Robotic Rehabilitation and Assistive Technologies Are Gaining Popularity Due To Increasing Need for Rehabilitation among Population across the Globe
Using robots in rehabilitation allows for greater access to therapy exercises for patients. They can also provide higher quality treatment at lower cost. There are a variety of rehabilitation robots on the market, and they can be used to help patients with stroke and other neurological conditions. These devices can also assist with high intensity task dosing, minimizing the strain on the therapist.
Robotic Rehabilitation and Assistive Technologies may target a specific body part, such as the hip, shoulder, wrist, or ankle. They can also help with repetitive exercises. Some devices can provide visual or auditory feedback. This can help motivate patients during the therapy process. In the future, robotics may be used to help lower back pain. Along with helping patients, they can also provide a lucrative revenue stream for companies.
Robotics can also help patients with disabilities gain more independence. They are being developed for various purposes, and they can help people with neurological disorders, orthopedic injuries, and strokes. The devices can also provide more options for patients to be able to perform everyday tasks, and they can help patients with their overall well-being.
Assisted robotics technologies have been gaining popularity in the global market. This is mainly due to the growing geriatric population. The aging population has a higher risk of developing orthopedic disorders. Increasing incidences of cardiovascular and orthopedic disorders are contributing towards the growth. Moreover, the growing use of robotics for rehabilitation has boosted the revenue growth of the Robotic Rehabilitation and Assistive Technologies.
Currently, there are a number of research projects and trials in rehabilitation robotics. These robotic devices are used to augment rehabilitation for patients with different sensorimotor functions. These devices are capable of performing repetitive tasks and undertaking exercises to help improve mobility and improve patient's condition.
Moreover, these robots can be used to assess the patient's performance in different tasks. This can be helpful in planning treatment sessions and determining goals. It can also help in long-term clinical evaluation. These devices can help improve mobility and help reduce expenses by reducing physiotherapy staff's burden. They may also have tone/reflexive movement features to help with motor function assessment.
The Robotic Rehabilitation and Assistive Technologies is also influenced by technological advancements in medical engineering and a growing geriatric population. Moreover, the increase in the number of people with disabilities is also a major driver of the market. It has been estimated that around 15% of the global population is affected by some form of disability. This group includes people with limited physical capabilities due to congenital disabilities, disease or natural aging.
Active-assistive robotic therapy is becoming increasingly common in clinical therapy settings. It has been found that these devices can help improve motor function, reduce spasticity and increase range of motion. This type of technology has been shown to be effective in stroke rehabilitation.
Moreover, there are a number of in-clinic Robotic Rehabilitation and Assistive Technologies such as exoskeletons. These are expensive devices that usually encompass the arm or upper extremity. These devices are used to treat adults with coordination disorders and children with cerebral palsy. Furthermore, these devices can also help with movement of patients with lower back pain.