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Considered the best robot in the world for use in the health area, the R1T1 has a wide range of applications in the hospital sector. Check out some of its features.

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          _cc781905-5cde-3194 -bb3b-136bad5cf58d_         Integração com Sistemas Hospitalares

The R1T1 is capable of integrating with virtually all hospital systems. Exemplo: sistemas de gestão, prontuário eletrônico, servidores PACS, etc.​​​​

          _cc781905-5cde-3194 -bb3b-136bad5cf58d_         Integração com Equipamentos Hospitalares

The R1T1 integrates with the most diverse types of hospital equipment. Example: Ultrasound, x-ray, defibrillator, endoscope, stethoscope, oximeter, otoscope, ophthalmoscope, dermatoscope, microscope, skin cameras, auxiliary cameras, infrared, lasers, ultraviolet, syringe pump, volumetric infusion pump, ECG, SPO2 , NIBP, etc.

          _cc781905-5cde-3194 -bb3b-136bad5cf58d_         Monitoramento Cardíaco, Respiratório e de Temperatura

A few seconds in front of the R1T1, without any kind of physical contact, is enough for it to be able to measure your heart rate, breathing rate and temperature. Being the intensity of the same also demonstrated through graphs. *First telepresence robot to offer such functionality.

          _cc781905-5cde-3194 -bb3b-136bad5cf58d_       _cc781905-4cde-3bad5cf58d Viewer

​​​The R1T1 has the innovative visualization system of peripheral veins up to 0 mm 97%. Its vein finder helps hospital staff observe the deeper vasculature with great precision. *First robot in the world to offer such functionality.


Vascular access through venous infusion is part of the routine of all hospital departments, such as laboratory, emergency, ICU, oncology, radiology, dialysis, blood centers, etc. Studies show that the most experienced professional has an average of 2.4 successful attempts to access a patient's vein. These numbers generate waste of material, time, stress and possible discomfort in the patient/health professional relationship.


Without any kind of physical contact, the R1T1 provides an accurate, real-time image of the patient's blood flow so that medical staff can clearly observe the tiny blood vessels under the skin. This significantly reduces the difficulty of venipuncture and patients' fear of injections.


This system is especially useful in helping medical teams to assess superficial vessels in a safer, more efficient and more intuitive way. It is possible to find the blood vessels in an agile way,  locating them easily and quickly before the puncture. There is an improvement in patient satisfaction, a reduction in the work intensity of the medical teams and attenuation of the psychological stress of health professionals.

          _cc781905-5cde-3194 -bb3b-136bad5cf58d_         Design e Revestimento Anti-bactericida

With a special anti-bacterial coating, a specially designed design to prevent the accumulation of microorganisms and easy to clean, the R1T1 is ideal for hospital infection control. *First telepresence robot to offer such functionalities.

          _cc781905-5cde-3194 -bb3b-136bad5cf58d_       _cc781905-4cde-3bad5bdology system

Multiplanar Imaging System (MPR) in 2D and 3D. *First robot to offer DICOM imaging system in the world.


  • Medical viewer capable of performing reconstructions, managing, viewing and manipulating 2D and 3D exams.

  • Compatible with all DICOM imaging exams. Example: X-ray, ultrasound, tomography, MRI, etc.

  • Ability to change contrasts for better exploration and analysis of exams.

  • Ability to connect to the hospital PACS server and cloud integration.

  • Friendly and intuitive touchscreen interface.

  • Ability to take notes, measurements and generate exam reports.

  • Study bookstore in different modalities for exploration and teaching.​

                  3D Printing of Real Volumetric Reconstructions of the Human Body

Ability to edit and 3D print human body parts from medical exams. *First robot to offer medical CAD in the world.


Especially useful in:


  • Surgical planning: Reduction of surgery time and cost through the study of biomodels.

  • Neurosurgery: Precise impression of skullcap.

  • Oral and maxillofacial: Non-invasive prototyping of the jaws and bones and tissues of the face.

  • Orthopedics: Prototyping and printing models for replacing bone parts.

  • Bioprint: Printing of biocompatible tissues for implants and replacement.

  • Dental: Reduction of time in prototyping and printing of prostheses and increase in precision.

  • Vascular: Prototyping and precise production of prostheses for aortic aneurysms.

  • Pharmaceutical: Human tissue printing for drug testing.

  • And many other applications.

                    Surgical planning and training

Ability to create flexible objects that mimic the feel of human tissue. These planning steps allow life-threatening complications to be identified before the patient is on the operating table. *First robot to offer surgical planning and training in the world.


An example of use is in neurosurgery where these models are used to plan complex procedures, such as repair of brain aneurysms. The process begins with a CT scan of the patient's brain and identification of critical regions of the vascular network (blood vessels) as 3D surfaces. These surfaces are used as the basis for designing a printable model that the surgeon can inspect. The model can also be connected to pumps that mimic blood flow and inserted into a simulated surgical environment.

          _cc781905-5cde-3194 -bb3b-136bad5cf58d_       _cc781905-4cde-3bad5b5cf-319 Assistive Technology

Innovation as a tool for integration. Project Company believes in playing an active role in minimizing the social distancing of people with disabilities, contributing to the elimination of barriers and limitations in terms of mobility, access to information and communication technologies. As well as working on the differences that exist between different groups of people with different disabilities, according to their abilities to use technology effectively.


  • Complete interaction solution with the R1T1 through the exclusive use of eye movement (hands-free). *First robot in the world to offer such functionality.

  • Complete interaction solution with the R1T1 through the exclusive use of head movement (without using hands). *First telepresence robot to offer such functionality.

  • Interaction through hand gestures. *First telepresence robot to offer such functionality.

  • Interaction through voice commands. *First telepresence robot to offer such functionality.

  • Ability to speak and read texts with a personalized voice. *First robot in the world to offer such functionality.

  • Facilitated and personalized design, together with optimized communication for the education and treatment of people with special needs. Example: Autism, Rett Syndrome, Amyotrophic Lateral Sclerosis (ALS), etc.

          _cc781905-5cde-3194 -bb3b-136bad5cf58d_       _cc781905-4cde-3b5cf Fidotherapy system

Capable of tracking all of your body's movements, the R1T1 has a complete traditional physiotherapy system. Its innovative proposal consists of, through playful games, presenting a way to motivate people to get better in a faster, easier and more fun way, being ideal for recovering patients from surgery or injury. *First robot in the world to offer such functionality.


Motivating patients to exercise during rehabilitation is a challenge, especially if the treatment contains highly repetitive and painful exercises. Based on the best clinical practices and experience of expert physical therapists, the R1T1 was designed to make the traditional physical therapy system more fun and convenient for recovering patients, it transforms existing physical therapy exercises into video games, and uses its sensors to track and evaluate the patient evolution in a way:


  • Fast: Total recovery time becomes less with greater patient engagement.

  • Easy: All games are simple in design and easily followed by anyone.

  • Fun: Increased patient engagement by using personalized video games.


Thus, patients are able to progress to different levels within the games, while simultaneously performing rehabilitation movements. Meanwhile, the system tracks the patient's performance, measuring certain parameters, such as the speed at which the patient performs a movement. In this way, the clinician can easily find out how the patient is performing the given exercises and can adjust the patient's therapy schedule accordingly.



Main Issues Addressed:

  • Neurological: Hemiparesis, tetraparesis, Parkinson's disease, dystonia, autism, stroke, reflex disorders, proximal myopathy, cognitive incoordination, etc.

  • Orthopedic: Osteoarthritis, osteoporosis, postoperative, fractures, posture, muscle weakness, osteomalacia, shoulder surgeries, frozen shoulder, musculotendinous disorders, arthritis, Paget's disease of the bone, etc.

  • Others: Diabetes, orthostatic hypotension, circulatory disorders, etc.


Target Functions:

  • Reflexes, develop upper limb coordination, improve upper limb flexibility and range of motion, correct posture, bilateral arm coordination, hand-eye coordination, reaching for objects, restricted speed movements, etc.

          _cc781905-5cde-3194 -bb3b-136bad5cf58d_         Sistemas e Equipamentos de Oftalmologia

Measuring the degree of vision is a vital indicator of eye health and general health. Visual ability tests help us decide who needs specialist review, who needs treatment, and the success of the treatment given. Among these tests are multiple ways of testing vision, including acuity (central vision), contrast, color, and visual fields (peripheral vision). *First robot in the world to offer such functionalities.


Vision simulations are used to help understand a person's vision and interpret test results intuitively.


Vision Test (Acuity):The ophthalmology software calculates the patient's degree of vision and presents at the end of the test a statement to show how the visual world looks to the person who tested it against what it would look like in normal vision.


Contrast Sensitivity Test:Although visual acuity is the most recognized measure of a person's vision, detection of contrast levels provides additional information on visual status and optic nerve function, supporting a greater understanding of a person's form of vision.

Coloring Test:The color vision test is useful for detecting color blindness, a common condition that often goes undiagnosed. There are several types of color vision defects and each one ends up affecting people differently, for example, not being able to differentiate certain colors can be a problem when trying to read the subway map.


Ophthalmoscope:Through its special camera, the R1T1 makes it possible to visualize and capture images of the retina, and can be used in basically any environment, whether in specialized clinics or more rustic areas in situations that are not so conducive to lighting. *First robot in the world to offer such functionality.

          _cc781905-5cde-3194 -bb3b-136bad5cf58d_         Sistemas e Equipamentos de Sequenciamento de DNA/RNA

R1T1 offers direct, scalable, real-time DNA sequencing. As well as direct RNA sequencing, PCR or cDNA sequencing without PCR. *First robot in the world to offer such functionality.

This is made possible through nanopore technology where a nanopore protein is attached to an electrically resistant polymer membrane. Then an ionic current is passed through the nanopore, setting a voltage across this membrane. If an analyte, such as a strand of DNA, passes through the pore or near its opening, this event creates a characteristic interruption in the current, that is, the current is altered as the G, A, T, and C bases pass through the pore. pore in different combinations. Thus, the measurement of this current makes it possible to identify the molecule in question.

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