehabilitation Provide Growth Strategy
Rehabilitation Robots: Market Shares, Strategies, and Forecasts, Worldwide,
2015-2021
LEXINGTON, Massachusetts (March 23, 2015) – WinterGreen Research announces that it has published
a new study Rehabilitation Robots: Market Shares, Strategy, and Forecasts, Worldwide, 2014 to 2020.
The 2015 study has 659 pages, 266 tables and figures. Worldwide markets are poised to achieve
significant growth as the rehabilitation robots, active prostheses, and exoskeletons are used inside
rehabilitation treatment centers and sports facilities providing rehabilitation for all patients with injuries
or physical dysfunction.
Relearning of lost functions in a patient depends on stimulation of desire to conquer the disability. The
rehabilitation robots can show patients progress and keep the progress occurring, encouraging patients
to work on getting healthier. Independent functioning of patients depends on intensity of treatment,
task-specific exercises, active initiation of movements and motivation and feedback. Rehabilitation
robots can assist with these tasks in multiple ways. Creating a gaming aspect to the rehabilitation process
has brought a significant improvement in systems.
As patients get stronger and more coordinated, a therapist can program the robot to let them bear more
weight and move more freely in different directions, walking, kicking a ball, or even lunging to the side to
catch one. The robot can follow the patient’s lead as effortlessly as a ballroom dancer, its presence nearly
undetectable until it senses the patient starting to drop and quickly stops a fall. In the later stages of
physical therapy, the robot can nudge patients off balance to help them learn to recover.
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According to Susan Eustis, principal author of the team that developed the market research study,
“Robotic therapy stimulus of upper limbs provides an example of the excellent motor recovery after
stroke that can be achieved using rehabilitation robots.” Lower limb systems and exoskeleton systems
provide wheelchair bound patients the ability to get out of a wheelchair
No company dominates the entire rehabilitation robot market sector. The products that work are still
emerging as commercial devices. All the products that are now commercially viable are positioned to
achieve significant staying power in the market long term, providing those companies that offer them
with a possibility for long term leadership position in the market.
The companies you would expect to see as participating in these markets, the leaders in the wheelchair
markets re not there with any significant presence. The exoskeletons will challenge the wheel chairs,
providing a supplement to the wheelchair, permitting disabled people to have some more mobility than
they have now.
Robotic rehabilitation equipment is mostly used in rehabilitation clinical facilities. There is a huge
opportunity for launching a homecare equipment market if it is done through sports clubs rather than
through clinical facilities. People expect insurance to pay for medical equipment but are willing to spend
bundles on sports trainer equipment for the home. Rehabilitation robots can help stroke patients years
after an event, so it makes a difference if someone keeps working to improve their functioning.
Vendors will very likely have to develop a strong rehabilitation robotic market presence as these devices
evolve a homecare aspect. The expense of nursing home rehabilitation has been very high, limiting the
use of rehabilitation to a few weeks or months at the most.
Rehabilitation robots realistically extend the use of automated process for rehabilitation in the home.
The availability of affordable devices that improve mobility is not likely to go unnoticed by the sports
clubs and the baby boomer generation, now entering the over 65 age group and seeking to maintain
lifestyle.
As clinicians realize that more gains can be made by using rehabilitation robots in the home, the pace of
acquisitions will likely pick up.
Rehabilitation robot market size at $203.3 million in 2014 is expected grow dramatically to reach $1.1
billion by 2021. Exoskeleton markets will be separate and additive to this market. A separate
exoskeleton market will create more growth. Market growth is a result of the effectiveness of robotic
treatment of muscle difficulty. The usefulness of the rehabilitation robots is increasing. Doing more
sophisticated combinations of exercise have become more feasible as the technology evolves. Patients
generally practice 1,000 varied movements per session. With the robots, more sessions are possible.
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WinterGreen Research is an independent research organization funded by the sale of market research
studies all over the world and by the implementation of ROI models that are used to calculate the total
cost of ownership of equipment, services, and software. The company has 35 distributors worldwide,
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WinterGreen Research supports various market segment programs; provides trusted technical services
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Rehabilitation Robots, Active Prostheses, Exoskeletons , Robotic Technologies Leverage Neuroplasticity, Wearable
Robotics, Strengthen The Upper Extremity, Strengthen The Lower Extremity, Hand Rehabilitation, Physical Therapy
Automation, Recovery After Hip Injury, Wrist Rehabilitation, Stroke Rehabilitation, Rehabilitation Robots Software, Hip
Rehabilitation, Anti-Gravity Treadmill, Spinal Cord Injury Rehabilitation,
Companies Profiled
Market Leaders
AlterG Myomo InMotion Robots Hocoma Ekso Bionics Patterson Chatanoonga
Market Participants
Berkley Robotics and Human
Engineering Laboratory
Biodex
Bioness
Catholic University of America
Biodex
Bioness
DJO Global
Fanuc
Focal Meditech
Furniss
Hocoma
Honda Motor
Instead Technologies
Invacare
iRobot
Interactive Motion Technologies
(IMT)
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InMotion Robots
Interaxon
KDM
Kinova
KLC Services
Medi
MRISAR
Orthocare Innovations
Patterson
ProMed Products Xpress
Reha-Stim
Robotdalen
RSL Steeper
RU Robots
Secom
Sunrise Medical
Touch Bionics
Tyromotion
Rehabilitation Robots: Market Shares, Strategies, and Forecasts, Worldwide, 2015 to 2021
Report Methodology
This is the 628th report in a series of primary market research reports that provide forecasts in
communications, telecommunications, the Internet, computer, software, telephone equipment, health
equipment, and energy. Automated process and significant growth potential are priorities in topic selection.
The project leaders take direct responsibility for writing and preparing each report. They have significant
experience preparing industry studies. Forecasts are based on primary research and proprietary data bases.
The primary research is conducted by talking to customers, distributors and companies. The survey data is
not enough to make accurate assessment of market size, so WinterGreen Research looks at the value of
shipments and the average price to achieve market assessments. Our track record in achieving accuracy is
unsurpassed in the industry. We are known for being able to develop accurate market shares and projections.
This is our specialty.
The analyst process is concentrated on getting good market numbers. This process involves looking at the
markets from several different perspectives, including vendor shipments. The interview process is an essential
aspect as well. We do have a lot of granular analysis of the different shipments by vendor in the study and
addenda prepared after the study was published if that is appropriate.
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Forecasts reflect analysis of the market trends in the segment and related segments. Unit and dollar
shipments are analyzed through consideration of dollar volume of each market participant in the segment.
Installed base analysis and unit analysis is based on interviews and an information search. Market share
analysis includes conversations with key customers of products, industry segment leaders, marketing
directors, distributors, leading market participants, opinion leaders, and companies seeking to develop
measurable market share.
Over 200 in depth interviews are conducted for each report with a broad range of key participants and
industry leaders in the market segment. We establish accurate market forecasts based on economic and
market conditions as a base. Use input/output ratios, flow charts, and other economic methods to quantify
data. Use in-house analysts who meet stringent quality standards.
Interviewing key industry participants, experts and end-users is a central part of the study. Our research
includes access to large proprietary databases. Literature search includes analysis of trade publications,
government reports, and corporate literature.
Findings and conclusions of this report are based on information gathered from industry sources, including
manufacturers, distributors, partners, opinion leaders, and users. Interview data was combined with
information gathered through an extensive review of internet and printed sources such as trade publications,
trade associations, company literature, and online databases. The projections contained in this report are
checked from top down and bottom up analysis to be sure there is congruence from that perspective.
The base year for analysis and projection is 2010. With 2010 and several years prior to that as a baseline,
market projections were developed for 2011 through 2017. These projections are based on a combination of a
consensus among the opinion leader contacts interviewed combined with understanding of the key market
drivers and their impact from a historical and analytical perspective. The analytical methodologies used to
generate the market estimates are based on penetration analyses, similar market analyses, and delta
calculations to supplement independent and dependent variable analysis. All analyses are displaying selected
descriptions of products and services.
This research includes reference to an ROI model that is part of a series that provides IT systems financial
planners access to information that supports analysis of all the numbers that impact management of a product
launch or large and complex data center. The methodology used in the models relates to having a
sophisticated analytical technique for understanding the impact of workload on processor consumption and
cost.
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WinterGreen Research has looked at the metrics and independent research to develop assumptions that
reflect the actual anticipated usage and cost of systems. Comparative analyses reflect the input of these
values into models.
The variables and assumptions provided in the market research study and the ROI models are based on
extensive experience in providing research to large enterprise organizations and data centers. The ROI models
have lists of servers from different manufacturers, Systems z models from IBM, and labor costs by category
around the world. This information has been developed from WinterGreen research proprietary data bases
constructed as a result of preparing market research studies that address the software, energy, healthcare,
telecommunicatons, and hardware businesses.
YOU MUST HAVE THIS STUDY
Rehabilitation Robots: Market Shares, Strategies, and Forecasts, Worldwide,
2015-2021
Table of Contents Rehabilitation Robots, Active Prostheses, and Exoskeleton devices automate process in a manner that significantly
extends the time rehabilitation is useful, dramatically increasing the value of the rehabilitation. Advanced
Rehabilitation Robots, Active Prostheses, and Exoskeletons technologies are associated with emerging technology to
improve the quality of life for people with disabilities. Technologies that make Rehabilitation Robots, Active
Prostheses, and Exoskeletons feasible are closely associated with new materials and smaller, lighter, more feature
loaded electronics, software, and sensors.
Rehabilitation Robots, Active Prostheses, and Exoskeletons Executive Summary
The study is designed to give a comprehensive overview of the Rehabilitation Robots, Active Prostheses,
and Exoskeleton device market segment. Research represents a selection from the mountains of data
available of the most relevant and cogent market materials, with selections made by the most senior
analysts. Commentary on every aspect of the market from independent analysts creates an independent
perspective in the evaluation of the market. In this manner the study presents a comprehensive overview
of what is going on in this market, assisting managers with designing market strategies likely to succeed.
Rehabilitation Robot Table of Contents
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REHABILITATION ROBOTS MARKET SHARES, MARKET STRATEGY, AND MARKET FORECASTS, 2015 TO 2021 1
REHABILITATION ROBOT EXECUTIVE SUMMARY 32
Rehabilitation Robot Market Driving Forces 32
Rehabilitation Robots Assistive Devices 33
Rehabilitation Robots Decrease the Cost of Recovery 34
Rehabilitation Robot Medical Conditions Treated 36
Robotic Modules for Disability Therapy 37
Wearable Robotics for Disability Therapy 38
Rehabilitation Robots Leverage Principles Of Neuroplasticity 40
Rehabilitation Robot Market Shares 41
Rehabilitation Robot Market Forecasts 43
1. REHABILITATION ROBOT MARKET DESCRIPTION AND MARKET DYNAMICS 45
1.1 Stroke Rehabilitation 45
1.1.1 Stroke Protocols 45
1.1.2 Rehabilitation Medicine: New Therapies in Stroke Rehabilitation 46
1.1.3 Botulinum Toxin Injections 47
1.1.4 Constraint Induced Movement Therapy (CIMT) 48
1.1.5 Dynamic Splinting 48
1.1.6 Electrical Stimulation 49
1.1.7 Robotic Therapy Devices 49
1.1.8 Partial Body Weight-Supported Treadmill 50
1.1.9 Virtual Reality (including Wii-hab) 50
1.1.10 Brain Stimulation 51
1.1.11 Acupuncture 51
1.1.12 Mental Practice 51
1.1.13 Mirror Therapy 51
1.1.14 Hyperbaric Oxygen Therapy 52
1.1.15 Evidence-Based Treatment Protocols 52
1.2 Restoring Physical Function Through Neuro-Rehabilitation After Stroke 53
1.2.1 Traumatic Brain Injury Program 56
1.2.2 Concussion Program 56
1.2.3 Hospital Stroke Programs Rapid Response to Create Better Outcomes 57
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1.2.4 Stroke Response Process Leverage Protocols that Implement Streamlined Timely Treatment 57
1.3 Rehabilitation Physical Therapy Trends 60
1.3.1 Running with Robots 62
1.3.2 Use Of Video Game Technology In PT 62
1.3.3 Telemedicine Growing Trend In The Physical Therapy Space 63
1.4 Rehabilitation Robot Market Definition 64
1.4.1 Automated Process for Rehabilitation Robots 65
1.4.2 Why Rehabilitation is Essential 72
1.4.3 Rehabilitation Involves Relearning of Lost Functions 73
1.5 Continuous Passive Motion CPM Definition 76
1.6 Robotic Exoskeletons Empower Patient Rehabilitation Achievements 78
1.6.1 Rehabilitation Options 78
1.6.2 Rehabilitation Robots Economies Of Scale 79
1.7 Seizing the Robotics Opportunity 80
1.7.1 Modular Self-Reconfiguring Robotic Systems 81
1.8 Public Aware That Robotics Have “Arrived” 81
1.8.1 Rehabilitation Robotics Centers Of Excellence 82
1.9 Home Medical Rehabilitation Robots 83
1.9.1 Telemedicine and Domestic Robots 83
1.9.2 Rehabilitation Robots Provide Intensive Training For Patients And Physical Relief For Therapists 85
2. REHABILITATION ROBOT MARKET SHARES AND MARKET FORECASTS 86
2.1 Rehabilitation Robot Market Driving Forces 86
2.1.1 Rehabilitation Robots Assistive Devices 87
2.1.2 Rehabilitation Robots Decrease the Cost of Recovery 88
2.1.3 Rehabilitation Robot Medical Conditions Treated 90
2.1.4 Robotic Modules for Disability Therapy 91
2.1.5 Wearable Robotics for Disability Therapy 92
2.1.6 Rehabilitation Robots Leverage Principles Of Neuroplasticity 94
2.2 Rehabilitation Robot Market Shares 95
2.2.1 AlterG Bionic Leg Customer Base 98
2.2.2 Myomo 98
2.2.3 Interactive Motion Technologies (IMT) InMotion Robots 100
2.2.4 Hocoma Robotic Rehabilitation 101
2.2.5 Homoca Helping Patients To Grasp The Initiative And Reach Towards Recovery 102
2.2.6 Ekso Bionics Robotic Suit Helps Paralyzed Man Walk Again 106
2.2.7 Rehabilitation Robot Market Share Unit Analysis 107
2.2.8 Motorized CPM Stroke Rehabilitation Equipment Market Shares 109
2.3 Rehabilitation Robot Market Forecasts 111
2.3.1 Rehabilitation Robot Unit Shipments 114
2.3.2 Rehabilitation Robots Market Segments: Lower Extremities, Upper Extremities,
Neurological Training, Exoskeleton, Stroke CPM 116
2.3.3 Rehabilitation Robots: Dollars and Units, High End, Mid Range, and Low End, Shipments 122
2.3.4 Rehabilitation Robot Market Penetration Forecasts Worldwide, 2014-2020 123
2.4 Types of Conditions and Rehabilitation Treatment by Condition 128
2.4.1 Stroke 129
2.4.2 Early Rehab After Stroke 129
2.4.3 Multiple sclerosis 129
2.4.4 Knee-Replacement Surgery 130
2.4.5 Hip 131
2.4.6 Gait Training 132
2.4.7 Sports Training 133
2.4.8 Severe Injury or Amputation 133
2.4.9 Neurological Disorders 134
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2.4.10 Recovery After Surgery 135
2.5 Types of Rehabilitation Robots and Conditions Treated 135
2.5.1 Gait Training Devices / Unweighting Systems 135
2.5.2 Neuro-Rehabilitation 136
2.5.3 Prostheses 138
2.5.4 Motorized Physiotherapy CPM (Continuous Passive Motion), CAM Therapy
(Controlled Active Motion) and the Onboard Protocols 139
2.5.5 Gait Training Devices / Unweighting Systems / Automated Treadmills 139
2.5.6 Rehabilitation Therapy Robotics Market 140
2.5.7 Upper Limb Robotic Rehabilitation 140
2.5.8 Shoulder Biomechanics 141
2.5.9 Exoskeletons 143
2.5.10 End-effectors 143
2.5.11 Exoskeleton-Based Rehabilitation 143
2.5.12 Mobility Training Level Of Distribution 144
2.5.13 Rehabilitation Robots Cost-Benefit-Considerations 145
2.5.14 Rehabilitation Systems 146
2.5.15 Spinal Cord Injuries 147
2.6 Rehabilitation Robot And Motorized CPM Equipment 148
2.7 Disease Incidence and Prevalence Analysis 151
2.7.1 Robotic Therapeutic Stroke Rehabilitation 151
2.7.2 Aging Of The Population 152
2.7.3 Disease Rehabilitation 153
2.7.1 Rehabilitation of Hip Injuries 154
2.8 Service Robots 155
2.8.1 iRobot / InTouch Health 156
2.8.2 Next Generation Personal And Service Robotics 158
2.9 Rehabilitation Robotics Prices 159
2.9.1 Danniflex 480 Lower Limb CPM Unit 159
2.9.2 Shop for Patterson Kinetec CPM 160
2.9.3 Chattanooga Atromot 166
2.9.4 Ekso Bionics 176
2.9.5 Interaxon Muse 178
2.10 Rehabilitation Robotics Regional Analysis 179
2.10.1 Ekso Bionics Regional Presence 180
3. REHABILITATION ROBOTS, ACTIVE PROSTHESES, AND EXOSKELETON PRODUCTS 182
3.1 Lower limb Stroke Rehabilitation Devices 182
3.2 Hocoma Products 183
3.2.1 Hocoma Supports Clinicians And Patients In Neurorehabilitation 187
3.2.2 Hocoma's Lokomat Gait Orthosis Automates Locomotion Therapy On A Treadmill 187
3.2.3 Hocoma Lokomat Intensive Locomotion Therapy 188
3.2.4 Hocoma Lokomat Training 188
3.2.5 Hocoma Lokomat Robotic Gait-Training Device Aims To Change The Part Of The
Brain That Controls Motor Function 189
3.2.6 Hocoma Lokomat Functional Electrical Stimulation 191
3.2.7 Hocoma Lokomat Advanced Motion Analysis 191
3.2.8 Hocoma Rehabilitation Robotics 194
3.2.9 Hocoma ArmeoSpring for Stroke Victims 198
3.2.10 Hocoma ArmeoSpring Based On An Ergonomic Arm Exoskeleton 200
3.2.11 Hocoma Armeo®Spring Clinical Success 201
3.2.12 Hocoma Armeo Functional Therapy Of The Upper Extremities 202
3.2.13 Hocoma Armeo®Spring - Functional Arm and Hand Therapy 203
3.2.14 Hocoma Valedo Functional Movement Therapy For Low Back Pain Treatment 205
3.2.15 Hocoma Sensor-Based Back Training For Valedo®Motion 207
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3.2.16 Hocoma Erigo Early Rehabilitation And Patient Mobilization 207
3.2.17 Hocoma Early Rehabilitation with Robotic Mobilization and Functional
Electrical Stimulation 208
3.3 Hobart Group / MedInvest Group / Motorika 209
3.3.1 Motorika ReoAmbulator Innovative Robotic Gait Training System 210
3.3.2 Motorika 211
3.4 Interactive Motor Technologies Anklebot 213
3.4.1 IMT Anklebot Evidence-Based Neurorehabilitation Technology 213
3.4.2 Interactive Motion Technologies (IMT) InMotion Robots Stroke Recovery 216
3.4.3 Biomarkers Of Motor Recovery 218
3.4.4 Robotic Tools For Neuro-Rehabilitation 218
3.4.5 Interactive Motion Technologies (IMT) Stroke — Upper Extremity Rehabilitation 219
3.4.6 Interactive Motion Technologies (IMT) Robot Provides Long
Lasting Rehabilitation Improvements 220
3.4.7 InMotion Robot Medical Conditions Treated 222
3.4.8 InMotion HAND™ Robot 226
3.4.9 InMotion ARM™: Clinical Version Of The MIT-Manus 228
3.4.10 Interactive Motion Technologies (IMT) InMotion ARM™ Software 231
3.4.11 Interactive Motion Technologies (IMT) InMotion EVAL™ 234
3.4.12 Interactive Motion Technologies (IMT) Maximum Shoulder Force 235
3.4.13 Interactive Motion Technologies (IMT) Long Lasting Improvements 241
3.4.14 MIT-MANUS 243
3.5 AlterG: PK100 PowerKnee 245
3.5.1 AlterG Bionic Leg 247
3.5.2 Alterg / Tibion Bionic Leg 249
3.5.3 AlterG Bionic Leg Customer Base 251
3.5.4 AlterG M300 251
3.5.5 AlterG M300 Robotic Rehabilitation Treadmill 255
3.6 Biodex Unweighting Systems 257
3.6.1 Pneumex Unweighting Systems from Biodex 261
3.7 Honda Gait Training 263
3.7.1 Honda Motor ASIMO Humanoid Robot 267
3.8 Mobility Research LiteGait 271
3.9 Upper Limb Stroke Rehabilitation Devices 275
3.10 Tyromotion AMADEO® -For Individual Fingers or the Entire
Hand Neurological Rehabilitation 276
3.10.1 Amado® Finger-Hand Rehabilitation 278
3.10.2 Tyromotion Amadeo® System Premier Mechatronic Finger Rehabilitation Device 281
3.11 Myomo Neuro-Robotic Myoelectric Arm Orthosis System 283
3.11.1 Myomo Brace For Medical Professionals Permits A Paralyzed Individual
To Perform Activities Of Daily Living 283
3.11.2 Myomo EMG 285
3.11.3 Myomo mPower 1000 Indications For Use 286
3.11.4 Myomo mPower 1000 Warnings 287
3.12 Focal Meditech BV Mealtime Support and Stress Reduction: Hand Function 288
3.12.1 Focal Meditech BV Personal Robot Jaco 289
3.12.2 Focal Meditech BV Dynamic Rehabilitation Robotic Arm Supports 289
3.12.3 Focal Meditech BV Innovative Assistive Technology 292
3.13 Catholic University of America Arm Therapy Robot ARMin III 295
3.13.1 Catholic University of America Armin Iii Project Description: 296
3.13.2 Catholic University of America HandSOME Hand Spring Operated Movement Enhancer 297
3.14 Kinova Robotarm Jaco 297
3.14.1 Invacare / Kinova 301
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3.15 Neurological Training 302
3.15.1 Neuro-Rehabilitation 303
3.16 Interaxon 303
3.16.1 Interaxon Muse: Brainwave Category Biometrics 307
3.16.2 InteraXon Motivates Change Of Brain 309
3.16.3 Interaxon Muse Improves Response To Stress, Lowers Blood Pressure 309
3.16.4 Interaxon Muse Gives Self-Control 310
3.16.5 Interaxon Muse Can Improve Emotional State 311
3.16.6 Interaxon Muse Extended Use Lasting Results 312
3.16.7 Interaxon Muse Types of Feedback 312
3.17 Active Prostheses 313
3.17.1 Neuronal-Device Interfaces 314
3.18 Orthocare Innovations Prosthesis 314
3.18.1 Orthocare Innovations Edison™ Adaptive Vacuum Suspension System 316
3.18.2 Orthocare Innovations Edison Adaptive Prosthesis 317
3.18.3 Orthocare Innovations Intelligent Adaptive Prosthesis 317
3.18.4 Orthocare Innovations Edison Leg and Ankle 318
3.18.5 Orthocare Innovations Europa 323
3.18.6 Orthocare Innovations Galileo Connector Technology 324
3.19 RSL Steeper Hand Prostheses 325
3.19.1 RSL Steeper Electronic Assistive Technology Devices for the Home 325
3.20 Pererro - Switch | Access | Control 327
3.20.1 Pererro+ 327
3.20.2 RSL Steeper V3 Myoelectric Hand 329
3.21 Touch Bionics’ i-limb 333
3.21.1 Touch Bionics i-limb Muscle Triggers 334
3.21.2 Touch Bionics I-Limb Methods For Switching Modes 335
3.21.3 Touch Bionics Prostheses 339
3.21.4 Touch Bionics Active Prostheses 345
3.22 RU Robots 348
3.22.1 RU Robots Sunflower Robot 350
3.22.2 RU Robots Sophisticated Interactions 351
3.22.3 RU Robots Care-o-bot 353
3.23 Instead Technologies 354
3.23.1 Instead Technologies RoboTherapist3D and 2D 355
3.23.2 Instead Technologies RoboTherapist3D 355
3.23.3 Instead Technologies Ultrasound Breast Volumes BreastExplorer 360
3.23.4 Instead Technologies Technology-Based Company 363
3.23.5 Instead Technologies Services: 365
3.24 Exoskeletons 366
3.24.1 Muscle Memory 366
3.25 Ekso Bionics 367
3.25.1 Ekso Gait Training Exoskeleton Uses 373
3.25.2 Ekso Bionics Rehabilitation 378
3.25.3 Ekso Bionics Robotic Suit Helps Paralyzed Man Walk Again 381
3.26 Berkley Robotics Laboratory Exoskeletons 381
3.26.1 Berkley Robotics and Human Engineering Laboratory ExoHiker 382
3.26.2 Berkley Robotics and Human Engineering Laboratory ExoClimber 384
3.26.3 Berkeley Lower Extremity Exoskeleton (BLEEX) 386
3.26.4 Berkley Robotics and Human Engineering Laboratory Exoskeleton 386
3.27 Reha-Stim Gait Trainer GT I 388
3.27.1 Reha-Stim Gait Trainer Target Market 391
3.27.2 Reha-Stim Bi-Manu-Track 392
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3.27.3 Reha-Stim Bi-Manu-Track Hand and Wrist 392
3.28 Motorized Physiotherapy CPM (Continuous Passive Motion), CAM
Therapy (Controlled Active Motion) and the Onboard Protocols 395
3.28.1 Movement Of Synovial Fluid To Allow For Better Diffusion Of
Nutrients Into Damaged Cartilage 397
3.29 Chattanooga Active-K CPM (Continuous Passive Motion) 398
3.29.1 Chattanooga OptiFlex® 3 Knee Continuous Passive Motion (CPM) 408
3.29.2 Continuous Passive Motion Machines (CPM) 410
3.29.3 Chattanooga OptiFlex Ankle Continuous Passive Motion (CPM) 412
3.29.4 Chattanooga OptiFlex S Shoulder Continuous Passive Motion (CPM) 415
3.29.5 Chattanooga OptiFlex Elbow Continuous Passive Motion (CPM) 418
3.29.6 Chattanooga OptiFlex S Shoulder Continuous Passive Motion (CPM) 421
3.30 Paterson Kinetec CPM 423
3.30.1 Paterson / Kinetec Spectra Knee CPM 424
3.31 Global Medical 427
3.32 Furniss Corporation 430
3.32.1 Furniss Corporation Continuous Passive Motion DC2480 Knee CPM 435
3.33 Danniflex 437
3.33.1 Danniflex 480 Lower Limb CPM Unit 438
3.34 Rehab-Robotics Company 440
3.34.1 Rehab-Robotics Hand of Hope 442
3.34.2 Rehab-Robotics Hand & Arm Training 447
3.35 Bioxtreme 449
3.36 Corbys 450
3.36.1 Corbys System Overview 451
3.37 Swtotek Motion Maker 455
4. REHABILITATION ROBOTS TECHNOLOGY 456
4.1 Robotic Actuator Energy 456
4.1.1 Elastic Actuators 457
4.1.2 InMotion Robots Technology 458
4.2 Rehabilitation Robotic Risk Mitigation 459
4.3 Rehabilitation Robot Multi-Factor Solutions 463
4.3.1 Biometallic Materials Titanium (Ti) and its Alloys 463
4.4 Berkley Robotics and Human Engineering Laboratory 464
4.5 Rehabilitation Robot Automated Technique 464
4.5.1 InMotion Robots Technology 466
4.6 HEXORR: Hand EXOskeleton Rehabilitation Robot 468
4.7 ARMin: Upper Extremity Robotic Therapy 473
4.8 HandSOME: Hand Spring Operated Movement Enhancer 473
4.9 Cognitive Science 475
4.10 Lopes Gait Rehabilitation Device 476
4.11 Artificial Muscle 477
4.12 ReWalk™ Exoskeleton Suit 478
5. REHABILITATION ROBOT COMPANY PROFILES 480
5.1 AlterG 480
5.1.1 AlterG M300 Customers 483
5.1.2 AlterG M300 488
5.1.3 AlterG™ Acquires Tibion Bionic Leg 489
5.2 Berkley Robotics and Human Engineering Laboratory 490
5.3 Biodex 494
5.3.1 Biodex Clinical AdvantageTM 494
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5.4 Bioness 495
5.5 Bioxtreme 496
5.6 Breg 497
5.7 Catholic University of America HandSOME Hand Spring Operated Movement Enhancer 498
5.8 Claflin Rehabilitation Distribution 498
5.9 DJO Global 505
5.9.1 DJO Global Trademarks, Service Marks And Brand Names 509
5.9.2 DJO Global Business Activities 509
5.9.3 DJO / Chattanooga 510
5.9.4 Chattanooga OptiFlex® Knee Continuous Passive Motion (CPM) 511
5.10 Ekso Bionics 513
5.10.1 Ekso Fourth Quarter And Full Year 2014 Financial Results 514
5.10.2 Ekso Bionics Seeks To Lead The Technological Revolutions 515
5.10.3 Ekso Bionics HULC Technology Licensed to the Lockheed Martin Corporation 516
5.10.4 Ekso Bionics Regional Presence 516
5.10.5 Ekso Bionics Customers 517
5.11 Fanuc 525
5.11.1 Fanuc Revenue 525
5.11.2 FANUC America - Industrial Robot Automation Systems and ROBODRILL Machine Centers 526
5.12 Focal Meditech 527
5.12.1 FOCAL Meditech BV Collaborating Partners: 529
5.13 Hobart Group / Motorika 530
5.13.1 Motorika 531
5.14 Hocoma 532
5.14.1 Hocoma Revenue 535
5.15 Honda Motor 536
5.15.1 Honda Motor Revenue 536
5.15.2 Honda Automobile Business 538
5.15.3 Honda Walk Assist 542
5.16 Instead Technologies 543
5.16.1 Instead Technologies Services: 545
5.17 Interactive Motion Technologies (IMT) 546
5.17.1 Interactive Motion Technologies (IMT) InMotion Robots 547
5.18 Interaxon 554
5.19 iRobot 555
5.19.1 iRobot Home Robots 556
5.19.2 iRobot Defense and Security: Protecting Those In Harm’s Way 556
5.19.3 iRobot Remote Presence: Brings Meaningful Communication 557
5.19.4 iRobot STEM 558
5.19.5 iRobot Acquires Evolution Robotics, Inc. 559
5.19.6 iRobot / Evolution Robotics 560
5.19.7 iRobot / InTouch Health 561
5.20 KDM 564
5.21 Kinova 565
5.21.1 Kinova JACO 565
5.22 KLC Services 566
5.23 Medi 566
5.24 Mobility Research 566
5.25 MRISAR 568
5.26 Myomo 569
5.26.1 Myomo mPower 1000 569
5.27 Orthocare Innovations 570
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5.27.1 Orthocare Innovations Adaptive Systems™ For Advanced O&P Solutions. 570
5.27.2 Orthocare Innovations Company Highlights 571
5.28 Patterson 572
5.28.1 Patterson Medical Strategy 573
5.28.2 Patterson Medical Brands 574
5.28.3 PMI Acquires Mobilis Healthcare 574
5.28.4 Patterson Medical Business Segments 575
5.28.5 Patterson Medical Products and Services 576
5.28.6 Patterson Medical Consumables 576
5.28.7 Patterson Medical Equipment and Software 577
5.29 ProMed Products Xpress 577
5.30 Rehab-Robotics Company 577
5.31 Reha-Stim 578
5.31.1 Reha-Stim Support Patients In Restoring And Improving Gait Function 579
5.31.2 Reha-Stim Support Patients In Restoring Arm And Hand Function 579
5.32 ReWalk Robotics 580
5.33 Robotdalen 581
5.34 RSL Steeper 582
5.35 RU Robots 583
5.36 Secom 585
5.36.1 Secom Co.Ltd MySpoon 588
5.36.2 Secom Co.Ltd MySpoon Manual Mode 588
5.36.3 Secom Co.Ltd MySpoon Semi-automatic Mode 590
5.36.4 Secom Co. Ltd MySpoon Automatic Mode 592
5.37 Sunrise Medical 593
5.37.1 Sunrise Medical Quality Policy 595
5.37.2 Sunrise Medical Whitmyer Biomechanics 595
5.38 Touch Bionics 598
5.39 Tyromotion GmbH 600
5.39.1 Tyromotion GmbH Network 601
5.40 Other Rehabilitation Robot Companies 603
5.40.1 Additional Rehabilitation Robots 620
5.40.2 Selected Rehabilitation Equipment Companies 623
5.40.3 Spinal Cord Treatment Centers in the US 637
ABOUT THE COMPANY 654
Research Methodology 655
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List of Tables and Figures
Table ES-1 35
Rehabilitation Robot Market Driving Forces 35
Table ES-2 36
Rehabilitation Robot Medical Conditions Treated 36
Table ES-3 37
Stroke Rehabilitation Guidelines For Interactive Robotic Therapy 37
Table ES-4 38
Extremity Rehabilitation Robot Technology 38
Table ES-5 39
Health Care Conditions Treated With Rehabilitation Wearable Robotics 39
Table ES-6 41
Robotic Technologies Leverage Principles Of Neuroplasticity 41
Figure ES-7 42
Rehabilitation Robot Market Shares, Dollars, Worldwide, 2014 42
Figure ES-8 44
Rehabilitation Robot Market Forecasts Dollars, Worldwide, 2015-2021 44
Table 1-1 47
Stroke Rehabilitation Technology Modalities 47
Table 1-2 54
Neuro-Rehabilitation patient Conditions Addressed 54
Table 1-3 55
Neuro-rehabilitation Services 55
Table 1-4 58
Stroke Response Process Leverage Protocols Interdisciplinary Teams 58
Table 1-5 59
Stroke Treatment State-Of-The-Art, Full-Service Stroke Treatment Facilities 59
Table 1-6 68
Robotic Rehabilitation Devices Automated Process Benefits 68
Table 1-7 71
Robotic Rehabilitation Devices Emerging Technologies 71
Table 1-8 72
Robotic Rehabilitation Wearable Devices Benefits 72
Table 1-9 74
Rehabilitation Involves Relearning Lost Function 74
Table 1-10 75
Rehabilitation Lost Function Relearning Initiatives 75
Table 1-11 77
CPM Functions: 77
Table 1-12 77
CPM Use Indications: 77
Table 2-1 89
Rehabilitation Robot Market Driving Forces 89
Table 2-2 90
Rehabilitation Robot Medical Conditions Treated 90
Table 2-3 91
Stroke Rehabilitation Guidelines For Interactive Robotic Therapy 91
Table 2-4 92
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Extremity Rehabilitation Robot Technology 92
Table 2-5 93
Health Care Conditions Treated With Rehabilitation Wearable Robotics 93
Table 2-6 95
Robotic Technologies Leverage Principles Of Neuroplasticity 95
Figure 2-7 96
Rehabilitation Robot Market Shares, Dollars, Worldwide, 2014 96
Error! Bookmark not defined.
Table 2-8 97
Rehabilitation Robot Market Shares, Dollars, Worldwide, 2014 97
Table 2-9 101
Hocoma Robotic Rehabilitation Used In Rehabilitation Medicine: 101
Figure 2-10 104
Homoca Continuum of Rehabilitation 104
Figure 2-11 105
Comparison of the Hocoma Armeo Products 105
Table 2-12 108
Rehabilitation Therapy Robots Market Shares, Units, Worldwide, 2014 108
Table 2-13 110
Motorized CPM Stroke Rehabilitation Equipment Market Shares, Unit and Dollars, Worldwide, 2014 110
Figure 2-14 112
Rehabilitation Robot Market Forecasts Dollars, Worldwide, 2015-2021 112
Table 2-15 113
Rehabilitation Robots Market Forecasts, Dollars, Shipments, Worldwide, 2015-2021 113
Figure 2-16 114
Rehabilitation Robots: Units Shipments, Worldwide, 2015-2021 114
Table 2-17 115
Rehabilitation Robots: Units Shipments, Worldwide, 2015-2021 115
Table 2-18 117
Rehabilitation Robot Market Segments, Lower Extremities, Upper Extremities, Neurological
Training, Exoskeleton, Stroke CPM, Dollars, Worldwide, 2015-2021 117
Table 2-19 118
Rehabilitation Robot Market Segments, Lower Extremities, Upper Extremities, Neurological
Training, Exoskeleton, Stroke CPM, Percent, Worldwide, 2015-2021 118
Table 2-20 119
Rehabilitation Robots Market Segments 119
Figure 2-21 120
Rehabilitation Robots Market Forecasts, Units, Worldwide, 2015-2021 120
Table 2-22 121
Rehabilitation Robots: Units Shipments, Worldwide, 2015-2021 121
Table 2-23 122
Rehabilitation Robots: Dollars and Units, High End, Mid Range, and Low End, Shipments,
Worldwide, 2015-2021 122
122
Figure 2-24 123
Rehabilitation Robots: Facility Market Penetration Forecasts, Units, Worldwide, 2014-2020 123
Table 2-25 124
Rehabilitation Facility Robot Market Penetration Forecasts Worldwide, 2014-2020 124
Table 2-26 125
Rehabilitation Robot Market Penetration Forecasts Worldwide, High End Facilities, Small and Mid Size Rehabilitation Facilities,
2014-2020 125
Table 2-27 126
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Rehabilitation Robot Market Segments, Lower Extremities, Upper Extremities, Anti-Gravity High End, Anti-Gravity Low End, and
Tools Worldwide, 2014-2020 126
Table 2-28 127
Rehabilitation Small and Mid-Size Facility Robot Market Penetration Forecasts Worldwide, 2014-2020 127
Table 2-29 128
Rehabilitation High End Facility Robot Market Penetration Forecasts, Worldwide, 2014-2020 128
Figure 2-30 131
Chattanooga OptiFlex® 3 Knee Continuous Passive Motion (CPM) Device 131
Table 2-31 147
Rehabilitation Robot Categories 147
Table 2-32 148
Spinal Cord Injury Causes Worldwide, 2014 148
Table 2-33 149
Motorized CPM Stroke Rehabilitation Equipment Market Shares, Unit and Dollars, Worldwide, 2014 149
Table 2-34 150
Rehabilitation Robot CPM Market Segments, Worldwide, 150
2015-2021 150
Table 2-35 152
US Stroke Incidence Numbers 152
Table 2-36 154
Physical Therapy Enhances Recovery After Hip Injury 154
Figure 2-37 157
iRobot / InTouch Health RP-VITA 157
Figure 2-38 162
Chattanooga Continuous Passive Motion 162
Figure 2-39 179
Rehabilitation Robot Regional Market Segments, Dollars, 2014 179
Table 2-40 180
Rehabilitation Robot Regional Market Segments, 2014 180
Figure 2-41 181
Ekso Bionics Regional Presence Source: Ekso Bionics. 181
Table 3-1 182
Lower Limb Stroke Rehabilitation Devices 182
Figure 3-2 183
Hocoma Lokomat Pro 183
Table 3-3 184
Hocoma Patient Rehabilitation Conditions Addressed 184
Table 3-4 185
Hocoma Robotic Improvements to Rehabilitation 185
Table 3-5 186
Hocoma Products 186
Table 3-6 186
Hocoma Rehabilitation Functional Therapy 186
Table 3-7 188
Robotic Legs Working For Improving Cerebral Palsy 188
Figure 3-8 192
Hocoma Automates Locomotion Therapy On A Treadmill 192
Figure 3-9 193
Hocoma Lokomat Lower Extremity Robot 193
Table 3-10 195
Hocoma Rehabilitation Robot Systems 195
Figure 3-11 196
Hocoma Armeo Arm Robot Systems 196
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Figure 3-12 197
Hocoma Lokomats Robot 197
Figure 3-13 198
Hocoma ArmeoSpring for Stroke Victims 198
Figure 3-14 199
Hocoma ArmeoSpring for Children 199
Figure 3-15 202
Hocoma Armeo Power Robotic Arm Exoskeleton 202
Figure 3-16 204
Clinical Example of Patients Using the Hocoma Armeo®Spring 204
Table 3-17 205
Hocoma Valedo Functional Lower Back Movement Therapy 205
Table 3-18 206
Hocoma Valedo®Motion Low Back Pain Therapy Advantages 206
Figure 3-19 207
Hocoma Erigo® 207
Table 3-20 209
Hocoma Erigo Advantages of Early Rehabilitation 209
Figure 3-21 210
Motorika ReoAmbulator 210
Figure 3-22 212
Motorika ReoAmbulator and Gait Training Devices 212
Figure 3-23 213
Interactive Motor Technologies Anklebot exoskeletal robotic system Design Principals 213
Figure 3-24 215
Interactive Motor Technologies Anklebot Walking Improvement 215
Figure 3-25 217
Interactive Motion Technologies (IMT) InMotion Biomarkers Aid Stroke Recovery 217
Table 3-26 222
Interactive Motion Technologies (IMT) InMotion Robot Medical Conditions Treated 222
Table 3-27 223
Interactive Motion Technologies (IMT) InMotion Robot Medical Technology 223
Table 3-28 224
Interactive Motion Technologies (IMT) Clinical Studies Performed With The InMotion ARM™ 224
Table 3-29 225
InMotion Robots Research Positioning 225
Figure 3-30 226
InMotion HAND™ 226
Figure 3-31 227
InMotion HAND™ Robot 227
Table 3-32 229
Interactive Motion Technologies (IMT) InMotion HAND™ Robot Functions 229
Table 3-33 230
Interactive Motion Technologies (IMT) InMotion HAND™ Robot 230
Table 34 231
Interactive Motion Technologies (IMT) InMotion ARM™ Software Functions 231
Figure 3-35 232
Interactive Motion Technologies (IMT) 2D Gravity Compensated Therapy Is More Effective Than 3D Spatial Therapy 232
Figure 3-36 233
Measurements Show Interactive Motion Technologies (IMT) 2D Gravity Compensated Therapy Is More Effective Than 3D Spatial
Therapy 233
Table 3-37 234
Interactive Motion Technologies (IMT) InMotion EVAL Aims 234
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Table 3-38 235
Interactive Motion Technologies (IMT) InMotion EVAL Quantifiable Measures: 235
Figure 3-39 236
6 Degree-Of-Freedom Force-Torque Sensor Monolithic Aluminum Device Visualization 236
Figure 3-40 237
Interactive Motion Technologies (IMT) Performance Feedback Metrics 237
Table 3-41 238
Interactive Motion Technologies (IMT) InMotion ARM™ Specifications 238
Dimensions 238
Figure 3-42 239
Interactive Motion Technologies (IMT) Sample Circle Plots For A Stroke Patient At Admission 239
Figure 3-43 240
Interactive Motion Technologies (IMT) Sample Circle Plots For A Stroke Patient At Discharge 240
Figure 3-44 245
AlterG: PK100 PowerKnee 245
Figure 3-45 247
AlterG Bionic Neurologic And Orthopedic Therapy Leg 247
Figure 3-46 249
Tibion Bionic Leg 249
Figure 3-47 252
AlterG M300 Robotic Rehabilitation Treadmill 252
Figure 3-48 253
AlterG M300 Robotic Leg, Knee and Thigh Rehabilitation Treadmill 253
Table 3-49 254
AlterG Anti-Gravity Treadmill Precise Unweighting Technology Patient Rehabilitation Functions 254
Figure 3-50 256
AlterG Anti-Gravity Treadmill Heals patient Faster 256
Figure 3-51 258
Biodex Balance System SD 258
Figure 3-52 259
Biodex Balance System SD Features 259
Figure 3-53 261
Biodex Pneumex Unweighting Systems 261
Figure 3-54 264
Honda Walk assist 264
Figure 3-55 265
Honda Stride Management 265
Figure 3-56 267
Honda Walk Assist Device Specifications 267
Figure 3-57 268
Honda ASIMO 268
Figure 3-58 269
Honda ASIMO Front Position 269
Figure 3-59 270
Honda ASIMO Dimensions and Weight 270
Figure 3-60 271
Honda ASIMO Intelligence Features 271
Figure 3-61 272
Mobility Research LiteGait Solution for Gait Therapy 272
Table 3-62 273
Mobility Research LiteGait Advanced Solutions For Gait Therapy 273
Table 3-63 275
Upper Limb Stroke Rehabilitation Devices 275
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Figure 3-64 276
Tyromotion Amadeo® System For Neurological Rehabilitation 276
Table 3-65 279
Amado® Individual Fingers Or The Entire Hand Rehabilitation Advantages 279
Figure 3-66 280
Tyromotion AMADEO® -For Neurological Rehabilitation 280
Table 3-67 281
Tyromotion AMADEO® -For Neurological Rehabilitation 281
Table 3-68 282
Tyromotion Amadeo®Benefits 282
Table 3-69 284
Myomo mPower 1000 Indications 284
Table 3-70 284
Myomo mPower 1000 Contraindications 284
Table 3-71 291
Focals Meditech BV Models: 291
Table 3-72 292
Focal Meditech BV Assistive Technology Types 292
Table 3-73 293
Focal Meditech BV High End Assistive Technology 293
Table 3-74 294
Focal Meditech Products for Robotic Rehabilitation 294
Figure 3-75 295
ARMin III Robot For Movement Therapy Following Stroke 295
Figure 3-76 298
Kinova Robotarm Jaco 298
Figure 3-77 300
Kinova Jaco Rehabilitation Hand 300
Figure 3-78 301
Invacare Partnered with Kinova to Facilitate Use of the Jaco 301
Figure 3-79 302
Invacare Kinova Robotarm Broad Product Line 302
Figure 3-80 304
InteraXon Muse Headband 304
Figure 3-81 306
Interaxon Finely Calibrated Brain Wave Sensors 306
Figure 3-82 308
InteraXon Measuring Brainwaves 308
Figure 3-83 313
Lower Limb Prosthetic Designed By The Center For Intelligent Mechatronics 313
Figure 3-84 315
Orthocare Innovations Prosthesis 315
Figure 3-85 316
Orthocare Innovations Edison Prosthesis Ankle and Foot 316
Figure 3-86 318
Orthocare Innovations Edison Leg and Ankle 318
Figure 3-87 320
Orthocare Innovations Prosthetic Foot That Adjusts Automatically 320
Figure 3-88 321
Orthocare Innovations Proshthetic Foot That Fits 321
Figure 3-89 322
Orthocare Innovations Proshthetic Foot That Can Be Used for Hiking 322
Figure 3-90 324
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Orthocare Innovations 324
Figure 3-91 328
RSLSteeper Pererro+ 328
Table 3-92 329
RSLSteeper Pererro+ Key Features: 329
Figure 3-93 330
RSL Steeper Bebionic’s Standard Glove 330
Figure 3-94 332
RSL Steeper Prosthesis Hand 332
Figure 3-95 333
Touch Bionics’ i-limb Functions 333
Table 3-96 334
Touch Bionics i-limb Muscle Triggers 334
Figure 3-97 338
Touch Bionics Quick Grips 338
Figure 3-98 339
Touch Bionics Prostheses 339
Figure 3-99 343
Touch Bionics Active Prostheses 343
Figure 3-100 346
Touch Bionics Active prostheses 346
Table 3-101 347
Touch Bionics Products 347
Table 3-102 349
RU Robots Core Technologies And Competencies 349
Figure 3-103 350
RU Robots Advanced Robotics 350
Figure 3-104 352
RU Robots Sophisticated Interactions 352
Figure 3-105 353
RU Robots Care-o-bot Large Service Robot 353
Table 3-106 356
Instead Technologies Advantages of RoboTherapist3D Therapy: 356
Figure 3-107 357
Instead Technologies Robotherapist 3D RT3D Arm 357
Figure 3-108 357
Instead Technologies Robotherapist 3D RT3D Cup 357
357
Figure 3-109 358
Instead Technologies RT3D Hand 358
Figure 3-110 359
Instead Technologies Robotherapist 3D RT3D Ring Structure 359
Figure 3-111 360
Instead Technologies Ultrasound Breast Volumes. BreastExplorer 360
Figure 3-112 361
Instead Technologies Ultrasound Breast Volumes BreastExplorer Handheld Device 361
Figure 3-113 362
Instead Technologies Ultrasound Breast Volumes BreastExplorer Screen Display 362
Table 3-114 364
Instead Technologies Research: 364
Table 3-115 365
Instead Technologies Consultancy Services: 365
Figure 3-116 370
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Esko Technology 370
Figure 3-117 372
Ekso Bionics Gait Training 372
Figure 3-118 373
Ekso Bionics Gait Training Functions 373
Table 3-119 374
Ekso Gait Training Exoskeleton Functions 374
Table 3-120 375
Ekso Gait Training Exoskeleton Functions 375
Figure 3-121 376
Ekso Bionics Step Support System 376
Table 3-122 377
Ekso Bionics Operation Modes 377
3.25.2 Ekso Bionics 378
Figure 3-123 379
Figure 3-124 380
Ekso Bionics Bionic Suit 380
Figure 3-125 383
Berkley Robotics and Human Engineering Laboratory ExoHiker 383
Figure 3-126 385
Berkley Robotics and Human Engineering Laboratory ExoClimber 385
Table 3-127 386
Berkley Robotics and Human Engineering Laboratory Exoskeleton 386
Figure 3-128 388
Reha-Stim Gait Trainer GT I 388
Figure 3-129 390
Reha-Stim Gait Trainer Improves The Patient Ability To Walk Through Continuous Practice 390
Figure 3-130 393
Reha-Stim Bi-Manu-Track Hand and Wrist Rehabilitation Device 393
Figure 3-131 394
Reha-Stim Gait Trainer GT I Harness 394
Figure 3-132 396
Motorized Physiotherapy Controlled Mobilization Goals of phase 1 rehabilitation 396
Table 3-133 397
Continuous Passive Motion (CPM) Device Benefits Following Knee Arthroplasty 397
Figure 3-134 398
Chattanooga CPM 398
Table 3-135 399
Chattanooga Active-K Functions 399
Figure 3-136 400
DJO Chattanooga Active-K 400
Figure 3-137 401
Chattanooga Active-K Motorized Physiotherapy Unit Integration Benefits 401
Figure 3-138 402
Chattanooga Active-K Motorized Physiotherapy Controlled Mobilization 402
Figure 3-139 403
Chattanooga Active-K Motorized Physiotherapy CPM (Continuous Passive Motion 403
Figure 3-140 404
Chattanooga Active-K Motorized Physiotherapy Controller 404
Figure 3-141 405
DJO Chattanooga Active-K Features: 405
Table 3-142 406
Chattanooga Active-K Motorized Physiotherapy Therapeutic Modes 406
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Figure 3-143 407
Chattanooga Active-K Motorized Physiotherapy Therapeutic Benefits 407
Figure 3-144 408
Chattanooga OptiFlex® 3 Knee Continuous Passive Motion (CPM) Device 408
Table 3-145 409
Chattanooga Optiflex Knee CPM Unique Features: 409
Table 3-146 410
Chattanooga Optiflex CPM Use While Resting 410
Table 3-147 411
Chattanooga Optiflex Knee CPM Standard Functions: 411
Table 3-148 412
Chattanooga OptiFlex® 3 Knee Continuous Passive Motion (CPM) Specifications: 412
Figure 3-149 413
Chattanooga OptiFlex® 3 Ankle Continuous Passive Motion (CPM) 413
Table 3-150 414
Chattanooga Optiflex Ankle CPM Features: 414
Table 3-151 415
Chattanooga Optiflex Ankle CPM Specifications: 415
Table 3-152 416
Chattanooga Optiflex Shoulder CPM Features: 416
Figure 3-153 417
Chattanooga OptiFlex® 3 Elbow Continuous Passive Motion (CPM) 417
Table 3-154 418
Chattanooga OptiFlex Elbow CPM Features: 418
Figure 3-155 419
Chattanooga OptiFlex® 3 Elbow Continuous Passive Motion (CPM) 419
Table 3-156 419
Chattanooga OptiFlex® 3 Elbow Continuous Passive Motion (CPM) Specifications: 419
Figure 3-157 420
Chattanooga OptiFlex® 3 Elbow Continuous Passive Motion (CPM) Flexion 420
Figure 3-158 421
Chattanooga OptiFlex S Shoulder Continuous Passive Motion (CPM) 421
Table 3-159 422
Chattanooga OptiFlex Shoulder CPM Features: 422
Figure 3-160 424
Paterson Kinetec Knee CPM 424
Table 3-161 425
Paterson Kinetec Spectra Knee CPM Features: 425
Table 3-162 426
Paterson Kinetec Spectra Knee CPM Treatment Modes 426
Figure 3-163 427
Global Medical CPM device 427
Table 3-164 428
Global Medical CPM device Features 428
Figure 3-165 429
Global Medical Handheld Controller 429
Figure 3-166 430
Furniss Corporation Model 1800™ Knee CPM 430
Table 3-167 432
Furniss Corporation CPM 1800 Features 432
Figure 3-168 433
Furniss Corporation CP 433
Figure 3-169 434
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Furniss Corporation Phoenix Model 1850 Knee CPM 434
Figure 3-170 435
Furniss Corporation Continuous Passive Motion DC2480 Knee CPM 435
Figure 3-171 438
Danniflex 480 Lower Limb CPM Unit 438
Table 3-172 439
Danniflex Lower Limb CPM Features 439
Figure 3-173 440
Rehab-Robotics Company Hand of Hope Therapeutic Device 440
Figure 3-174 441
Rehab-Robotics Repetitive Training System 441
Table 3-175 443
Rehab-Robotics Hand of Hope Movement Control 443
Figure 3-176 445
Rehab-Robotics Modes Provide Different Levels Of Assistance In Movement Of Patient’s Hand 445
Figure 3-177 446
Rehab-Robotics Different Modes 446
Figure 3-178 447
Rehab-Robotics Arm Training 447
Table 3-179 448
Rehab-Robotics Hand of Hope Modes 448
Figure 3-180 449
Bioxtreme Robotic Rehabilitation System 449
Figure 3-181 450
Corbys Rehabilitation Robot 450
Figure 3-182 452
Corbys Rehabilitation System 452
Figure 3-183 453
Corbys Rehabilitation Orthosis Actuation Test Stand 453
Figure 3-184 454
Corbys Mobile Robotic Gait Rehabilitation System 454
Figure 3-185 455
Swtotek Leg Orthosis of Motion Maker 455
Table 4-1 459
Rehabilitation Robot System Concerns Addressed During System Design 459
Table 4-5 466
Rehabilitation Robots Software Functions 466
Table 4-6 467
InMotion Robots Immediate Interactive Response Sets 467
Table 4-7 469
HEXORR: Hand EXOskeleton Rehabilitation Robot Technology Benefits 469
Table 4-8 470
HEXORR: Hand EXOskeleton Rehabilitation Robot Technology Monitoring 470
Table 4-9 471
HEXORR: Hand EXOskeleton Rehabilitation Robot Treatment Benefits 471
Table 4-10 472
HEXORR: Hand EXOskeleton Rehabilitation Robot Technology Force and Motion Sensor Benefits 472
Figure 4-11 474
Hand Spring Operated Movement Enhancer 474
Figure 4-12 475
Hand Spring Robot Operated Movement Enhancer 475
Table 5-1 480
AlterG Anti-Gravity Treadmillsr Features 480
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Built on differential air pressure technology 480
Table 5-2 481
AlterG Anti-Gravity Treadmillsr Target Markets 481
Table 5-3 482
AlterG Product Positioning 482
Figure 5-4 484
Selected US Regional AlterG M300 Customer CLusters 484
Figure 5-5 489
AlterG / Tibion Bionic Leg 489
Table 5-6 492
Berkley Robotics and Human Engineering Laboratory Research Work 492
Table 5-7 493
Berkley Robotics and Human Engineering Laboratory Research Work 493
Figure 5-9 497
Breg Home Therapy CPM Continuous Passive Motion Practice Kits 497
Table 5-10 507
DJO Rehabilitation Product Target Markets 507
Table 5-11 508
DJO Rehabilitation Product Targets Care Givers 508
Figure 5-12 517
Ekso Bionics Regional Presence 517
Table 5-13 527
FOCAL Meditech BV Products: 527
Table 5-14 528
FOCAL Meditech BV High- End Rehabilitation Medical Devices 528
Table 5-15 529
FOCAL Meditech BV Collaborating Partners: 529
Table 5-16 533
Hocoma Robotic Rehabilitation Used In Rehabilitation Medicine: 533
Table 5-17 534
Hocoma Therapy Solutions Treatments 534
Table 5-18 539
Honda’s Principal Automobile Products 539
Figure 5-19 542
Honda Walk assist 542
Table 5-20 544
Instead Technologies Research: 544
Table 5-21 545
Instead Technologies Consultancy Services: 545
Table 5-22 562
iRobot / InTouch Health RP-VITA 562
Figure 5-23 563
iRobot / InTouch Health RP-VITA 563
Figure 5-24 567
Mobility Research LiteGait Device 567
Table 5-25 584
RUR Key Market Areas For Robotic Technologies 584
Figure 5-26 588
Secom Co.Ltd MySpoon Manual Mode 588
Table 53-27 589
Secom Co.Ltd MySpoon Features in Manual Mode 589
Figure 5-28 590
Secom Co.Ltd MySpoon Semi-automatic Mode 590
WinterGreen Research, INC.
REPORT # SH26281852 659 PAGES 266 TABLES AND FIGURES 2015
$4,000 SINGLE COPY -- $8,000 WEB SITE POSTING
Table 5- 29 591
Secom Co.Ltd MySpoon Semi-automatic Mode 591
Figure 3-30 592
Secom Co.Ltd MySpoon Automatic Mode 592
Table 3-31 593
Secom Co.Ltd MySpoon Automatic Mode 593
Table 5-32 594
Sunrise Medical Products 594
Figure 5-33 596
Sunrise Medical Whitmyer Biomechanics Head Support 596
Table 5-34 597
Sunrise Medical Whitmyer Biomechanics Headrest Features 597
Figure 5-35 599
Touch Bionics Prosthetic Technologies 599
Figure 5-36 600
Tyromotion GmbH Employee Group 600
Table 5-37 602
Tyromotion GmbH Pablo®Plus System Strengthens The Upper Extremity
Hand, Arm And Wrist Functions 602
Table 5-38 603
Tyromotion Network 603
WinterGreen Research, INC.
REPORT # SH26281852 659 PAGES 266 TABLES AND FIGURES 2015
$4,000 SINGLE COPY -- $8,000 WEB SITE POSTING
ABOUT THE COMPANY
WinterGreen Research, research strategy relates to identifying market trends through reading and interviewing
opinion leaders. By using analysis of published materials, interview material, private research, detailed research, social network
materials, blogs, and electronic analytics, the market size, shares, and trends are identified. Analysis of the published materials and
interviews permits WinterGreen Research senior analysts to learn a lot more about markets. Discovering, tracking, and thinking
about market trends is a high priority at WinterGreen Research. As with all research, the value proposition for competitive analysis
comes from intellectual input.
WinterGreen Research, founded in 1985, provides strategic market assessments in telecommunications,
communications equipment, health care, Software, Internet, Energy Generation, Energy Storage, Renewable energy, and advanced
computer technology.
Industry reports focus on opportunities that expand existing markets or develop major new markets. The reports access
new product and service positioning strategies, new and evolving technologies, and technological impact on products, services, and
markets. Innovation that drives markets is explored. Market shares are provided. Leading market participants are profiled, and
their marketing strategies, acquisitions, and strategic alliances are discussed. The principals of WinterGreen Research have been
involved in analysis and forecasting of international business opportunities in telecommunications and advanced computer
technology markets for over 30 years.
The studies provide primary analytical insight about the market participants. By publishing material relevant to the
positioning of each company, readers can look at the basis for analysis. By providing descriptions of each major participant in the
market, the reader is not dependent on analyst assumptions, the information backing the assumptions is provided, permitting
readers to examine the basis for the conclusions.
About The Principal Authors
Ellen T. Curtiss, Technical Director, co-founder of WinterGreen Research, conducts strategic and market assessments in
technology-based industries. Previously she was a member of the staff of Arthur D. Little, Inc., for 23 years, most
recently as Vice President of Arthur D. Little Decision Resources, specializing in strategic planning and market
development services. She is a graduate of Boston University and the Program for Management Development at
Harvard Graduate School of Business Administration. She is the author of recent studies on worldwide
telecommunications markets, the top ten internet equipment companies, the top ten contract manufacturing
companies, and the Top Ten Telecommunications market analysis and forecasts.
Susan Eustis, President, co-founder of WinterGreen Research is a senior analyst. She has done research in
communications and computer markets and applications. She holds several patents in microcomputing and parallel
processing. She has the original patents in electronic voting machines where she was featured in People Magazine in
1976. She has new patent applications in format varying, mulitprocessing, and electronic voting. She is the author of
recent studies of the Solar Renewable Energy, Wind Energy, Thin Film Batteries, Business Process Management
marketing strategies, Internet equipment, biometrics, a study of Internet Equipment, Worldwide Telecommunications
Equipment, Top Ten Telecommunications, Digital Loop Carrier, Web Hosting, Web Services, and Application Integration
markets. Ms. Eustis is a graduate of Barnard College. Susan Eustis was named as top female executive of the year by
Who’s Who Worldwide in 2012. She was named page one of the top 100 Industry leaders in Who’s Who Worldwide in
2013.