Ürünlerimiz

Platinum rods in spinal surgery are used to provide spinal stabilization and correct deformities. Some of the key benefits provided by platinum rods include:

• Stabilization: Platinum rods are used to ensure segmental stability after spinal surgery. This helps maintain proper alignment of the vertebrae and limits their movement, thereby supporting the healing process.
• Deformity Correction: In patients with spinal deformities (such as scoliosis, kyphosis), platinum rods are used to bring the spine into the correct alignment and maintain this alignment.
• High Durability and Strength: Platinum rods possess high strength and durability. These properties allow the implant to provide long-term stabilization.
• Corrosion Resistance: Platinum exhibits high resistance to corrosion in biological environments. This ensures the material’s structural integrity is maintained in long-term implantations.
• Biocompatibility: Platinum rods are biomaterials that exhibit high compatibility with the body. This increases the acceptance rate of the implant and reduces the risk of infection.
• Excellent Imaging Compatibility: Platinum rods are compatible with post-surgical imaging methods (X-ray, MRI). This compatibility allows doctors to clearly assess the implant placement and spinal health.

The use of PEEK (Polyetheretherketone) cages in spinal surgery is aimed at providing intervertebral stabilization and supporting the vertebral fusion process. The purposes and benefits of using PEEK cages are as follows:

• Vertebral Stabilization: PEEK cages enhance spinal stability by filling the space between vertebrae. This is particularly important following degenerative disc disease and spinal trauma.
• Support for the Fusion Process: PEEK cages, used in conjunction with bone grafts, assist in achieving vertebral fusion. This process ensures the long-term stabilization and proper alignment of the spine.
• Biocompatibility: PEEK is a biomaterial that exhibits high compatibility with the body. This characteristic increases the acceptance rate of the implant and reduces the risk of infection.
• Radiolucency: PEEK cages allow for clear imaging during MRI and CT scans without causing metallic artifacts. This offers a significant advantage in postoperative follow-ups and evaluations.
• Flexibility and Durability: PEEK cages provide flexibility to accommodate spinal movements while maintaining sufficient durability. This helps reduce postoperative discomfort for patients and promotes faster recovery.
• Promotion of Bone Growth: The internal structure of PEEK cages promotes bone growth, accelerating and strengthening the vertebral fusion process.

Adhesion barriers are biomedical materials used to prevent unwanted adhesions (adhesions) between tissues and organs following surgical procedures. These barriers reduce the risk of complications by preventing tissues from sticking together during the post-surgical healing process.

Purpose of Using Adhesion Barriers in Spine Surgery

• Prevention of Adhesions: After spine surgery, adhesions that can form in the surgical area may press on nerve roots or other structures, leading to pain, restricted movement, and other neurological problems. Adhesion barriers are used to prevent the formation of such adhesions.
• Support for the Healing Process: Adhesion barriers help the surgical area heal more smoothly by preventing tissues from sticking together. This can speed up the healing process and reduce post-operative complications.

Benefits of Using Adhesion Barriers in Spine Surgery

1. Reduction of Pain and Complications: Post-surgical adhesions can cause severe pain and functional impairments. Adhesion barriers reduce such complications, allowing for a more comfortable recovery process.
2. Decrease in Risk of Reoperation: Adhesions sometimes require additional surgical interventions. The use of adhesion barriers lowers the risk of reoperation, helping patients achieve better long-term outcomes.
3. Prevention of Neurological Complications: In spine surgery, adhesions may put pressure on nerve roots, leading to neurological complications. Adhesion barriers help prevent these complications by keeping nerve roots free.
4. Prevention of Movement Restrictions: Adhesions can restrict normal tissue movement, leading to mobility limitations. Adhesion barriers help maintain the patient’s range of motion by preventing such adhesions.
5. Protection of the Surgical Area: Adhesion barriers can also reduce the risk of infection in the surgical area, contributing to a healthier healing process.

Application of Adhesion Barriers

Adhesion barriers are typically applied directly to the surgical site at the end of the surgical procedure. These barriers can come in the form of thin film layers, gels, or sprays. After application, the barriers are gradually absorbed by the body and support tissue healing.

A hemostatic gel is a substance used during surgical procedures to control bleeding. This gel has the ability to quickly stop bleeding, helping surgeons manage hemorrhage and keeping the surgical area cleaner and more visible. The benefits of hemostatic gel include:

• Control of Bleeding: In spinal surgery, where the depth and complexity of the surgical area are significant, controlling bleeding is crucial. Hemostatic gel rapidly stops bleeding, keeping the surgical field clean and allowing the surgeon to work more effectively.
• Preservation of the Surgical Field: Bleeding can obscure the surgical field during procedures, making it difficult for the surgeon to perform the operation properly. Hemostatic gel quickly controls such bleeding, preserving the surgeon’s view and enhancing the safety of the procedure.
• Reduction of Postoperative Bleeding Risk: The risk of bleeding after surgery can lead to complications. The use of hemostatic gel effectively controls bleeding during surgery, helping to reduce the risk of postoperative bleeding.
• Protection of Tissue and Nerve Structures: In spinal surgery, working around nerve structures and delicate tissues can be challenging. Hemostatic gel controls bleeding around these structures with minimal tissue damage, thereby increasing the safety and efficacy of the surgery.

Types and Effects of Hemostatic Gels

Hemostatic gels are typically made from biological materials such as collagen, gelatin, and oxidized cellulose. When these gels come into contact with blood, they accelerate the clotting process, helping to stop bleeding. Additionally, some gels may have antibacterial properties, which reduces the risk of infection.