The global market for robotic rehabilitation and assistive technologies is growing, due in part to an aging population and the increased survival rate from medical disorders.
These technologies can provide additional therapeutic exercises through robotic interventions, and enable patients with developmental conditions or motor impairment to gain more independence.
Fly Around Robotic Rehabilitation
The global robotic rehabilitation and assistive technologies market is expected to grow at a compound annual growth rate (CAGR) of 13.1% from 2017 to 2025, reaching a valuation of $2.29 billion by the end of the period, according to Transparency Market Research.
The leading players in the market include Vincent Medical, Accuray Inc., Ekso Bionics Holdings Inc., DIH Technologies Corp., and Mazor Robotics. Japan is the most prominent market for these technologies, and is expected to continue to be so for the coming few years.
The four key areas in the robotic rehabilitation and assistive technologies market are:
1) products for stroke rehabilitation;
2) products for Parkinson’s disease;
3) products for multiple sclerosis; and
4) products for lower back pain.
Robotic rehabilitation systems are increasingly being seen as a way to offer patients increased access to therapy exercises, especially in cases where traditional physiotherapy resources are not available. These systems can help patients perform repetitive tasks and exercises for recovery and daily life, as well as help to track their progress and condition.
The Future of Accessibility Robots
There are three main groups of people who have limited physical capabilities: those with congenital disabilities, those whose physical capabilities have been limited by accidents or illness, and those who have gradually lost their physical strength due to aging.
Assistive technologies such as exoskeletons and soft robotics can help these groups protect their health and enhance and prolong their independence. For instance, Kinova Inc. makes arm systems to provide upper-body mobility.
Intelligent Prosthetics are a viable solution for:
<> people who have undergone amputations
<>due to vascular and circulatory problems,
<>cancer,
<>diabetes, or
<>trauma.
The Smart BioLeg, being developed at the University of Leeds in the U.K., is an example of an intelligent prosthetic that is highly robust and adaptable to changing situations. This new generation of prostheses is plug and play in nature, and the limb is able to self-tune itself to stairs, level surfaces, or slopes to provide optimum performance.
Back to School
Robots are increasingly being used in rehabilitation and assistive technologies to help children with motor disabilities.
These children often have lower fitness levels and reduced participation in social activities, which can negatively impact their education and development. Trexo Robotics’ system is one example of how these technologies can help children be more independent.
Source: https://www.therobotreport.com/robotic-rehabilitation-assistive-tech-revolutionize-physiotherapy/