All MIBRAR® instruments were developed by Prof. Dr. med. Arsen Babayan specifically for micro-invasive procedures. They ensure maximum precision and safety with minimal impact on the patient's body. The MIBRAR® trademark is registered in the EU (No. 015764401).
Cyber Navi Hand™
Computer-controlled robotic arm for navigation — an innovative system ensuring maximum precision during micro-invasive interventions on the spine and joints.
Cyber Navi Hand™ combines advanced 3D surgical planning software with a robotic mechanical arm operating in three phases:
Three Phases of Cyber Navi Hand™
Planning. 3D visualization based on DICOM images (MRI, CT). Virtual modeling of the entire operation with selection of optimal angles and instrument insertion depth.
Fusion. Merging preoperative 3D images with intraoperative X-ray images in real time. The software calculates optimal positioning and instrument manipulation.
Mechanization. The robotic arm automatically positions instruments with precision up to 1 degree of angle and 1 mm of depth. Sensorimotor feedback confirms positioning completion.
Advantages of Cyber Navi Hand™
Maximum instrument positioning precision
Minimized radiation exposure — the system eliminates the need for numerous X-ray images
Elimination of accidental organ and structure damage
Reduced operation time
Ability to plan complex multi-level interventions
Cyber Navi Hand™ software can be used not only for surgical planning but also for diagnosing spinal pathologies, as well as for individual patient consultations and video conferences.
Ultrasound control system with probe fixation — a special holder for the ultrasound probe, allowing the surgeon to free both hands for the procedure while maintaining constant visual control.
With traditional ultrasound use, one of the surgeon's hands is constantly occupied holding the probe. Sono Control Arm™ completely solves this problem.
Positioning precision: 0.1 mm
Advantages of Sono Control Arm™
Stable ultrasound probe fixation in any position
Smooth movement with instant locking capability
No radiation exposure (unlike X-ray control)
Visualization of soft tissues, nerves, vessels — inaccessible to X-ray
Dynamic real-time control
KNK — Mapping-Navigation-Coordination
Intraoperative navigation system (Kartierung-Navigations-Koordinationsvorrichtung) — a set of devices for precise planning and control of surgical access.
C-arm attachments with protractors and laser pointers
Intraoperative mapping grids
Devices for determining vertebral displacements and rotations
Software for functional spinal diagnostics
MIBRAR® Micro-Instruments
Endoscopes and Arthroscopes
MIBRAR® Endoscope — for spinal interventions
MIBRAR® Epiduroscope — a flexible steerable endoscope for the epidural space
MIBRAR® Arthroscope — micro-sized arthroscope for joints
Spinal Probes
Specialized probes with a diameter from 0.3 mm to 1.5 mm for intradiscal and intra-articular procedures. Due to their minimal size, tissues are not cut but merely displaced, ensuring healing within a few hours — just like after a regular injection.
Additional Instruments
Micro-perforators for vertebrae and cartilage
Transpedicular perforators with trocars
Percutaneous dilators for spinal segments
Special constructions for fixation and transplantation
Video: MIBRAR® Methods in Action
RRBSW — Disc Regeneration
MIBRAR® Epiduroscopy
RRGGS — Joints
Advantages of treatment in Germany
High-tech operating rooms
Navigation systems for operations
Modern endoscopic equipment
Robot-assisted operations
Intraoperative monitoring systems
3D scanner for operation planning
Microsurgery under ultrasound control
Latest surgical methods
High-tech operating rooms
Navigation systems for operations
Modern endoscopic equipment
Robot-assisted operations
Intraoperative monitoring systems
3D scanner for operation planning
Microsurgery under ultrasound control
Latest surgical methods
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Your questions will be answered by Patient Relations Specialist Svetlana Malygina