Angelo Troedhan
Health Science University
17 Papers
98 Citations
Angelo Troedhan is an academic researcher from Health Science University. The author has contributed to research in topics: Sinus lift & Bone regeneration. The author has an hindex of 8, co-authored 17 publications. Previous affiliations of Angelo Troedhan include Aon.
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Papers
Hydrodynamic Ultrasonic Sinus Floor Elevation—An Experimental Study in Sheep
TL;DR: Hydrodynamic ultrasound could be used as an alternative method for sinus floor elevations of any size and volume with a mere 3-mm-diameter transcrestal approach, if findings from clinical investigations confirm the results of the present animal study.
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Biological Principles and Physiology of Bone Regeneration under the Schneiderian Membrane after Sinus Lift Surgery: A Radiological Study in 14 Patients Treated with the Transcrestal Hydrodynamic Ultrasonic Cavitational Sinus Lift (Intralift).
TL;DR: The results of this paper prove the key role of the sinus membrane as the main carrier of bone reformation after sinus lift procedures as multiple experimental studies suggested and the importance of minimal invasive and rupture free sinuslift procedures is underlined and does not depend on the type of grafting material used.
Ultrasonic piezotome surgery: is it a benefit for our patients and does it extend surgery time? A retrospective comparative study on the removal of 100 impacted mandibular 3rd molars
TL;DR: The results of this retrospective study suggest that Piezotome-surgery is superior in atraumaticity and soft-tissue safety compared to tra- ditional procedures with burs and grants the patients significantly less post surgical pain and swelling.
Cutting bone with drills, burs, lasers and piezotomes: A comprehensive systematic review and recommendations for the clinician
Angelo Troedhan,Ziad Tarek Mahmoud,Marcel Wainwright,Mohamed Moataz Khamis +3 more
- 14 Aug 2017
TL;DR: Evaluating most recent evidence, when surgical procedures performed with drills or burs are compared with laser- and/or piezotome-surgical procedures in experimental and clinical studies and to assess possible advantages of their use in daily practice.
Rupture length of the sinus membrane after 1.2 mm puncture and surgical sinus elevation: an experimental animal cadaver study.
TL;DR: The HUCSL technique yielded the lowest increase of rupture length compared with BASL and Summers lift and therefore shows the lowest risk of a growing rupture of the sinus membrane in case of an iatrogenic puncture during preparation of the transcrestal approach.
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