UF II Narrow
UF II Regular
UF II Wide
UF II Narrow
Dental Implants
UF II Narrow
UF II Narrow
UF II Internal
UF II Internal
Submerged System
Surface
treatment
treatment
HSA (hybrid SLA)
surface
surface
Other surface
treatments
treatments
Photofunctionalzed HSA (UV+)
HSA & Mg Plasma (Mg+)
A
conical thread is applied to the rectum rectum, dispersing the tension at the top of the implant. The coils have a greater depth in the apical zone and then gradually decrease to the platform. This design allows for better blood circulation and less friction in the cortical bone to reduce osseointegration time.
conical thread is applied to the rectum rectum, dispersing the tension at the top of the implant. The coils have a greater depth in the apical zone and then gradually decrease to the platform. This design allows for better blood circulation and less friction in the cortical bone to reduce osseointegration time.
Open
Turn Allows the placement of the infraosseous implant without additional instrumentation increasing the resistance.
Implant body Parallel and conical
body. The longer the length of the implant, the larger the parallel body. So The long implant can be placed stably without provoking sudden changes during surgery, as happens in the rectum-type implant. The last third and apical zone is conical body.
Internal exagonal connection Morse cone 11 °
The perfect connection between the abutment and the implant is guaranteed, offering a high mechanical strength.
The strength in the implant is reduced and bone loss is minimized.
body. The longer the length of the implant, the larger the parallel body. So The long implant can be placed stably without provoking sudden changes during surgery, as happens in the rectum-type implant. The last third and apical zone is conical body.
Internal exagonal connection Morse cone 11 °
The perfect connection between the abutment and the implant is guaranteed, offering a high mechanical strength.
The strength in the implant is reduced and bone loss is minimized.
Double conical sealing.
Apex
Apical self-threading.
UF II Regular
Dental Implants
UF II Regular
UF II Regular
UF II Internal
Submerged System
Surface
treatment
treatment
HSA (hybrid SLA)
surface
surface
Other surface
treatments
treatments
Photofunctionalzed HSA (UV+)
HSA & Mg Plasma (Mg+)
Turns
A conical thread is applied to the straight body, dispersing the tension at the top of the implant. The coils have a higher depth in the apical zone and then gradually decrease to the platform. This design allows for better blood circulation and less friction in the cortical bone to reduce the time of osseointegration.
A conical thread is applied to the straight body, dispersing the tension at the top of the implant. The coils have a higher depth in the apical zone and then gradually decrease to the platform. This design allows for better blood circulation and less friction in the cortical bone to reduce the time of osseointegration.
Open
Turn Allows the placement of the infraosseous implant without additional instrumentation increasing the resistance.
Implant body Parallel and conical
body. The longer the length of the implant, the larger the parallel body. So The long implant can be placed stably without provoking sudden changes during surgery, as happens in the rectum-type implant. The last third and apical zone is conical body.
Internal exagonal connection Morse cone 11 °
The perfect connection between the abutment and the implant is guaranteed, offering a high mechanical strength.
The strength in the implant is reduced and bone loss is minimized.
body. The longer the length of the implant, the larger the parallel body. So The long implant can be placed stably without provoking sudden changes during surgery, as happens in the rectum-type implant. The last third and apical zone is conical body.
Internal exagonal connection Morse cone 11 °
The perfect connection between the abutment and the implant is guaranteed, offering a high mechanical strength.
The strength in the implant is reduced and bone loss is minimized.
Double conical sealing.
Apex
Apical self-threading.
UF II Wide
Dental Implants
UF II Wide
UF II Wide
UF II Internal
Submerged System
Surface
treatment
treatment
HSA (hybrid SLA)
surface
surface
Other surface
treatments
treatments
Photofunctionalzed HSA (UV+)
HSA & Mg Plasma (Mg+)
Turns
A conical thread is applied to the straight body, dispersing the tension at the top of the implant. The coils have a higher depth in the apical zone and then gradually decrease to the platform. This design allows for better blood circulation and less friction in the cortical bone to reduce the time of osseointegration.
A conical thread is applied to the straight body, dispersing the tension at the top of the implant. The coils have a higher depth in the apical zone and then gradually decrease to the platform. This design allows for better blood circulation and less friction in the cortical bone to reduce the time of osseointegration.
Open
Turn Allows the placement of the infraosseous implant without additional instrumentation increasing the resistance.
Implant body Parallel and conical
body. The longer the length of the implant, the larger the parallel body. So The long implant can be placed stably without provoking sudden changes during surgery, as happens in the rectum-type implant. The last third and apical zone is conical body.
Internal exagonal connection Morse cone 11 °
The perfect connection between the abutment and the implant is guaranteed, offering a high mechanical strength.
The strength in the implant is reduced and bone loss is minimized.
body. The longer the length of the implant, the larger the parallel body. So The long implant can be placed stably without provoking sudden changes during surgery, as happens in the rectum-type implant. The last third and apical zone is conical body.
Internal exagonal connection Morse cone 11 °
The perfect connection between the abutment and the implant is guaranteed, offering a high mechanical strength.
The strength in the implant is reduced and bone loss is minimized.
Double conical sealing.
Apex
Apical self-threading.