ABA Spiral Dental Implant

ABA Implant is an internal hex spiral dental implant designed for high compatibility and stable performance across a wide range of surgical protocols. It features a tapered body with a spiral thread design and exceptional self-drilling, self-tapping capability, supporting strong primary stability and controlled insertion. With SLA surface treatment and an Internal Hexagon 2.42 mm connection, ABA Implant supports predictable osseointegration and is suitable for two-stage procedures, immediate loading, and flapless techniques. Its design performs especially well in narrow ridges, allowing effective placement without the need for prior bone grafting when clinically appropriate.

Table of Contents
GDT ABA dental implant internal hex spiral design with SLA surface treatment packaging

Implant Features

GDT ABA dental implant internal hex connection with 2.42 mm interface

Connection And Platform Switching

ABA Implant features an Internal Hexagon 2.42 mm connection with one universal platform for all diameters. This connection design supports prosthetic consistency across the system while helping minimize crestal bone loss and promote stable bone and soft tissue conditions, contributing to improved long term aesthetics.

GDT ABA dental implant tapered body geometry supporting bone condensation

Tapered Body With Spiral Design

The tapered body with spiral design is engineered to support controlled insertion and strong primary stability across different ridge types. This geometry provides optimal soft tissue support and improves bone condensation during placement, creating a stable foundation for both routine and advanced surgical workflows.

GDT ABA dental implant spiral threads for improved load distribution and fixation

Aggressive Apical Threads

ABA Implant incorporates aggressive apical threads designed for enhanced bone engagement where initial fixation is critical. This thread configuration supports placement in immediate extraction sockets, poor bone quality, and protocols planned for immediate loading when clinically appropriate.
SLA dental implant surface treatment, described as Sandblast, Large Grit, Acid-etch

SLA Surface - Sandblast, Large Grit, Acid-Etch

ABA 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.
GDT ABA dental implant self-tapping design for controlled insertion and stability

Self Tapping System

ABA Implant includes a self tapping system with self drilling and self tapping capability. This design supports efficient cutting during insertion, improves load distribution under functional forces, and contributes to stable fixation throughout the healing and loading phases.
GDT ABA dental implant aggressive apical apex for enhanced bone engagement

Apex Design

The apex of the ABA Implant is designed with sharp and deep threads to enhance implant stability during placement. This apical geometry supports decisive engagement in the apical bone, contributing to controlled insertion and reliable fixation, particularly in challenging anatomical conditions.

Sizes & Drilling Protocol

L / ØØ3.5Ø3.75Ø4.2Ø5.0Ø6.0
6mm——–——–A4206A5006A6006
8mmA3508A3708A4208A5008A6008
10mmA3510A3710A4210A5010A6010
11.5mmA3511A3711A4211A5011A6011
13mmA3513A3713A4213A5013A6013
16mmA3516A3716A4216A5016——–
One connection for all diameters

Internal Hex 2.42mm

GDT ABA dental implant internal hex system showing multiple diameters and lengths

* The suggested drilling protocol is a recommendation only and does not replace the clinician’s judgment

Technical cross-section diagram of GDT ABA internal hex dental implant showing diameter, length, and internal connection geometry.

Package Content

Exploded view of GDT ABA internal hex dental implant system showing implant body, abutment interface, fixation screw, and protective packaging with labeled components.
GDT Dental Implants surgical kit with drills, implant drivers, and precision instruments arranged in a sterilizable storage case.

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.

GDT digital CAD/CAM solutions showing titanium scan bodies, Ti-bases, and digital prosthetic components for precise implant-supported restorations.

Learn More

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. Mirela Gjoni

Tirane, Albania

Dr. Jonathan Rabanipour

New York, USA

Dr. Georgi Mendez

New Jersey, USA

Mrs. Evelyn Juarez

Guatemala

FAQs

What clinical indications is the GDT ABA dental implant designed for?

The GDT ABA Implant is designed for a wide range of dental implant procedures, including two-stage surgery, immediate loading, and flapless techniques. Its tapered body, spiral design, and aggressive apical threads support strong primary stability, making it suitable for routine cases as well as more demanding clinical situations when planned appropriately.
The ABA Implant performs especially well in narrow ridge situations due to its tapered geometry and efficient self-drilling, self-tapping design. These features support effective bone engagement and condensation during placement, allowing clinicians to achieve stable fixation without the need for prior bone grafting in many dental implant cases.
The SLA surface treatment increases surface roughness at both macro and micro levels, improving bone-to-implant contact (BIC). This surface structure supports osteoblast adhesion and proliferation, promoting predictable osseointegration and contributing to long-term dental implant stability.
The ABA Implant features a sharp apex with deep apical threads designed to improve stability during insertion. This apical geometry supports decisive engagement in the apical bone, contributing to controlled placement and reliable fixation, particularly in challenging anatomical conditions.

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ABA Spiral Dental Implant