The ideal dental implant would resist the biologic and mechanical attacks it will face in its lifetime. Healthy, robust bone and soft tissue should surround the implant from day of placement, combating infection and preventing tissue degradation for years to come. The restorations must
withstand the test of time without screw loosening,
implant fracture or other mechanical failures.
Fortunately, recent advances in implant surface, connection technology and overall architecture have enabled the development of a dental implant that specifically addresses these criteria in ways only dreamed of in the past.
The ideal dental implants macro geometry does not create excessive stress during insertion maintaining physiologic compression of the surrounding bone. The surface is bio-active, not simply tolerating the bone interface, but actually recruiting stem cells that specifically differentiate
into osteoblasts. The prosthetic connection is a solid, strong
foundation for the restoration with a design that can tolerate long-term occlusal stresses.
OSSEAN® bio-active structure is similar at all levels of magnification, from the surface to the Nano scale level. At the Nano level OSSEAN displays an ideal surface for fibrin attachment. At the micrometric level, the pattern is appropriate for platelet deposition. Under lower magnification, the pattern shows receptor sites that encourage the growth of osteoblasts. Well beyond the Nano-metric level, impregnated in the titanium oxide layer of OSSEAN are calcium phosphate molecules. These molecules are more than a thousand times smaller than Nano-particles themselves allowing them to be extremely fixed to the surface (one with the implant) while maintaining their bio-active properties. OSSEAN's fractal, nano-rough surface actually favorably changes the cellular genetic expression at the nano-level, which in turn induces signifigantly faster healing of implants.
BLOSSOM’s cutting technology is immediately apparent from the moment of insertion…and it’s no accident. This “Cutting-Edge” technology enables the implant to continually cut through bone with increased surgical efficiency and negligible force resulting in minimal trauma. Eliminating the need for conventional flutes and vents that traditionally define self-tapping implants, BLOSSOM features a fully integrated tapping configuration that is evenly spaced and distributed along the implant. As a result BLOSSOM implant placement lowers insertion torque while actually increasing initial stability. Additionally the BLOSSOM cutting architecture eliminates “crowding “and produces fewer, more evenly distributed bone particles. This “self-clearing” action promotes faster osseointegration while simultaneously generating a physiologic autologous