# Connection: Internal Hex 2.42mm
# Implant Diameters: Ø3.5mm, Ø3.75mm, Ø4.2mm, Ø5.0mm, Ø6.0mm
# Implant Length: 6.0mm, 8.0mm, 10.0mm, 11.5mm, 13.0mm and 16.0mm
# Condition: Sterilized, Double Packaging
# Material: Titanium grade 5 (TI-6AL-4V ELI)
# Country of Manufacture: Israel
ABA Implant offers a highly compatible solution, it has the widely popular Internal Hexagon connection with an SLA surface treatment which involves sandblast and double acid etching.
ABA Implant has a tapered body and exceptional self-drilling capabilities, ABA Implant establishes a robust and stable connection, making it suitable for immediate loading.
The geometrical design of the ABA implant, characterized by sharp threads and a double compression carving, contributes to enhanced stability. ABA Implant is versatile, catering to various surgical procedures, including two-stage processes, immediate loading, and flapless techniques across all ridge types. Its efficacy extends to narrow ridges without necessitating prior bone grafting, showcasing adaptability across diverse bone types and anatomies for optimal performance in clinical scenarios.
GDT implants are made from Titanium alloy Ti-6Al-4V ELI, a material renowned for its exceptional properties. This alloy combines a low specific weight, high strength-to-weight ratio, remarkable corrosion resistance, and outstanding overall biocompatibility.
Distinguished by its similarity to Ti-6Al-4V, Ti-6Al-4V ELI sets itself apart with reduced levels of oxygen, nitrogen, carbon, and iron. ELI, denoting "Extra Low Interstitials," contributes to enhanced ductility and improved fracture toughness in the material.
The success of Ti-6Al-4V ELI is particularly evident in the fabrication of dental implants, underscoring its reliability and suitability for such critical applications. GDT implants, crafted from this advanced alloy, offer a combination of strength, durability, and biocompatibility, ensuring optimal performance in dental implantation procedures.
SLA Surface Treatment Technology:
SLA is a type of surface treatment that creates surface roughness intending to enhance osseointegration through greater bone-to-implant contact (BIC).
SLA surface treatment technology is based on a large-grit sandblasting technique that generates a macro-roughness on the titanium surface, This technique is followed by acid-etching that superposes a micro-roughness, This topography offers an excellent structure for cell attachment.
SLA surface treatment increases the rate at which osseointegration occurs by using a combination of grit and acid etching to give the surface increased roughness on multiple levels. This allows osteoblasts to proliferate and adhere to the implant surface. Through osseointegration, SLA helps provide increased stability to the implant which will ultimately lengthen its longevity.