Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03944811 |
| Other study ID # |
29011 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
September 1, 2019 |
| Est. completion date |
April 1, 2021 |
Study information
| Verified date |
October 2021 |
| Source |
Cairo University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Missing teeth usually result in functional and cosmetic deficits. Traditionally, they have
been restored with dentures or fixed bridges. However, dental implants represent an excellent
alternative which rely on the maintenance of a direct structural and functional connection
between living bone and implant surface, which is termed osseointergration. When sufficient
bone is available in maxilla, implant rehabilitation has shown high success rates of 84-92 %.
Atrophy of the alveolar crest and pneumatization of the maxillary sinus limits the quality
and quantity of residual bone, therefore complicating the placement of implants in the
posterior maxillary area.
Description:
Many solutions were suggested to overcome the problem of placing implants in the vertically
compromised bone height in the maxillary posterior region. These solutions include the
placement of short wide implants, long tilted zygomatic implants, vertical ridge augmentation
and elevation of the sinus membrane to increase the available length for implant placement.
The use of short implants (<10 mm in length) is a reasonable solution that reduces the risk
of interference with anatomic structures and claimed to have success rate as high as
conventional implants. However, short implants have faced many challenges due to less
bone-to-implant contact, more crestal bone resorption, and compromised crown-to-implant
ratio. Another treatment option is the use of zygomatic implants. However, many complications
may be associated with zygomatic implants such as oro-antral fistula formation, maxillary
sinusitis, and peri-implant bleeding.
Vertical augmentation of the resorbed alveolar ridge is another treatment option. It can be
done by onlay grafting, distraction osteogenesis and guided bone regeneration. Although
success rates of various bone grafting techniques are high, there are many inherent
disadvantages which include prolonged treatment times, raised treatment costs and increased
surgical invasion associated with patient morbidity and potential complications.
To overcome these problems, elevation of the sinus membrane techniques were proposed, it can
be performed either through a lateral window, or via a crestal access. The selection between
these two techniques is mainly based on the remaining residual vertical subsinus bone height.
Lateral approach of sinus elevation is indicated when the residual bone height is of 4 mm or
less, while the crestal approach is used in case of residual ridge of 5-6 mm.
Many long term studies and systematic reviews have showed that osteotome mediated sinus floor
elevation (OSFE) technique is a highly predictable method for rehabilitation of patients with
atrophied posterior maxilla with survival rates ranging from 92 % to 100 %. However,
endoscopic studies have demonstrated the risk of membrane perforation while performing
transalveolar sinus floor elevation. Moreover, the Summers technique can cause some
complications as headache and paroxysmal positional vertigo.
The piezoelectric internal sinus elevation (PISE) technique was first introduced by Sohn in
2009. Using piezoelectric ultrasonic vibration (25-30 kHz), the piezosurgery device cuts only
mineralized structures precisely without cutting soft tissues even in case of accidental
contact. Moreover, the cavitation effect produces a hydropneumatic pressure in the
physiological saline solution that leads to atraumatic sinus membrane elevation. Another
advantage of piezosurgery is its precision as the movement of the piezosurgery knife is very
small, so the cutting precision is great and the patients discomfort is minimal. In addition,
the air-water cavitation effect of the piezoelectric device sustains a blood-free surgical
field which improves visualization of the surgical field. This technique overcomes the
problem of benign paroxysmal positional vertigo caused by malleting during the osteotome
mediated sinus floor elevation.
