The Tree·Oss® Ceramic implants have been developed with the latest technologies in ceramic materials. Manufactured of pure Zirconia (ZrO2) stabilized with Yttria, the Tree·Oss® Ceramic implants offer an outstanding mechanical resistance, combined with excellent biocompatibility.
A variable structured surface, adapted to each part of the implant, is obtained by means of an innovative manufacturing process, based on CIM (Ceramic Injection Moulding) at ultra-high pressure.This technology allows to design the best surface topology in accordance with the surrounding tissue, thus favoring osseointegration as well as soft tissue stability. Due to their designed macro, micro and nano roughness, each area of the implant provides the best scenario for the best mechanical and biological response, from cementing to the intimate contact with bone and soft tissue.
MECHANICAL RESISTANCE
The Tree·Oss® Ceramic implants provide an outstanding mechanical resistance to fracture of over 1200 Mpa, thus assuring its function in time.
Its single block design suppresses micro-movements between implant and abutment, strengthening the system and improving mechanical properties. Additionally, the gap absence prevents bacterial infiltration and its consequences on cervical bone resorption, significantly favoring soft tissue healing and stability, thus assuring excellent esthetic results.
The Tree·Oss® Ceramic implants provide an outstanding mechanical resistance to fracture of over 1200 Mpa, thus assuring its function in time.
Its single block design suppresses micro-movements between implant and abutment, strengthening the system and improving mechanical properties. Additionally, the gap absence prevents bacterial infiltration and its consequences on cervical bone resorption, significantly favoring soft tissue healing and stability, thus assuring excellent esthetic results.
EXCELLENT BIOINTEGRATION
Numerous studies prove the excellent biological results of Zirconia, due to its minimum affinity with bacterial plaque, as well as the adaptation of soft tissue and bone-to-implant contact, through strong osseointegration.
Due to its low surface energy, Zirconia becomes a bio-inert material, ideal to reduce peri-implant pathologies.
The Tree·Oss® Ceramic implants’ neck features a soft roughness adjusted to soft tissues, (Ra 0.5 µm), thus favoring the union and sealing of connective tissue.
The exclusive Z-Life surface provides medium roughness on its threads, which is ideal for osseointegration. The perfect balance between roughness and wettability hosts growth factors during placement, making the surface a bioactive environment that induces bone generation.
Numerous studies prove the excellent biological results of Zirconia, due to its minimum affinity with bacterial plaque, as well as the adaptation of soft tissue and bone-to-implant contact, through strong osseointegration.
Due to its low surface energy, Zirconia becomes a bio-inert material, ideal to reduce peri-implant pathologies.
The Tree·Oss® Ceramic implants’ neck features a soft roughness adjusted to soft tissues, (Ra 0.5 µm), thus favoring the union and sealing of connective tissue.
The exclusive Z-Life surface provides medium roughness on its threads, which is ideal for osseointegration. The perfect balance between roughness and wettability hosts growth factors during placement, making the surface a bioactive environment that induces bone generation.
UNMATCHED ESTHETICS
The multiple esthetic alternatives advantages of working with metal-free ceramic materials are recognized worldwide.
Its clear tone and translucency assure lack of dark areas and provide the ideal basis for an outstanding esthetic result. The Tree·Oss® Ceramic implants enable predictable and stable restorations in time, offering patients modern metal-free treatments, satisfying the present high esthetic demands.
The multiple esthetic alternatives advantages of working with metal-free ceramic materials are recognized worldwide.
Its clear tone and translucency assure lack of dark areas and provide the ideal basis for an outstanding esthetic result. The Tree·Oss® Ceramic implants enable predictable and stable restorations in time, offering patients modern metal-free treatments, satisfying the present high esthetic demands.
THE ALTERNATIVE TO TITANIUM IMPLANTS
Metal-free treatment
No risks of corrosion, allergies or sensitivity to metal. Ideal for patients seeking modern metal-free treatments in their bodies.
CIM Technology
Manufactured by means of ceramic injection at ultra-high pressure, which allows to obtain a variable structured surface adapted to each area of the implant. Ideal roughness adjusted for cementing, soft tissue and bone.
Esthetics
Their clear tone and translucency assure an unmatched esthetic result, assuring the absence of dark areas.
Biocompatibility
Better oral and overall health in the long term due to its low affinity with bacterial plaque and its superior adaptation to connective tissue.
One piece
No gap nor micro-movements, thus eliminating possible retractions due to leaks while strengthening the biomechanical response.
Metal-free treatment
No risks of corrosion, allergies or sensitivity to metal. Ideal for patients seeking modern metal-free treatments in their bodies.
CIM Technology
Manufactured by means of ceramic injection at ultra-high pressure, which allows to obtain a variable structured surface adapted to each area of the implant. Ideal roughness adjusted for cementing, soft tissue and bone.
Esthetics
Their clear tone and translucency assure an unmatched esthetic result, assuring the absence of dark areas.
Biocompatibility
Better oral and overall health in the long term due to its low affinity with bacterial plaque and its superior adaptation to connective tissue.
One piece
No gap nor micro-movements, thus eliminating possible retractions due to leaks while strengthening the biomechanical response.
TECHNICAL DATA AND REFERENCES
P: Crown support platform – C: Crown internal diameter – AP: Total abutment height – AC: Crown support height
H: Shoulder – L: Implantable length – A: Apex – Ø: Implant diameter – X: Soft tissue biological space
Surgical and Prosthetic Components:
