AI in Prosthesis Market Assessment, By Product [Lower Body Prosthesis, Upper Body Prosthesis], By End-user [Hospitals, Prosthetic Clinics, Rehabilitation Centers, Others], By Region, Opportunities and Forecast, 2017-2031F

AI in Prosthesis Market Assessment, By Product [Lower Body Prosthesis, Upper Body Prosthesis], By End-user [Hospitals, Prosthetic Clinics, Rehabilitation Centers, Others], By Region, Opportunities and Forecast, 2017-2031F

Global AI in prosthesis market is projected to witness a CAGR of 6.07% during the forecast period 2024-2031, growing from USD 751 million in 2023 to USD 1203.32 million in 2031. The global AI in prosthesis market is shaped by a combination of key factors, including increased focus on research, government initiatives, increasing prevalence of diabetes, surging geriatric population, rising incidence of road injuries, growing prevalence of bone cancer, and increased adoption of Japanese technologies to develop prosthesis.

Many significant variables are influencing and changing the global AI in prosthesis market environment. The increased emphasis on research and development in the field, which is expanding the realm of prosthetic technology and utilizing innovative AI to produce more sensitive and adaptable prosthetics, is one of the main driving forces. Government programs, which offer financing, rules, and policies that encourage innovation and accessibility due to innovative prosthetic solutions, are essential for the expansion of global AI in prosthesis market.

The expansion of global AI in prosthesis market is greatly aided by the rising senior population and the rising prevalence of diabetes. Diabetes can cause peripheral artery disease and neuropathy, which frequently lead to amputations and the need for prosthesis.

Other important concerns affecting the global AI in prosthesis market include the rising incidence of bone cancer and traffic traumas. To improve the quality of life for those impacted by these regrettable but frequent causes of limb loss, novel prosthetic treatments must be developed and adopted. Consequently, the development of prosthetics is benefiting from the integration of Japanese technologies, which are renowned for their accuracy and sophisticated engineering, as these technologies improve the devices' usefulness and efficiency and encourage the wider global adoption of prosthetics. Combining these elements results in a dynamic and quickly changing global AI in the prosthesis market centered on utilizing technology breakthroughs to satisfy the growing need for superior prosthetic care.

For example, in March 2023, Jizai Arms, a Japanese robotics company, stated that it has developed a system of AI robotic limbs that can be joined to and controlled by humans, extending the capacity to use six arms simultaneously.

Increased Focus on Research

Due to a greater emphasis on research and development, the global AI in prosthesis market is expanding significantly. Increased focus on research, prosthetic technology is advancing at a rapid pace. AI is being used to create more responsive, adaptive prostheses that closely resemble normal limb function. Through R&D investments, businesses and academic organizations are expanding the potential applications of artificial intelligence in prosthetics, resulting in breakthroughs that provide users with greater mobility and a higher quality of life. The creation of advanced AI-enabled prostheses is becoming a crucial difference in the market, where the spike in research efforts is drawing investment and creating a competitive environment.

For example, in January 2023, researchers at North Carolina State University launched new software that can help people walk on various terrain more safely and naturally when using robotic prosthetics or exoskeletons. Robust artificial intelligence algorithms and computer vision are features of the new framework that enable prosthetic limb control software to handle uncertainty effectively.

Government Initiatives

Through several programmes, government organizations around the world are significantly contributing to the growth of global AI in prosthesis market. These initiatives include financing R&D projects, giving grants to organizations and entrepreneurs developing prosthetic solutions, and creating laws that support the application of AI in healthcare. Governments are providing financial support and regulatory frameworks to foster an environment favorable to advancing prosthetic technologies. These programmes guarantee that individuals in need have access to and can afford state-of-the-art prosthetic devices and encourage innovation. Government assistance, therefore, plays a crucial role in propelling the growth and development of global AI in the prosthesis market and enabling technological advancements that improve the integration and functionality of prosthetic devices.

For example, the K. Lisa Yang Centre for Bionics at MIT and the government of Sierra Leone collaborated in February 2023 to enhance the services and capacities of the O&P (orthopedic and prosthetic) industry in that nation. In Sierra Leone, thousands of individuals require artificial limbs and orthotic braces, yet there is a dearth of access to such specialized medical care.

Growing Demand for Prosthetic Hand

The growing need for prosthetic hands is one of the main factors driving the significant rise of the global AI in prosthesis market. The demand of those who have lost limbs due to illnesses, accidents, or congenital disorders is causing the rise in demand for solutions that provide basic functionality and improved agility and control. Artificial intelligence is essential to create prosthetic hands, which resemble normal hand movements more closely, learn from the user's behavior, and adapt to different jobs and settings. It, in turn, stimulates investment and innovation in the industry.

For instance, in February 2022, the engineering startup Esper Bionics, based in New York, created a prosthetic arm, which uses self-learning technology, which is intuitive and can predict intended movement more quickly than prostheses of a similar nature. Esper Hand generates movement via brain-computer interface (BCI) based on electromyography, a computer-based technological system that collects brain activity or data.

Increasing Use of Prosthetic Thigh

The growing number of people using prosthetic thighs is one of the main factors driving the rise of the global AI in prosthesis market. The increasing number of thigh amputations brought on by illnesses, including diabetes, injuries, and aging-related wear and tear, are the main causes of the trend. Artificial intelligence improves prosthetic thighs by allowing them to adjust to the user's gait, terrain, and walking speed, resulting in a more efficient and natural gait. Improved mobility and comfort are made possible by integrating AI, which closely resembles how a human thigh naturally functions. Manufacturers are investing in AI to create more innovative, more adaptable prosthetic thighs in response to the growing demand for such innovative prosthetic solutions, which is fueling innovation and growth in global AI in prosthesis market.

For example, in March 2023, the Ministry of Science and ICT-affiliated Korea Institute of Machinery and Materials developed a smart, customizable prosthetic socket that uses artificial intelligence to detect space inside the socket in real time and automatically fills it with air.

North America Dominates the Market

Due to several important considerations, North America is presently the market leader in the global AI in prosthesis market. The region, especially in the United States and Canada, is known for its highly developed healthcare infrastructure and strong emphasis on research and innovation. Leading tech firms and academic institutions at the forefront of artificial intelligence and prosthetics development are in these nations. Additionally, North America gains from supportive government regulations and significant investments in medical technology, including artificial intelligence applications in prosthetics. The developments in AI-enabled prosthetic devices fostered by this supportive ecosystem meet a sizable group of amputation victims' needs.

For instance, in August 2023, BionicM revealed that they have registered for 510(k) exemption from the US Food and Drug Administration (FDA) for Bio Leg, their robotic prosthetic knee. The company has committed to bring its robotic prosthetic knee with Japanese-proven technologies to the United States market by 2024, and its registration is a major step towards that goal.

Future Market Scenario (2024 – 2031F)

Global AI in the prosthesis market will flourish due to a greater emphasis on personalization, with devices being customized to the user's activities, lifestyle, and physical state. Artificial intelligence algorithms will advance to understand better and anticipate user needs, providing more organic and intuitive limb movements and real-time terrain and activity adaptation.

It is anticipated that more prosthetic devices will incorporate sensory feedback. This will improve the prosthesis' overall functionality and user experience by enabling users to feel tactile sensations, propelling the growth of global AI in the prosthesis market.

AI-enabled prostheses are expected to become more accessible and cheaper for a broader range of people as technology develops and production costs fall.

The increased awareness of modern prosthetic solutions and rising healthcare investments are expected to propel the growth of global AI in prosthesis market.

Key Players Landscape and Outlook

Partnerships are becoming increasingly common among businesses in the global AI in prosthesis market as a tactical tool for expanding product offerings, quickening innovation, and breaking into new markets. To combine knowledge in AI, engineering, and medical science, technology companies, healthcare organizations, and academic institutes frequently collaborate in these ways. Partners can accelerate the development of innovative prosthetic systems that are more user-friendly, effective, and customized to individual needs by combining their resources and expertise. These partnerships promote rapid technical growth and innovation by facilitating the sharing of research findings, proprietary technologies, and market insights. Partnerships enable businesses to reach a wider audience by utilizing collaborative networks while sharing the cost of research and development.

For instance, in January 2024, the biotech startup Aether Biomedical, which develops state-of-the-art intelligent prosthetic hands, announced its collaboration with the Superhumans Center in Ukraine to provide bionic Zeus Hands to injured Ukrainians. Zeus Hand enables local bionic hand repairability, components that require updating or replacement can be switched out.