Bitrack System - Surgical Robotics Technology

Improve the efficiency of current robotic solutions

• Balance between added value and cost

Precision and performances

• Submillimetre precision
• Designed to perform a large scope of abdominal and pelvic surgical procedures

Safety and Usability

• Dynamic fulcrum point to reduce the forces in incision point.
• New automatic functions to avoid a potential unexpected movements
• Improve work flow
• High patient accessibility
• Minimum footprint impact: breaks entry barriers for small and medium hospitals

Indirect Costs: Time efficient

• Short draping and docking process
• Fast switch from MIS to MIRS
• Reduction of intervention time
• Short training pathway

Cost reduction

• Price reduction of Robotic System
• Avoid cost of auxiliary equipment. Integrate with hospital equipment
• Single use instruments avoid cleaning and logistics cost
• Lower personnel cost

The unique robotic column architecture provides a multi-quadrant surgical access which allows robotic station placement in any position around the patient, enabling four-quadrant anatomical access and complete patient accessibility.

Designed to overcome the limitations of current robotic systems.

ROBOT

• 4 arms
• 2 passive articulation
• Generic Vision System
• Generic trocars
• Generic trocars location
• High patient accessibility
• Footprint reduction
• PATENTED

CONSOLE

• Generic 3D screen
• 7 degree of freedom
• Large and ergonomic workspace
• Short Learning curve
• PATENTED

Precision and performance

• 7D of Freedom
• Submillimetre Precision

Hybrid Surgery concept

• Allows combine MIS & MIRS

Open platform

• Compatible with conventional instruments, trocars, cameras, ESU

Minimum footprint impact

• High patient accessibility

Efficient robotic solution

• Intervention time reduction
• Docking < 30″ per arm
• Draping <30″ per arm

Multiple intended uses

• (URO-GYN-GS)

Safety

Two passive joints allows avoid forces in the fulcrum point Bitrack and permit the natural fluctuation due patient respiration.

Easy docking process

The passive α and β joins make easier the insertion and retrieval of the instruments in the trocar and reduce drastically the docking time.

The high precision provided by RAS (Robotic Assisted Surgery) is not necessary during full surgical procedure

HYBRID SURGERY is a new surgical approach that allows for combining MIS and MIRS in the same procedure and to move quickly from MIS to MIRS.

HYBRID SURGERY is a new surgical approach that is possible and make sense only with an open and flexible robotic platform like Bitrack System.

Possible:

• Bitrack System use generic trocars
• Bitrack System use the same trocars location as MIS
• The footprint of the Bitrack System is lower than other robotic systems
• Full accessibility to the patient

Make Sense:

• Effortless switching between robotic and manual procedures
• Manual laparoscopy instruments can be used in combination with the camera controlled by the robotic arm
• The fast docking time
• Improve efficiency

As an open platform, compatible with a large list of endoscopy instruments and equipment, Bitrack System has a fast and easy docking progress, is more accessible, and generates a low footprint impact.

OPEN PLATFORM

• Generic Vision System
• Generic 3D Screen
• Generic ESU (Electro-Surgical Unit)
• Generic trocars
• Generic trocars location

With seven degrees of freedom instruments maximising the deployment of surgeons’ skills. Single-use instruments are the solution to reduce direct and indirect costs.

Laparoscopic Instruments

• Single-use proprietary instruments – PATENTED
• 8 mm of diameter
• 7 degrees of freedom to the instrument tip
  • 3 degrees for position in space
  • 3 degrees for orientation
  • 1 degree for opening and closing the end effector

• Non active
• Active
  • Monopolar
  • Bipolar

• More than 30 in-vivo procedures have been performed successfully. (GYN, URO and GS)
• Surgeons from top University Hospitals have tested our solution.