In 2000, Intuitive Surgical emerged as a pioneer in the field of medical robotics by launching surgical robots into the market. Initially, its focus was on telesurgery, but over the years, this groundbreaking technology has experienced explosive growth. Today, the potential for medical robots seems boundless. Stakeholders across the industry recognize their immense value: they enable minimally invasive procedures, enhance precision in microsurgery, reduce recovery times for patients, and optimize healthcare costs.
Intuitive Surgical, founded in 1995 and based in Sunny Valley, California, is known for designing, manufacturing, and selling the Da Vinci surgical system. This advanced robotic platform significantly reduces the physical burden on surgeons while minimizing patient discomfort and the risk of surgical complications through innovations like micro-control operations and high-resolution imaging.
The Da Vinci Surgical Robot System represents the pinnacle of surgical robotics. Another key area within medical robotics is rehabilitation robotics. With approximately 500,000 people worldwide suffering from spinal cord injuries each year, along with patients recovering from strokes or neurodegenerative diseases, the demand for rehabilitation robots is growing. Devices such as powered exoskeletons, orthoses, and prosthetics are becoming essential tools, and the market is expected to expand rapidly in the coming years.
With advancements in telemedicine, medical professionals can now remotely monitor patients using robots, delivering expert care from a distance and reducing overall healthcare costs. These remote monitoring systems also help protect workers from infectious diseases. The global medical robot market is projected to grow from $3.7 billion in 2016 to $9.3 billion in 2022, reflecting a compound annual growth rate of 17%. While surgical robots dominated the market in 2016 with $3.4 billion in revenue, other segments like rehabilitation and assistive robots have higher sales volumes due to lower average prices.
Medical robots rely heavily on sensors to perceive their environment and perform tasks accurately. These include position and torque sensors for joints, gyroscopes and accelerometers for motion control, pressure and image sensors for visualization, and even neural implants for exoskeletal applications. Sensors are categorized into two types: those specifically developed for medical robotics and others used more broadly. In surgical robotics, tactile perception and high-resolution imaging are critical, and new sensor technologies are being explored to improve these capabilities.
Rehabilitation and assistive robots use various sensing strategies, integrating dozens of sensors for dynamic control, motion tracking, and myoelectric signals. As medical regulations shift toward single-use devices, there's a growing trend toward disposable image sensors replacing traditional laparoscopes. This could revolutionize how image sensors are sold to surgical robot manufacturers.
New players like Cambridge Medical Robotics and TransEnterix are challenging Intuitive Surgical’s dominance, while established companies like Medtronic continue to invest in the space through acquisitions and partnerships. Meanwhile, Alphabet and Johnson & Johnson have joined forces to develop next-generation surgical robots under VerbSurgical, leveraging machine learning and advanced imaging technologies.
The rehabilitation robotics sector is also evolving, with companies like Hocoma leading the way, and startups exploring innovative exoskeleton solutions. Regulatory approvals for products like ReWalk and EksoBionics signal a promising future for this market. As the demand for efficient and precise medical solutions continues to rise, the medical robotics industry is poised for significant growth and transformation.
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Foil and braid shield to guarantee an interference free connection
EMI/RFI interference: Metal connector shield to meet FCC requirements
RoHS Compliant
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