The basic idea of this implant system was to make its use in everyday dental implant practice activities
as simple as possible, without having to forego/waiver implant-based indications/protocols or its surgical
application thereof.
Ease of use in surgical protocols as well as their prosthetic restorations was the guiding light in the
development of this implant system.
The experienced surgeon saves time and the beginning surgeon grasps the surgical procedure rather
quickly once imparted.
It was an absolute priority that the systems components were to be easily identifiable and even
easier to handle.
The implant design is a two-piece endosseous, threaded, screw-type, direct-drive, self-tapping, cylindroconical
tapered body dental implant device, made of titanium grade T4 CP – each of these attributes
having proven themselves worthy over decades of use, hence having become "golden mechanical"
implant standards.
The material, the design, the incorporated features – all are a dedicated manufacturers' and an experienced
dental implant surgeons' choice of approval.
The Meoplant® implant is characterized by three 120° off-set, self-tapping spiral threads that flow
from the apical into the crestal region of the implant body.
A perfectly matched drilling protocol for all bone densities insures a minimum insertion trauma,
attaining a maxim of primary stability, even in soft cancellous bone.
A progression thread with a flat pitch and axial milling requires less insertion effort, thus ensuring preservation
of bone stock for the subsequent osseoconducive healing phase.
Another special feature of the thread design is the "shovel-shaped" cutter ending range that
harvests bone chips of a defined size, much like a bonescraper – compacting them inward, toward
the implant axis.
This way vital bone cells are directly present at the implant surface and it is through this uniform compaction,
that a greater boney-wall-apposition, hence increased primary stability is achieved – yielding a
greater rotational security and osseointegrative potential.
