Reallo Putty is a cutting-edge biomaterial. It is a versatile and innovative product used in the field of regenerative medicine and tissue engineering. Reallo Putty is specifically designed to support bone regeneration and healing processes. The putty formulation combines bioactive components with an osteoconductive matrix, creating a scaffold that promotes the growth of new bone tissue. This advanced biomaterial is used in various orthopedic and dental applications, providing a reliable and effective solution for bone defects and augmentation procedures. Reallo Putty offers several key benefits that make it a preferred choice in the medical field. Firstly, its unique composition enhances the natural healing process by stimulating cell growth and facilitating the formation of new bone tissue. It also provides structural support to the defect site, promoting bone regeneration and integration. The putty-like consistency of Reallo Putty makes it easy to handle and adapt to different anatomical contours. This allows surgeons and clinicians to mold the biomaterial to fit the specific needs of each patient, ensuring optimal results. Reallo Putty exhibits excellent handling properties, such as cohesiveness and moldability, enabling precise application during surgical procedures. In addition to its regenerative properties, Reallo Putty is biocompatible, meaning it is well-tolerated by the body and does not induce adverse reactions. The biomaterial undergoes rigorous testing and quality control measures to ensure its safety and effectiveness. It has been designed to provide long-term stability and support, ensuring durable and successful bone regeneration. Reallo Putty finds application in a wide range of medical scenarios, including bone grafting procedures, spinal fusions, periodontal defects, and maxillofacial surgeries. Its versatility and reliability make it a valuable tool in promoting tissue regeneration and restoring optimal bone function. With Reallo Putty, they have introduced a state-of-the-art biomaterial that addresses the challenges of bone defects and contributes to improved patient outcomes.