Deformity correction (Individual Plates)
Using the tools of our BonaPlanner, you can make the necessary calculations of the angles for the bones of the front and pelvic limbs, perform a virtual osteotomy and place the fragments of the bones in their correct position. Based on your plan, we provide a set of products to implement virtual planning in the operating theatre.
Surgical guides and individual plates are fully consistent with the patient's anatomy and allow for high precision of the surgery
- The operation is faster
- Accuracy of reproduction of preoperative planning in the operating theatre
- Anatomical reconstruction of the defect
Deformity correction (Standart Plates)
Operations using guides for precise positioning of bone fragments in accordance with preoperative planning.
For this type of operation, we recommend using standard fasteners.
- The operation is faster
- Less risk of infection
- Anatomical reconstruction of the defect
Arthrodesis
Products for arthrodesis of joints.
The implants are anatomically shaped to ensure the best fit and structural strength.
The technology allows the use of both cortical and LCP screws.
It is possible to perform complex arthrodesis with bone replacement.
- Fastening reliability
- Anatomical shape to ensure implant fit
- Easy to install
PGR replacement
Customized implants to replace the patella block to restore knee function.
The implants have a polished surface to provide glide to the patella.
We offer a variety of mounting options to suit every application.
Implants can be separate or combined with plates for deformity correction.
Porous inserts provide the best osseointegration.
- Surgery goes faster
- Restoration of the anatomically correct form of the patella groove
- Reliable fixation
Individual CMF plates and implants
Implants for the reconstruction of the mandible areas.
Implants correspond to the anatomical features of the patient, provide reliable fixation and comfortable surgery.
May have holes for sewing soft tissue and a porous coating for better tissue adhesion.
- Function recovery
- Aesthetic reconstruction
- Easy to install
Materials
Ti6Al4V ELI
The best material for the creation of implants and other medical devices is currently considered to be titanium and its alloys, which have a full range of properties that meet the requirements of medicine: high corrosion resistance, sufficient mechanical and cyclic strength, and wear resistance.
Sterilization of products from titanium alloys by boiling, autoclaving, formalin vapor, burning, immersion in alcohol does not damage the metal surface.
Due to the biological inertness of titanium structures to the human body, during implantation, they are not rejected and do not provoke allergic reactions, quickly being covered with musculoskeletal tissues, the structure of which remains constant throughout subsequent life.
It can be used both in solid models and in the form of a titanium mesh, or a porous cellular structure for better osseointegration.
Photopolymer Resin
Biocompatible material, ISO 13485 compliant and designed for healthcare professionals worldwide. Such medical materials can be used for applications that require contact with the patient’s skin, mucosa and blood.
Used for the production of medical guides, fixation templates and sterilizable anatomical models
UHMWPE
UHMWPE has very low water absorption for organic polymer compounds, therefore the properties of UHMWPE do not change when exposed to water. The main properties of UHMWPE, which determine its use, are very high wear resistance, low coefficient of friction and high fracture toughness.
It is used for the production of titanium / polyethylene friction pairs
PEEK
PEEK is a synthetic material that has many advantages in CMF reconstruction surgery: strength, stiffness, chemical inertness and durability. PEEK is used for cranioplasty and facial implants.
The material can be sterilized and reused (in case of failure due to infection) and can be easily modified during surgery using surgical instruments.
PEEK, as a polymer, has an extremely low thermal conductivity compared to titanium, which already has a low thermal conductivity compared to other metals.