The OLIVER IMPLANTS have been developed using state of the art technology and precision manufacturing. They come in a range of specifications and their unique design features ensure.
accurate insertion into all bone types.
maximum patient comfort.
improved esthetics.
enhanced osseointegration.
Product Specification
Oliver Implants’ grade 4 titanium implants come in a choice of sizes:
Diameters: 3.0/3.5/ 3.75 / 4.2/ 5.0/ 6.0mm
Lengths 6/8/10 /11.5 /13 /16mm Implant Description
Implants are formed with converging threads that originate from two different points on the implant body.
The dental implant body itself has three cones and variable thread design:
The main part of the implant has a cone that is angled depending upon its length.
The cone of the external thread track is angled at between 90 – 180° to the main implant body cone.
The final cone is located on the neck of the implant and is formed from two fine threads which broaden to make a cone dependent on the diameter size of the implant.
These combined features ensure ease and speed of treatment alongside maximum functionality and patient comfort.
Thread Shape
Our variable thread design ensures accurate placement and immediate stability.
The dual thread design of the oliver Implant broadens out as it spirals along the length of this exceptional dental implant. The neck has a thread pitch of 2.4mm (1.2mm for each thread).
The neck thread starts from two places and has a pitch of up to 0.6mm (0.3mm per thread).
The edge of the implant apex is rounded for maximum comfort and fit.
Internal Interface
The internal hexagon is 2.2mm deep and formed with an internal thread of 2.5mm for fixing the abutment and super abutment units .
Implant Treatments
The length of the implant surface is treated by injecting wet aluminum oxide and by etching in hydroflouric and sulfuric acids followed by neutralizer. After treatment, the remains of the materials used are flushed out and the surface is then cleaned.
Packing takes place in a clean 10,000 class room.
Sterilization is via pasteurization using γ-rays.
Smart Design Features of the Oliver Dental Implant
Our years of experience as clinicians and dental implant manufacturers has lead to us developing unique, world class designs that optimize patient comfort and improve the ease and speed of treatment.
BONE COMPRESSION DURING INSTALLATION
Horizontal Compression: Our OLIVER Implant is designed to minimize the lowering of the bone due to its ground-breaking body cone structure and external thread size. These maintain the gap between the dental implant and the bone during the installation process by ensuring that the depth of thread in the apical area exceeds the size of the implant neck area, thus pushing the bone horizontally.
Vertical Compression: Another intelligent design feature is the variable thickness of the tread which generates tension along the implant installation path, leading to the vertical compression of the bone.
SINUS LIFTS AND CLOSED SINUSES
These smart thread design features, along with the dense thread in the implant neck, create an improved primary stabilization. This is particularly crucial for sinus lifts when a patient has thin bone and the major part of the stabilization load is applied to the implant neck.
In the case of a closed sinus lift, the rounded apex also reduces the risk of a thread causing a torn membrane during implant installation.
FEATURES OF THE IMPLANT NECK AND INTERNAL INTERFACE
The edge of the implant neck is specially designed to reduce the gap between the implant connection and the abutment from the implant neck. It minimizes the implant neck compression around that gap.
The internal interface enables the connection of the superstructure at an angle suitable for prosthetic rehabilitation and prevents rotation of the superstructure members.
OSSEOINTEGRATION
Implants products enhance and expedite osseointegration in the following ways:
The implant surface treatment undertaken generates a rough surface which improves the contact between the implant and the bone, encouraging enhanced osseointegration.
The etching with acids and the flushing to remove contaminated substances generates an oxidation layer.
Sterilization via pasteurization decontaminates the product, preventing infection and encouraging the acceptance of the implant by the surrounding bone structure.
Installation Techniques
THIN ALVEOLAR BONE
Installation of dental implants in the maxillary anterior segment for those with low alveolar bones necessitates a bocal undercut and sinus lift.
Inserting in a high position reduces the necessity of bone removal for those with low density bone structure.
DENSE CORTICAL BONE
Installation of dental implants into a thin bone necessitates a sinus lift when the immediate load is applied.
INSTALLATION FOLLOWING TOOTH EXTRACTION
The installation of dental implants immediately following a tooth extraction is possible due to the anatomic configuration of the implant abutment.