| L / Ø | Ø3.5 | Ø3.75 | Ø4.2 | Ø5.0 | Ø6.0 |
| 8mm | C3508 | C3708 | C4208 | C5008 | C6008 |
| 10mm | C3510 | C3710 | C4210 | C5010 | C6010 |
| 11.5mm | C3511 | C3711 | C4211 | C5011 | C6011 |
| 13mm | C3513 | C3713 | C4213 | C5013 | C6013 |
| 16mm | C3516 | C3716 | C4216 | C5016 | ——– |
CFI Cylindrical Dental Implant
GDT CFI Implant is an internal hex dental implant designed to provide strong stability and controlled performance, particularly in dense bone conditions. It features a combined cylindrical and conical body with a tapered design, V-shaped threads, and micro rings that improve load distribution and reduce crestal stress. The flat cutting apex allows final adjustments during placement, supporting precise positioning. With an Internal Hexagon 2.42 mm connection and SLA surface treatment, the CFI Implant supports predictable osseointegration and is suitable for all bone types as well as a wide range of bone augmentation procedures
Table of Contents
Implant Features
The CFI Implant features an Internal Hexagon 2.42 mm connection with one universal platform for all diameters. This configuration supports consistent restorative workflows while helping minimize crestal bone loss and promote stable bone and soft tissue conditions, contributing to improved long-term aesthetics.
CFI Implant features a combined cylindrical and conical body with a tapered design. The cylindrical portion promotes long-term osseointegration by enlarging surface area and bone-to-implant contact, while the conical geometry supports excellent primary stability during placement.
The CFI Implant features an SLA surface treatment. This two-step process increases surface roughness on multiple levels: large grit sandblasting creates macro roughness, followed by acid etching that adds micro roughness. By increasing bone to implant contact (BIC) through a surface structure that supports cell attachment, the SLA topography helps osteoblasts adhere and proliferate. This supports faster and more predictable osseointegration, improving implant stability and contributing to long-term clinical performance.
CFI Implant includes a self-tapping system with self-drilling and self-tapping capability. This design supports efficient cutting during insertion and increases load distribution during functional loading, contributing to stable fixation throughout healing and restoration phases.
Sizes & Drilling Protocol
One connection for all diameters
Internal Hex 2.42mm
* The suggested drilling protocol is a recommendation only and does not replace the clinician’s judgment
Package Content
Surgical Kits
Streamline implant procedures with organized surgical kits built for consistency and control. Featuring essential drills, drivers, and tools in an autoclavable case, each kit is labeled for efficient instrument return and designed to support precise, predictable placement across a wide range of indications.
Digital Solutions
Support a complete digital workflow with key restorative components designed for reliable digital impression capture and virtual model creation. Combined with our CAD/CAM libraries, these solutions help improve accuracy, restoration outcomes, and simplify case planning.
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Testimonials
Dr. Elias Achey
Michigan, USA
Dr. Jared Van Ittersum
Michigan, USA
Dr. Julissa Mendez
New Jersey, USA
Dr. Emin Orujov
Baku, Azerbaijan
Dr. Daniel Shtern
New Jersey, USA
Dr. Jorge Pacheco
Espinho, Portugal
Dr. Jonathan Rabanipour
New York, USA
Dr. Mirela Gjoni
Tirane, Albania
Dr. Georgi Mendez
New Jersey, USA
Mrs. Evelyn Juarez
Guatemala
FAQs
What clinical indications is the GDT CFI dental implant designed for?
The GDT CFI Implant is designed for dental implant placement in dense bone cases while remaining suitable for all bone types and a wide range of bone augmentation procedures. Its cylindrical–conical body design, V-shaped threads, and micro rings support stable placement and controlled load distribution in demanding clinical conditions.
How does the cylindrical and conical body design affect implant stability?
The combined cylindrical and conical shape supports both primary and long-term stability. The conical section contributes to strong initial fixation during placement, while the cylindrical portion increases surface area and bone-to-implant contact, supporting long-term osseointegration in dental implant treatments.
What is the function of V-shaped threads and micro rings on the CFI Implant?
V-shaped threads and micro rings are designed to improve overall implant stability by optimizing surface area and load distribution. This design reduces crestal stress and enhances shear strength, supporting reliable performance under functional loading conditions.
Why does the CFI Implant feature a flat apex?
The flat apex design enhances stability and allows final adjustments during placement. This feature supports precise positioning of the dental implant, particularly in dense bone, where controlled seating and minor depth corrections may be required.
Still Have Questions?
