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Exposure / impression / prosthetic care packaging with the specific article information are available for
no more than 400 rpm, documentation.
In the case of single-phase healing/implantation, the implant (1 |
with intermittent movement and low pressure. Multiple use of 1.1) is fitted with a healing cap/gingiva former (3 | 4) or an abut- closed healing
drills should be avoided, as there is a risk of bone overheating if ment (10 - 16 | 17 - 22 | 27 | 33 | 34) after insertion . Immediate implant insertion
drills are too blunt and healing (osseointegration) in the bone can- restoration with a temporary restoration on a prepared abutment Before the suture, the internal geometry is closed with the help of
not occur due to heat necrosis. After preparing the bone cavity, after an impression can also be made. It is important to ensure that a locking screw (2 | 45), which is screwed in hand-tight with a max-
the MeoClassic (1) / MeoTulip (1.1) implant is inserted with the in- there is no approximal or occlusal contact with neighboring teeth. imum of 2 - 4 Ncm with the hexagonal instrument (58 | 59 / 60 |
sertion tool (56 | 57) and the MeoMini® implant (47) with the in- In the two-phase procedure, the implant closure cap/screw (2) is 61), since screwing in too tightly will result in later loosening of the
sertion tool (63) at 10-15 rpm. The insertion torque when inserting exposed and removed after the specified healing time under anes- screw plug during exposure is made more difficult or impossible.
the implant should not exceed 50 Ncm and under no circum- thesia. After optionally closed (6 / 7) or open impression (5), gin-
stances should it be higher in order to avoid pressure necrosis and giva formers (3 | 4) or the respective abutment are reinserted. Im- exposure
thermal damage. Likewise, make sure that the screw-in torque pression posts (5 | 6) must be screwed in with a maximum of 5-10 With the hexagonal instrument (1.2 58 | 59) for MeoMini® (47) or
does not fall below 15 Ncm. In general, the insertion tools should Ncm, whereby the exact fit is a prerequisite for the fitting accuracy with the hexagonal instrument (1. 4 60 | 61) for the implants
always have an exact fit to the inner geometry of the implant when of the prosthetic restoration. For open impression taking (5), a pas-
being used in order to avoid damaging the inner geometry of the sage opening for the impression post (5) is ground into the individ- (1|1.1), the cover screw (2 | 45) is removed after exposure and
provide the implant with a healing cap (3 | 4). However, an impres-
implant. The implant surface is specially produced as an SLA-com- ual impression tray so that the impression post and implant can be sion can be taken before or after the soft tissue conditioning
patible surface and is highly active. All touching of the implant sur- detached from one another after the impression has been taken. phase.
face prior to insertion should be avoided. The MeoClassic® implant For further processing in the laboratory, the impression post (5) in
(1) is constructed in such a way that the implant edge should be the impression is screwed to a laboratory analog (8 or 9) that has b) open impression
flush with the crestal bone edge after insertion. The MeoTulip im- the same inner geometry as the implant. After the model has been
plant (1.1) is designed in such a way that the polished tulip-shaped made, the screw connection of the laboratory analogue and the Impression body (5) with fastening screw (55) is screwed onto the
area should be visible above the crestal bone wheel after insertion. impression post is separated. With the closed impression (6 + 7), implant (1 | 1.1) with a maximum of 5-10 Ncm in a short or long
In addition, the exact prosthetic position of the subsequent crown the corresponding impression post (7) is connected to the implant version, depending on the space available and localization. It is im-
should match the position of the implant in the horizontal and sag- body (1 | 1.1). A transfer cap (6) is then placed on the impression portant to ensure that there are no tissue or foreign particles in
ittal direction through precise operation planning, taking into ac- post in the mouth. After the impression material has set and the the inner geometry of the implant in order to ensure the exact
count the bone availability. An implantation can be carried out tray has been removed, the transfer cap (6) is located in the im- force and form fit. A passage opening is provided for the fastening
with the formation of a mucoperiosteal flap or also transgingivally, pression material of the tray. The impression post (7) is now de- screw in a previously prepared individual impression tray in order
this requires precise knowledge of the bone volume. In the case of tached from the implant and connected to a laboratory analogue to loosen the screw from the implant (1 | 1.1) after the impression
a transgingival procedure, the soft tissue of the implant must be (8 | 9). The model is made in the same way as for open impres- material has set and to be able to pull it out of the impression body
avoided at all costs. The healing can be closed after screwing in a sions. After the individualized abutment has been made in the la- (5).
locking cap/screw (2) and suturing the incision slot or in an open boratory and, if necessary, the definitive denture, the provisional
way after screwing in a healing cap (3 | 4) or a ready-made, possi- integration takes place. The peri-implant tissue maturation takes b) closed impression
bly previously individualized abutment with a long-term tempo- about six months and is used for the long-term prognosis of the
rary made for it in a perforated with a gingiva punch sulcus or a implant . A laboratory screw (50) (blue anodized) specially devel- A three-part impression post (7 | 37) is available for closed impres-
flap sewn all around. There must be neither an approximal nor an oped for this work process must be used for all work in the labor- sions. The impression body is screwed to the implant (1 |1.1) with
occlusal contact with neighboring teeth. atory. When inserting the final prosthetic work, use the definitive the aid of the fastening screw (51) with a maximum of 5-10 Ncm
Before inserting the implant, the depth gauge can provide orienta- fixation screw (51) provided with the relative abutment, screwing and fitted with the corresponding cap (6), which audibly clicks into
tion about the drill channel depth. The actual depth can only be either just the abutment or the whole crown. Cementing is an al- place on the impression body. Conventional impressions can now
determined by selecting the drills and the implants. The depth ternative to screwing. When selecting the abutment, attention be taken with a closed tray, although alginate is generally not suit-
gauge is only for orientation during the surgical procedure. must be paid to the height of the gingiva, the diameter and the able for implant impressions . The impression cap 6 remains in the
angulation of the implant. A fracture of the connecting screw can set impression compound and, after it has been released, enables
be avoided by observing the maximum torque of 30 Ncm. How- the impression body connected to a model analog (8 | 9 | 38) to
ever, should a screw break, the fractured screw is removed with a be repositioned in the impression.
specially designed rescue kit. The adhesive labels included in the

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