Rehabilitation Robots Market Size, Share, Growth & Industry Analysis, By Type (Therapy Robots, Exoskeleton Robots, Assistive Robots), By Application Site (Upper Body, Lower Body), By End-User (Rehabilitation Centers, Hospitals, Others), and Regional Analysis, 2024-2031

Rehabilitation Robots Market Size

The Global Rehabilitation Robots Market size was valued at USD 393.2 million in 2023 and is projected to grow from USD 457.5 million in 2024 to USD 1429.6 million by 2031, exhibiting a CAGR of 17.68% during the forecast period. The ability of rehabilitation robots to deliver measurable improvements in clinical outcomes is propelling market growth. These robots provide precise and repetitive therapy, which accelerates recovery and enhances motor skills, mobility, and strength.

The improved recovery rates associated with robotic therapy make it an attractive option for healthcare providers, leading to increased adoption to enhance patient care. In the scope of work, the report includes products and services offered by companies such as Kinova Inc, Rex Bionics Ltd., BIONIK, Ekso Bionics, Lifeward, Inc., Siemens Healthineers AG (Corindus, Inc.), Hocoma, Bioxtreme Ltd., Rehab-Robotics Company Limited, CYBERDYNE INC., and others.

The growing global aging population is contributing significantly to the expansion of the rehabilitation robots market. Age-related conditions such as stroke, arthritis, and neurodegenerative diseases are becoming increasingly prevalent, increasing the demand for rehabilitation solutions.

• From 1974 to 2024, the global share of individuals aged 65 and older nearly doubled, from 5.5% to 10.3%. United Nations Population projections indicate this percentage will double again by 2074, reaching 20.7%. Additionally, the population of those aged 80 and above is expected to more than triple, highlighting significant demographic shifts in aging populations across the globe.

Rehabilitation robots offer targeted therapies for elderly patients, improving mobility and independence. This growing need for long-term care and rehabilitation services is fueling the expansion of the rehabilitation robots market, providing a cost-effective and efficient solution to address the rehabilitation needs of the aging population.

Rehabilitation robots are assistive devices designed to aid in the recovery and rehabilitation of individuals with physical impairments or disabilities. These robots are typically used in medical settings to help patients regain motor skills, mobility, and strength through guided exercises, repetitive motions, and tailored therapies. These robots are effective for conditions such as stroke recovery, neurological disorders, and musculoskeletal injuries.

Rehabilitation robots often incorporate advanced technologies such as robotics, artificial intelligence, and sensors to provide real-time feedback, adjust therapy intensity, and enhance patient engagement and progress during the rehabilitation process.

Analyst’s Review

Companies and emerging startups in the medical robotic technology sector are adopting several key strategies to promote the adoption of rehabilitation robots. A primary approach involves developing user-friendly, home-based rehabilitation robots that allow patients to continue their therapy outside traditional healthcare settings. These robots incorporate remote monitoring and personalized therapy features, enhancing accessibility and convenience, particularly for individuals in rural areas or with mobility limitations.

Through continuous R&D investments, these companies are prioritizing technological advancements to enhance the effectiveness of rehabilitation robots, making them more responsive to individual patient needs.

EIT Health highlights that a consortium led by ABLE Human Motion, an innovative start-up supported by EIT Health, received USD 3.00 million in funding from 2020 to 2022 through an EIT Health innovation project. This funding facilitated the validation and certification of the ABLE Exoskeleton for spinal cord injury patients in clinical settings.

The team successfully conducted clinical trials in leading neurorehabilitation hospitals in Germany and Spain, with support from EIT Health's network. The robotics start-up has recently achieved CE Mark certification for the ABLE Exoskeleton under the new Medical Device Regulation (MDR) for spinal cord injury rehabilitation and is working to expand its indications to include multiple sclerosis and stroke.

Furthermore, companies are forming strategic partnerships with healthcare providers, insurance companies, and research institutions to integrate rehabilitation robots into mainstream healthcare systems.

These collaborations enhance accessibility and ensure the technology is supported by healthcare professionals, building trust and fueling adoption. As a result, these strategies are expanding their market presence and fostering the growth of rehabilitation robots in the medical robotic technology sector.

Rehabilitation Robots Market Growth Factors

The rising prevalence of chronic diseases and disabilities is contributing significantly to the growth of the rehabilitation robots market. Conditions such as stroke, cardiovascular diseases, and neurological disorders result in long-term rehabilitation needs.

• A September 2023 report by the World Health Organization indicates that noncommunicable diseases (NCDs) account for 74% of global mortality, causing 41 million deaths annually. Cardiovascular diseases lead with 17.9 million deaths, followed by cancer at 9.3 million, chronic respiratory diseases at 4.1 million, and diabetes with associated kidney complications at 2 million fatalities.

Rehabilitation robots provide targeted therapies that improve recovery outcomes for individuals with chronic conditions. The demand for these solutions is expected to increase as the global population faces an increasing burden of chronic illnesses. This trend is driving the adoption of rehabilitation robots in hospitals and rehabilitation centers, thereby spurring market growth.

Furthermore, in 2024, the World Health Organization reported that more than 15 million people globally are affected by spinal cord injuries, primarily caused by accidental falls, road accidents, and trauma. The rising prevalence underscores the growing demand for advanced rehabilitation technologies, particularly exoskeleton robots.

Rehabilitation robots optimize resource allocation in healthcare by providing cost-effective, automated therapy solutions that reduce the need for constant human intervention. By increasing the efficiency of rehabilitation processes, these robots enable healthcare providers to serve more patients without a proportional increase in staff or costs.

Hospitals and rehabilitation centers are increasingly focused on reducing operational costs while maintaining high-quality care, thereby propelling the expansion of the rehabilitating robots market.

However, the high cost of rehabilitation robots remains a significant restraint to market growth. These advanced devices often require substantial investment for development and implementation, making them less accessible to healthcare providers, particularly in low-resource settings. High initial costs, along with ongoing maintenance and training expenses, limit widespread adoption.

To address this challenge, companies are focusing on reducing production costs through innovation and economies of scale. Additionally, partnerships with healthcare providers and government funding initiatives are enhancing affordability, while flexible pricing models and leasing options are improving accessibility.

Rehabilitation Robots Industry Trends

Technological advancements in robotics and artificial intelligence are a notable trend in the rehabilitation robots market. Robotics technology has evolved significantly, resulting in more precise, adaptable, and user-friendly devices.

The integration of AI further enhances the capabilities of rehabilitation robots by enabling real-time data analysis, personalized treatment plans, and continuous patient monitoring. These innovations improve therapy effectiveness and accelerate recovery times.

• In November 2024, ReWalk Robotics, Ltd. (Lifeward Inc.) unveiled a next-generation exoskeleton proof-of-concept. Developed under the Israel Innovation Authority’s MAGNET incentive program within the Human Robot Interaction Consortium, the prototype incorporates advanced sensing technologies and artificial intelligence, enabling autonomous decision-making. This marks a major advancement in the development of intelligent robotic solutions.

The integration of robotics and AI is key to meeting the growing demand for advanced and efficient rehabilitation solutions, contributing to market expansion.

The integration of rehabilitation robots into healthcare ecosystems is stimulating the expansion of the rehabilitation robots market. The adoption of digital health technologies, including telemedicine and remote monitoring, has enhanced the accessibility and versatility of robotic rehabilitation systems.

Patients can now receive therapy sessions remotely, enhancing convenience and reducing the burden on healthcare facilities. This growing demand for advanced rehabilitation solutions is further expanding the market.

Segmentation Analysis

The global market has been segmented based on type, application site, end-user, and geography.

By Type

Based on type, the market has been segmented into therapy robots, exoskeleton robots, and assistive robots. The therapy robots segment led the rehabilitation robots market in 2023, reaching a valuation of USD 150.5 million. These robots are designed to support various therapies, including physical, occupational, and neurological rehabilitation, making them highly versatile.

The growing demand for improved patient outcomes, particularly for stroke and spinal cord injury recovery, is boosting their adoption. Therapy robots enhance precision and consistency in therapy, enabling patients to perform repetitive exercises critical for motor recovery. Their integration into healthcare systems allows for scalable and efficient rehabilitation, contributing to segmental expansion.

By Application Site

Based on application site, the market has been classified into upper body and lower body. The upper body segment secured the largest revenue share of 56.90% in 2023, mainly due to its critical role in facilitating essential daily functions such as mobility, feeding, and personal care.

Rehabilitation robots for the upper body are essential for patients with neurological impairments or spinal cord injuries, as they help restore independence by addressing upper body weakness or paralysis. These robots provide precise therapy, improving strength, coordination, and functionality, which significantly improves patients’ quality of life.

Moreover, advancements in robotic technology allow for tailored rehabilitation, increasing the effectiveness of these devices and boosting their growing adoption in clinical settings, thus aiding segmental growth.

By End-User

Based on end-user, the market has been divided into rehabilitation centers, hospitals, and others. The rehabilitation centers segment is set to grow at a robust CAGR of 17.99% through the forecast period. Rehabilitation centers are equipped with infrastructure to integrate sophisticated robotic technologies, enhancing patient care.

These robots offer precise, repeatable, and intensive therapy, critical for patients recovering from neurological or musculoskeletal impairments. Furthermore, real-time data tracking allows for personalized treatments for optimal recovery. The high patient volume in these centers and the ability to invest in cutting-edge technologies reinforce the dominance of the segment.

Rehabilitation Robots Market Regional Analysis

Based on region, the global market has been classified into North America, Europe, Asia Pacific, Middle East & Africa, and Latin America.

The North America rehabilitation robots market held a notable share of around 38.02% in 2023, with a valuation of USD 149.5 million. This growth is largely attributed to North America’s well-established and technologically advanced healthcare infrastructure.

Healthcare facilities in the region are rapidly adopting cutting-edge technologies to enhance patient care, with rehabilitation robots playing a key role in improving recovery outcomes. The integration of these devices in hospitals and rehabilitation centers, along with the availability of skilled professionals, is fostering the growth of the regional market.

• A November 2024 study conducted by NewYork-Presbyterian revealed that 64.9% of clinicians favored utilizing the device for both rehabilitation and daily household tasks, while 28.6% preferred it solely for rehabilitation and 6.6% for assistance. The device was seen as applicable in outpatient (85.1%), acute rehabilitation (61.7%), and subacute rehabilitation (57.8%) settings, highlighting its versatility across all stages of stroke recovery. Additionally, 37.5% of participants believed it could be effectively used in home settings, broadening its potential applications.

Additionally, the region’s advanced research capabilities contribute to ongoing innovations in robotic rehabilitation technology.

Moreover, governments in North America, particularly in the U.S. and Canada, are providing substantial funding and incentives to support the development and adoption of healthcare technologies, including rehabilitation robots.

Public health initiatives focused on improving rehabilitation services and reducing healthcare costs are boosting the adoption of robotic rehabilitation solutions. Additionally, federal and state-level funding for medical research and innovation is supporting the growth of the North America market, with government-backed grants fostering the development of advanced robotic systems for patient recovery.

The Asia-Pacific rehabilitation robots market is projected to grow at a robust CAGR of 18.43% over the forecast period. The region is witnessing rapid development in the robotics industry, propelled by significant R&D investments. Innovations in rehabilitation robot technologies, including exoskeletons, AI-powered systems, and wearable devices, are enhancing product effectiveness.

Countries such as Japan and South Korea are at the forefront, developing cutting-edge robotic solutions tailored to rehabilitation needs. The region’s emphasis on technological advancements and local innovations is bolstering Asia-Pacific market growth, with a focus on addressing unique needs of the customers.

In emerging economies such as India, China, and Southeast Asia, improved access to healthcare services is increasing the demand for rehabilitation technologies. Growing middle-class populations and improved healthcare financing mechanisms are enabling more patients to access rehabilitation services. Rehabilitation robots, offering scalable and effective rehabilitation solutions, are becoming an integral part of these expanding healthcare systems.

Competitive Landscape

The global rehabilitation robots market report will provide valuable insight with an emphasis on the fragmented nature of the industry. Prominent players are focusing on several key business strategies such as partnerships, mergers and acquisitions, product innovations, and joint ventures to expand their product portfolio and increase their market shares across different regions.

Strategic initiatives, including investments in R&D activities, the establishment of new manufacturing facilities, and supply chain optimization, could create new opportunities for market growth.

List of Key Companies in Rehabilitation Robots Market

• Kinova Inc
• Rex Bionics Ltd.
• BIONIK
• Ekso Bionics
• Lifeward, Inc.
• Siemens Healthineers AG (Corindus, Inc.)
• Hocoma
• Bioxtreme Ltd.
• Rehab-Robotics Company Limited
• CYBERDYNE INC.

Key Industry Developments

• November 2024 (Partnership): CYBERDYNE Inc. partnered with the Japan International Cooperation Agency’s Emergency Recovery Project in Ukraine to supply HAL robotic suits and other Cybernics products. The partnership secured a USD 2.4 million order for 46 HAL robotic units.
• August 2023 (Acquisition): Lifeward Inc. acquired AlterG, Inc., a leading provider of Anti-Gravity systems for neurological and physical rehabilitation.

The global rehabilitation robots market has been segmented as:

By Type

• Therapy Robots
• Exoskeleton Robots
• Assistive Robots

By Application Site

• Upper Body
• Lower Body

By End-User

• Rehabilitation Centers
• Hospitals
• Others

By Region

• North America
  • U.S.
  • Canada
  • Mexico
• Europe
  • France
  • U.K.
  • Spain
  • Germany
  • Italy
  • Russia
  • Rest of Europe
• Asia-Pacific
  • China
  • Japan
  • India
  • South Korea
  • Rest of Asia-Pacific
• Middle East & Africa
  • GCC
  • North Africa
  • South Africa
  • Rest of Middle East & Africa
• Latin America
  • Brazil
  • Argentina
  • Rest of Latin America