Rehabilitation Robots: $6.4 Bn Market Shares, Strategy, and Forecasts


Dublin, March 26, 2019 (GLOBE NEWSWIRE) -- The "Rehabilitation Robots: Market Shares, Strategy, and Forecasts, Worldwide, 2019 to 2025" report from Wintergreen Research, Inc has been added to ResearchAndMarkets.com's offering.

The Rehabilitation Robot Market Size at $641 Million in 2018 and is Expected to Grow Dramatically to Reach $6.4 Billion by 2025

Worldwide Rehabilitation Robot markets are expected to achieve significant growth as robots replace much of the human work in physical therapy.

The robots are steadier, make fewer mistakes, support treatment for longer durations, and decrease the cost of rehabilitation for many conditions. The robots permit a more accurate rehabilitation routine for any specific condition than is possible with human physical therapy in many cases.

Robotics has a tremendous ability to reduce disability and lead to better outcomes for patients with stroke. With the use of rehabilitation robots, patient recovery of function is able to be more substantial than what is achieved now. Whereas traditional rehabilitation with a human therapist goes on for a few weeks, people using robots are able to make continued progress in regaining functionality even years after an injury or stroke.

It is a question of cost. While insurance pays for a small amount of rehabilitation needed, generally provided by a human therapist, using a robot is a far less costly process, and can be effective over the long term, even without reimbursement. Marketing has a tremendous effect in convincing people that they can achieve improvements from rehabilitation processes even after years of effort.

Rehabilitation robotics devices are used for assisting the performance of sensorimotor functions. Devices help arm, hand, leg rehabilitation by supporting a repetitive motion that builds neurological pathways to support the use of the muscles. Development of different robotic schemes for assisting therapeutic training is innovative.

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 a possibility for a long term leadership position in the market.

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 an 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.

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 has become more feasible as the technology evolves. Patients generally practice 1,000 varied movements per session. With the robots, more sessions are possible.

Key Topics Covered:

1. Rehabilitation Robot Market Description and Market Dynamics
1.1 Rehabilitation Robot Market Definition
1.2 Rehabilitation Physical Therapy Trends
1.2.1 Therapy Apps
1.2.2 Exoskeleton Suit
1.2.3 Running with Robots
1.2.4 Use of Video Game Technology In PT
1.2.5 Telemedicine Growing Trend In The Physical Therapy
1.3 Stroke Rehabilitation
1.3.1 Stroke Protocols
1.3.2 Rehabilitation Medicine: New Therapies in Stroke Rehabilitation
1.3.3 Botulinum Toxin Injections
1.3.4 Constraint Induced Movement Therapy (CIMT)
1.3.5 Dynamic Splinting
1.3.6 Electrical Stimulation
1.3.7 Robotic Therapy Devices
1.3.8 Partial Body Weight-Supported Treadmill
1.3.9 Virtual Reality (including Wii-hab)
1.3.10 Brain Stimulation
1.3.11 Acupuncture
1.3.12 Mental Practice
1.3.13 Mirror Therapy
1.3.14 Hyperbaric Oxygen Therapy
1.3.15 Evidence-Based Treatment Protocols
1.3.16 Home Mobility Exoskeletons
1.4 Exoskeleton Able-Bodied Industrial Applications
1.5 Restoring Physical Function Through Neuro-Rehabilitation After Stroke
1.5.1 Traumatic Brain Injury Program
1.5.2 Concussion Program
1.5.3 Hospital Stroke Programs Rapid Response to Create Better Outcomes
1.5.4 Stroke Response Process Leverage Protocols that Implement Streamlined Timely Treatment

2. Rehabilitation Robot Market Shares and Market Forecasts
2.1 Rehabilitation Robot Market Driving Forces
2.1.1 Rehabilitation Robots Assistive Devices
2.1.2 Rehabilitation Robots Decrease the Cost of Recovery
2.1.3 Rehabilitation Robot Medical Conditions Treated
2.1.4 Robotic Modules for Disability Therapy
2.1.5 Wearable Robotics for Disability Therapy
2.1.6 Rehabilitation Robots Leverage Principles Of Neuroplasticity
2.2 Rehabilitation Robot Market Shares
2.2.1 DJO Global Business Activities
2.2.2 AlterG Bionic Leg Customer Base
2.2.3 Myomo
2.2.4 Performance Health/Patterson Medical
2.2.5 DIH International Limited/Hocoma
2.2.6 Bionik Laboratories/Interactive Motion Technologies (IMT)
2.2.7 Hocoma Robotic Rehabilitation
2.2.8 Homoca Helping Patients To Grasp The Initiative And Reach Towards Recovery
2.2.9 Ekso Bionics Robotic Suit Helps Paralyzed Man Walk Again
2.2.10 Rewalk
2.2.11 Karman Xo-202 Standing Wheelchair Power Stand Power Drive
2.3 Rehabilitation Robot Market Share Unit Analysis
2.3.1 Medical Rehabilitation Robot Market Analysis
2.4 Rehabilitation Robot Market Forecasts
2.4.1 Rehabilitation Robot Unit Shipments
2.4.2 Rehabilitation Robots Market Segments: Lower Extremities, Upper Extremities, Neurological Training, Exoskeleton, Stroke CPM
2.5 Rehabilitation Robot And Motorized CPM Equipment
2.6 Global Exoskeleton Market
2.7 Rehabilitation Robotics Prices
2.7.1 Danniflex 480 Lower Limb CPM Unit
2.7.2 Patterson Kinetec CPM
2.7.3 Chattanooga Atromot
2.7.4 Ekso Bionics
2.7.5 Interaxon Muse
2.8 Rehabilitation Robotics Regional Analysis
2.8.1 Ekso Bionics Regional Presence

3. Rehabilitation Robots Market Metrics and Devices
3.1 Upper and Lower limb Stroke Rehabilitation Devices
3.1.1 Upper Limb Stroke Rehabilitation Devices
3.2 Rehabilitation Robot Market Metrics
3.2.1 Types of Conditions and Rehabilitation Treatment by Condition
3.2.2 Clinical Evidence and Reimbursement
3.2.3 Stroke
3.2.4 Early Rehab After Stroke
3.2.5 Multiple Sclerosis
3.2.6 Knee-Replacement Surgery
3.2.7 Medicare Coverage of CPM
3.2.8 Hip
3.2.9 Gait Training
3.2.10 Sports Training
3.2.11 Severe Injury or Amputation
3.2.12 Neurological Disorders
3.2.13 Recovery After Surgery
3.2.14 Conditions with Severe Extremity Pain/Number of Patients
3.3 Types of Rehabilitation Robots and Conditions Treated
3.3.1 Gait Training Devices/Unweighting Systems
3.3.2 Euro-Rehabilitation
3.3.3 Prostheses
3.3.4 Motorized Physiotherapy CPM (Continuous Passive Motion), CAM Therapy (Controlled Active Motion) and the Onboard Protocols
3.3.5 Gait Training Devices/Unweighting Systems/Automated Treadmills
3.3.6 Rehabilitation Therapy Robotics
3.3.7 Upper Limb Robotic Rehabilitation
3.3.8 Shoulder Biomechanics
3.3.9 Exoskeletons
3.3.10 Exoskeleton-Based Rehabilitation
3.3.11 End-effectors
3.3.12 Mobility Training Level Of Distribution
3.3.13 Rehabilitation Robots Cost-Benefit-Considerations
3.3.14 Rehabilitation Systems
3.3.15 Robotic Therapeutic Stroke Rehabilitation
3.4 Disease Incidence and Prevalence Analysis
3.4.1 Aging Of The Population
3.4.2 Chronic Disease Rehabilitation
3.5 Service Robots
3.5.1 Next Generation Personal And Service Robotics
3.5.2 Focal Meditech BV Mealtime Support and Stress Reduction: Hand Function
3.5.3 Rehabilitation of Hip Injuries
3.5.4 iRobot/InTouch Health
3.6 Neurological Training
3.6.1 Neuro-Rehabilitation
3.7 Interaxon
3.7.1 Interaxon Muse: Brainwave Category Biometrics
3.7.2 InteraXon Motivates Brain Activity
3.7.3 Interaxon Muse Improves Response To Stress, Lowers Blood Pressure
3.7.4 Interaxon Muse Gives Self-Control
3.7.5 Interaxon Muse Can Improve Emotional State
3.7.6 Interaxon Muse Extended Use Lasting Results
3.7.7 Interaxon Muse Types of Feedback
3.8 Active Prostheses
3.8.1 Neuronal-Device Interfaces
3.9 Pererro - Switch - Access - Control
3.9.1 Pererro+
3.9.2 RSL Steeper V3 Myoelectric Hand
3.10 Humanware In-Home Rehabilitation
3.10.1 Muscle Memory
3.11 Rewalk
3.12 Permobil F5 Corpus VS Stand Sequence
3.13 Karman Xo-202 Standing Wheelchair Power Stand Power Drive
3.14 Berkeley Robotics Laboratory Exoskeletons
3.15 Exoskeleton Designed by CAR
3.16 CAREX Upper Limb Robotic Exoskeleton
3.17 Egto Tech
3.17.1 Egto Tech Luna Dynamic Resistance
3.17.2 Egto Tech Luna Objective Diagnostics
3.18 Motorized Physiotherapy CPM Continuous Passive Motion and Onboard Protocols
3.18.1 Movement Of Synovial Fluid To Allow For Better Diffusion Of Nutrients Into Damaged Cartilage
3.19 Global Medical
3.20 Furniss Corporation
3.20.1 Furniss Corporation Continuous Passive Motion DC2480 Knee CPM
3.21 Danniflex
3.21.1 Danniflex 480 Lower Limb CPM Unit
3.22 Rehab-Robotics Company
3.22.1 Rehab-Robotics Hand of Hope
3.22.2 Rehab-Robotics Hand & Arm Training
3.23 Bioxtreme
3.24 Corbys
3.24.1 Corbys System
3.25 Swtotek Motion Maker

4. Rehabilitation Robots Technology
4.1 Robotic Actuator Energy
4.1.1 Elastic Actuators
4.1.2 InMotion Robots Technology
4.2 Human Motor Error Enhancement Technology
4.2.1 Enhancing a Motor Error Improves Motor Skills
4.2.2 Adaptation to Error Enhancing Forces
4.2.3 Bioxtreme's Error Enhancement Technology Potential Applications
4.3 Rehabilitation Robotic Risk Mitigation
4.4 Rehabilitation Robot Multi-Factor Solutions
4.4.1 Biometallic Materials Titanium (Ti) and its Alloys
4.5 Berkley Robotics and Human Engineering Laboratory
4.6 Rehabilitation Robot Automated Technique
4.6.1 InMotion Robots Technology
4.7 HEXORR: Hand EXOskeleton Rehabilitation Robot
4.8 ARMin: Upper Extremity Robotic Therapy
4.9 HandSOME: Hand Spring Operated Movement Enhancer
4.10 Cognitive Science
4.11 Lopes Gait Rehabilitation Device
4.12 Restoration of Sensation To A Paralyzed Man's Arm
4.13 Artificial Muscle
4.14 ReWalk Exoskeleton Suit

5. Rehabilitation Robot Company Profiles
5.1 AlterG
5.1.1 AltgerG M320 Anti-Gravity Treadmill
5.1.2 AlterG Anti-Gravity Treadmill in Action
5.1.3 AlterG: PK100 PowerKnee
5.1.4 AlterG Bionic Leg
5.1.5 Alterg/Tibion Bionic Leg
5.1.6 AlterG Bionic Leg Customer Base
5.1.7 AlterG M300
5.1.8 AlterG M300 Robotic Rehabilitation Treadmill
5.1.9 AlterG M300 Customers
5.2 Aretech
5.3 Berkley Robotics and Human Engineering Laboratory
5.4 Biodex
5.4.1 Biodex Clinical Advantage
5.5 Bioness
5.6 Bionik Laboratories/Interactive Motion Technologies (IMT)
5.6.1 Bionik Laboratories Acquires Interactive Motion Technologies, Inc. (IMT)
5.6.2 Biomarkers Of Motor Recovery
5.6.3 InMotion Robot Medical Conditions Treated
5.6.4 Interactive Motion Technologies (IMT) InMotion ARM Software
5.6.5 Bionik Laboratories Fiscal Year 2018 Revenue
5.7 Biodex Unweighting Systems
5.7.1 Biodex BioStep 2 Semi-Recumbent Elliptical
5.7.2 Biodex BioStep 2 Helps Patients and Their Therapists Achieve Multiple Rehabilitation Objectives
5.7.3 Older Adults/Preambulation
5.7.4 Cardiac Rehabilitation
5.7.5 Biodex System 4 Pro
5.8 Bioxtreme
5.9 Breg
5.10 Catholic University of America HandSOME Hand Spring Operated Movement Enhancer
5.11 Claflin Rehabilitation Distribution
5.12 DIH International Limited/Hocoma
5.12.1 Swiss Hocoma Merges with Hong Kong Based DIH International
5.12.2 DIH and Hocoma Synergistic Collaboration
5.12.3 Hocoma Partnership With The Slovenian Software Company XLAB
5.12.4 Hocoma Andago
5.12.5 Hocoma Lokomat Functional Electrical Stimulation
5.12.6 Hocoma ArmeoSpring for Stroke Victims
5.12.7 Hocoma ArmeoSpring Based On An Ergonomic Arm Exoskeleton
5.12.8 Hocoma ArmeoSpring Clinical Success
5.12.9 Hocoma Armeo Functional Therapy Of The Upper Extremities
5.12.10 Hocoma ArmeoSpring - Functional Arm and Hand Therapy
5.12.11 Hocoma Valedo Functional Movement Therapy For Low Back Pain Treatment
5.12.12 DIH/Hocoma Revenue
5.13 DJO Global
5.13.1 DJO Global Trademarks, Service Marks And Brand Names
5.13.2 DJO Global Business Activities
5.13.3 DJO/Chattanooga
5.13.4 Chattanooga Active-K CPM (Continuous Passive Motion)
5.13.5 DJO Revenue
5.13.6 Third Quarter Highlights
5.13.7 Business Transformation
5.13.8 Sales Results
5.13.9 DJO Global
5.14 Ekso Bionics
5.14.1 Ekso Rehabilitation Robotics
5.14.2 Ekso GT
5.14.3 Ekso Bionics HULC Technology Licensed to the Lockheed Martin Corporation
5.14.4 Ekso Bionics Customers
5.14.5 Ekso and Lockheed
5.14.6 Ekso Bionics
5.14.7 Ekso Bionics Wearable Bionic Suit
5.14.8 Ekso Gait Training Exoskeleton Uses
5.14.9 Ekso Bionics Robotic Suit Helps Paralyzed Man Walk Again
5.14.10 Ekso Bionics Revenue
5.15 Fanuc - Industrial Robot Automation Systems and Robodrill Machine Centers
5.16 Focal Meditech
5.16.1 Focal Meditech BV Collaborating Partners:
5.17 Hobart Group/Motorika
5.17.1 Motorika
5.17.2 Hobart Group/MedInvest Group/Motorika
5.17.3 Motorika ReoGo
5.17.4 Hobart Motorik ReoGo Portable Platform Shoulder, Elbow, And Forearm
5.17.5 Motorika ReoAmbulator Innovative Robotic Gait Training System
5.17.6 Motorika
5.18 Honda Gait Training
5.18.1 Honda Motor ASIMO Humanoid Robot
5.18.2 Honda Motor
5.18.3 Honda Walk Assist
5.18.4 Honda Stride Management Motorized Assist Device
5.18.5 Honda Builds Unique Transportation Exoskeleton Device Market
5.19 Instead Technologies
5.19.1 Instead Technologies Services:
5.19.2 Instead Technologies
5.19.3 Instead Technologies RoboTherapist3D and 2D
5.19.4 Instead Technologies RoboTherapist3D
5.19.5 Instead Technologies Ultrasound Breast Volumes Breast Explorer
5.20 Interaxon
5.21 iRobot
5.21.1 iRobot/InTouch Health
5.22 Kinova JACO
5.23 KLC Services
5.24 Madison Dearborn Partners
5.25 Mobility Research
5.25.1 Mobility Research HugN-Go
5.25.2 Mobility Research HugN-Go 350
5.25.3 Mobility Research LiteGait
5.26 MossRehab
5.27 Myomo
5.27.1 Myomo mPower 1000
5.27.2 Myomo MyoPro Motion G - Elbow-Wrist-Hand Orthosis
5.27.3 MyoPro Myoelectric Orthotics And Prosthetics
5.27.4 Myomo Neuro-Robotic Myoelectric Arm Orthosis System
5.27.5 Myomo EMG
5.27.6 Myomo Brace For Medical Professionals Permits A Paralyzed Individual To Perform Activities Of Daily Living
5.28 Orthocare Innovations
5.28.1 Orthocare Innovations Adaptive Systems For Advanced O&P Solutions.
5.28.2 Orthocare Innovations Prosthesis
5.28.3 Orthocare Innovations Edison Adaptive Vacuum Suspension System
5.28.4 Orthocare Innovations Edison Adaptive Prosthesis
5.28.5 Orthocare Innovations Intelligent Adaptive Prosthesis
5.28.6 Orthocare Innovations Edison Leg and Ankle
5.28.7 Orthocare Innovations Galileo Connector Technology
5.28.8 Orthocare Innovations Compas
5.29 Performance Health
5.29.1 Performance Health/Paterson Kinetec CPM
5.29.2 Paterson/Kinetec Spectra Knee CPM
5.30 ProMed Products Xpress
5.31 Reha-Stim
5.31.1 Reha-Stim Support Patients In Restoring Arm And Hand Function
5.31.2 Reha-Stim Medtec and YouRehab Merger
5.31.3 Reha-Stim Gait Trainer GT I
5.31.4 Reha-Stim Gait Trainer Target Market
5.31.5 Reha-Stim Support Patients In Restoring And Improving Gait Function
5.32 Rehabilitation Supply
5.33 Rehab-Robotics Company
5.34 ReWalk Robotics
5.34.1 Rewalk Robotics Revenue
5.35 Robotdalen
5.36 RSL Steeper
5.36.1 RSL Steeper Hand Prostheses
5.36.2 RSL Steeper Electronic Assistive Technology Devices for the Home
5.37 R U Robots
5.37.1 RU Robots
5.37.2 RU Robots Sunflower Robot
5.37.3 RU Robots Sophisticated Interactions
5.37.4 RU Robots Care-o-bot
5.38 Secom
5.38.1 Secom Co.Ltd MySpoon
5.38.2 Secom Co.Ltd MySpoon Manual Mode
5.39 Touch Bionics
5.39.1 Touch Bionics' i-limb
5.39.2 Touch Bionics i-limb Muscle Triggers
5.39.3 Touch Bionics I-Limb Methods For Switching Modes
5.39.4 Touch Bionics Prostheses
5.39.5 Touch Bionics Active Prostheses
5.40 Tyromotion GmbH
5.40.1 Tyromotion GmbH Network
5.40.2 Tyromotion Diego - Robotic-assisted arm-rehabilitation
5.40.3 Tyromotion Therapy for Arms and Shoulders
5.41 Other Rehabilitation Robot Companies
5.41.1 Additional Rehabilitation Robots
5.41.2 Selected Rehabilitation Equipment Companies
5.41.3 Spinal Cord Treatment Centers in the US

6. Rehabilitation Robot Variations
6.1 Automated Process for Rehabilitation Robots
6.1.1 Why Rehabilitation is Essential
6.1.2 Rehabilitation Involves Relearning of Lost Functions
6.2 Continuous Passive Motion CPM Definition
6.3 Robotic Exoskeletons Empower Patient Rehabilitation Achievements
6.3.1 Rehabilitation Options
6.3.2 Rehabilitation Robots Economies Of Scale
6.4 Seizing the Robotics Opportunity
6.4.1 Modular Self-Reconfiguring Robotic Systems
6.5 Public Awareness of Rehabilitation Robotics
6.5.1 Rehabilitation Robotics Centers Of Excellence
6.6 Home Medical Rehabilitation Robots
6.6.1 US Veterans Administration Telemedicine and Domestic Robots
6.6.2 Rehabilitation Robots Provide Intensive Training For Patients And Physical Relief For Therapists

For more information about this report visit https://www.researchandmarkets.com/research/737dct/rehabilitation?w=12

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