Clinical Trial Details
— Status: Completed
Administrative data
NCT number |
NCT03182361 |
Other study ID # |
2017/0282 |
Secondary ID |
B670201731744 |
Status |
Completed |
Phase |
N/A
|
First received |
|
Last updated |
|
Start date |
June 20, 2017 |
Est. completion date |
October 17, 2019 |
Study information
Verified date |
December 2022 |
Source |
University Hospital, Ghent |
Contact |
n/a |
Is FDA regulated |
No |
Health authority |
|
Study type |
Interventional
|
Clinical Trial Summary
Patients with craniofacial defects caused by oncologic resection, traumatic events or
congenital etiologies suffer from esthetic, functional and psychological problems. Auricular,
nasal and orbital defects can be reconstructed with implant retained extra-oral prosthesis.
The goal of this study is to evaluate implant survival in temporal, maxillary and orbital
bone, and peri-implant tissue reactions using a new implant system developed by BioComp
Industries.
Description:
Protocol:
1. Planning The ideal size and location of the implants is based on pre-operative CT or
CBCT scan followed by analysis using romexis planning software.
In normal circumstances, without bone limitations, the number and location of the
implants will be planned as mentioned below:
- Left auricular region: 2 implants placed on position 4h and 1h30 in the
temporal/mastoid bone. If necessary, 3 implants are placed on positions 1h30, 3h
and 4h30. The inter implant distance is 20mm.
- Right auricular region: 2 implants placed on position 8h and 10h30 in the
temporal/mastoid bone. If necessary, 3 implants are placed on positions 10h30, 9h
and 7h30. The inter implant distance is 20mm.
- Nasal region: 2 implants placed in the lateral parts of the piriform aperture of
the maxilla, as far away from the spina nasalis anterior as possible. If necessary
a third implant will be placed in the glabella.
- Left orbital region: 2-4 implants are placed in the supra-orbital, lateral and/or
infra-orbital rim on positions 1h, 2h, 3h en 5h.
- Right orbital region: 2-4 implants are placed in the supra-orbital, lateral and/or
infra-orbital rim on positions 11h, 10h, 9h en 7h.
If for some reason there is insufficient bone in the above mentioned areas, the position
of the implants will be minimally adjusted in order to secure good osseointegration.
Neuronavigation will be used for cases with limited bone volume.
2. Flap design During surgery the first step is the creation of a skin flap or resection of
a tumor, exposing the area for implantation.
3. Implantation The implantation protocol as described by BioComp Industries will be used.
Each drilling procedure is executed by 1800-2000rpm with water cooling.
- Defining the implant location with the 2,45mm diameter round bur.
- Preparation of the implant site with the implant drills, length and diameter of the
drill is dependent on the length and diameter of the implant. Drilling protocol
will always start with the smallest and shortest drill and gradually expanded,
corresponding to the size of the implants.
- Placement of the implant without water cooling at 15rpm and maximal torque of
52Ncm. If necessary the implant will be inserted manually.
For auricular, orbital and nasal defects with sufficient bone volume (>=3mm) and good
bone quality, a percutaneous healing abutment with torque 20-25 ncm will be placed
immediately after insertion of the implant (=one-stage protocol). Soft tissues in an
area of 15-20mm surrounding the implant will be reduced to 1mm thickness.
In all other circumstances, the implant will be protected by means of a cover screw and
reburied under the skin for a 3 month osseointegration period (=two-stage protocol).
After 3 months the implants are exposed, percutaneous healing abutments placed and the
surrounding soft tissues reduced to 1mm thickness.
In the case of large resections where no viable skin is left, a split thickness skin
graft from the upper thigh will be used.
Finally, a healing cap surrounding the healing abutments is placed to ensure strong
bone-skin contact around the implant. This healing cap will be fixated by a fixation
screw, torqued at 15 Ncm.
4. Clinical measurements:
The stability of the implants will be measured at the time of abutment placement, 1 or 2
weeks, 1 month, 3 months, 6 months and yearly until the end of the study by resonance
frequency analysis (RFA), using the Osstell idx system.
At the same time periods the peri-abutment tissue will be evaluated according to the
Holgers criteria.
Once all implants have reached a stability measurement of 50 ISQ, the patient will be
sent to the anaplastologist for prosthesis treatment.
In case one or more of the implants fail during the study period, the implant will be
removed and replaced by a new implant. The protocol will restart for the newly placed
implant.
5. Radiological measurements:
The bone level around the implants will be measured at 1 or 2 weeks after implant placement
and 1 year after implant placement. Radiological imaging will be performed using a cone beam
computed tomography device (planmeca promax 3d max) or CT scan, dependent on primary imaging
in order to allow comparison between both images.