Ophir Fromovich
New implant design for immediate treatment through “osseodensification” and tissue preservation
- Dr. Fromovich graduated from the Medicine & Pharmacy institute in Bucharest in 1988. After completing is post-graduate training in Orthodontics.
- He is an expert on dental implants and for the last 22 years his practice is limited to placement and restoration of dental implants. Dr. Fromovich is the inventor of many implants system and restorative implant parts. He held a Professor A/C at G.d’Annunzio University of Chieti.
- Dr. Fromovich has lectured extensively nationally and internationally. He has also conducted many advanced implant courses for the last 19 years and he is the head of International dental implant academy of excellence in Israel.
- He has been involved in various research projects on implants surface and bio mechanical ,He is the author of book chapters in implant dentistry and scientific papers and publications.
- He has been involved in the development of an educational software for dental implantology.
- He is a member of the following: German Association of Dental Implantology DGZI , International Congress of Oral Implantologists (ICOI), and the Israeli Association of Oral Implants IAOI .
Nationality: Romania
Scientific areas: Implantology
8 of november, from 09h30 until 10h30
Auditório A
Conference summary
Primary implant stability at time of surgery is crucial for immediate oral rehabilitation. Bone density, surgical technique and thread design contribute to primary stability of dental implants. Patient health and clinical presentation, clinician capabilities, properties and design of the implant system, as well as surgical techniques must be balanced for favorable outcomes along the full treatment continuum.
The full treatment protocol should contribute to maximum preservation of native bone and densification through moderate compression of the osteotomy walls to increase bone-to-implant contact and primary stability. Dental implants designed to optimize principles of bone preservation and osseodensification show enhanced biocompatibility through their physical structure and chemical composition and demonstrate enhanced biomechanical stability and optimal osseointegration even in low-density and poor quality bone.
A new implant system has been designed according to these fundamental principles, with an innovative TiZr alloy material and a hydrophilic surface with nanoparticles, that consistently demonstrates primary stability and high percentage of bone at its surface at time of implantation. Through its surface and thread design, as well as maximum preservation of the native bone, the healing process around this implant is accelerated due to the presence of a bone matrix, cells and biological molecules that are maintained in situ and micro-grafted along the interface of the osteotomy and implant.
Scientific sponsor
STRAUMANN