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Bone Changes in Atrophic Maxilla Treated by Split-crest Technique

Cairo University (CU) logo

Cairo University (CU)

Status and phase

Unknown
Phase 3
Phase 2

Conditions

Atrophy; Edentulous Ridge

Treatments

Biological: Ridge splitting, immediate implant, Nanobone with PRF.
Biological: Ridge splitting, immediate implantand PRF.

Study type

Interventional

Funder types

Other

Identifiers

NCT02836678
CEBD-2016-03-150

Details and patient eligibility

About

The effect of adding Nanobone on horizontal bone gain in ridge splitting.

Full description

In cases of a very narrow ridge, One of the augmentation protocols is alveolar ridge-splitting techniques (RST) or alveolar ridge expansion techniques with simultaneous implant insertion. The piezoelectric surgical devices implemented for conducting bone osteotomy through the use of micrometric ultrasonic vibrations have been widely used in recent years in maxillofacial surgery. Its biggest advantages are that it allows for cutting with micrometric sensitivity while cutting hard tissues, it offers a clear vision of the surgical site due to its cavitation effect, it does not cause any damage to the soft tissues while performing these cuts, and that the bone tissue heals more quickly and seamlessly, after the cuts made by piezosurgery device. The fully synthetic bone substitute, NanoBone® (Artoss, Rostock, Germany), which will be applied in this clinical study, is basically a nanocrystalline hydroxyapatite embedded in a silica gel matrix, achieved by means of specific sol-gel techniques. Features such as interconnecting pores on the nanoscale, the open SiOH or SiO groups of polysilicic acid, its large internal surface, and the high porosity of this biomaterial are all related to the calcification processes observed within the implantation bed. While the HA component is responsible for NanoBone osteoconductive properties, the silica component is believed to induce connective tissue formation, osteoblast proliferation, bone matrix mineralization, and calcification, thus combining osteoconductive and osteoinductive properties. This phenomenon is associated with the rearrangement of the silica matrix, which could be observed in vivo.

Enrollment

40 estimated patients

Sex

All

Ages

18 to 70 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

  • Age: 18-70.
  • Patients with an edentulous site in maxilla.
  • Ridge width of <6mm at the edentulous site.
  • Ridge height of >9mm at the edentulous site.
  • Patients who are compliant to oral hygiene measures for 4 weeks.
  • Patient consent approval and signing.

Exclusion criteria

  • Smokers.
  • Systemic disease that contraindicates implant placement or surgical procedures.
  • No or poor patient's compliance.
  • History of radio or chemo-therapy.
  • Psychological problems.
  • Pathology at the site of intervention.
  • Pregnancy.
  • Insufficient crown height space or mesio-distal dimension that contradict the placement of a dental implant.

Trial design

Primary purpose

Treatment

Allocation

Randomized

Interventional model

Parallel Assignment

Masking

None (Open label)

40 participants in 2 patient groups

Control group
Active Comparator group
Description:
Ridge splitting, immediate implantand PRF.
Treatment:
Biological: Ridge splitting, immediate implantand PRF.
Test group
Experimental group
Description:
Ridge splitting, immediate implant, Nanobone with PRF.
Treatment:
Biological: Ridge splitting, immediate implant, Nanobone with PRF.

Trial contacts and locations

0

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Central trial contact

Maged Anis, Assisstant lecturer; Rasha Attia, Assisstant lecturer

Data sourced from clinicaltrials.gov

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