In daily surgical practice, implantologists find themselves having to manage, address, and resolve various critical issues: they may fail to identify the mineral density of the implant tunnel, or lack the primary stability necessary for the type of prosthetic load, or even fail to properly tilt the angular implants.
Fortunately, as often happens, innovation has sought and found the most appropriate answers to each of these problems: today's implant-prosthetic technologies have reformed decision-making processes and established pre-established workflows, resulting in a significant reduction in errors caused by variables in the implantology cycle.
TMM3 , the third generation of the surgical engine by IDI Evolution, is a product that seeks to offer answers to the problems that clinicians face every day during their work: the reader-probe records the mineral density of the implant socket, incorporates implants in any bone condition with the degree of primary stability functional to the programmed load and controls the insertion angle thanks to the MAD (Micro Angle Detector).
As Arthur Bloc said, any sufficiently advanced technology is indistinguishable from magic . TMM3 is simple and intuitive to use, designed to be used by anyone, even clinicians who are less accustomed to using new technologies and tend to prefer traditional instruments. The smart surgical set , for example, sequentially indicates the drilling instruments through a simple light and voice alert, controlling all phases of implant canal preparation with a system that warns the operator when the risk of overheating the implant socket approaches.
But innovation today cannot ignore another key asset: data sharing and analysis . IDI Evolution's surgical engine provides the operator with all the crucial data from both computer-assisted and conventional implantology procedures: the large 11" touchscreen displays all the surgical data (surgery plan, bone scan and insertion graphs, etc.) in images and audio. This data can then be collected in a digital file and shared with the patient, providing proof of the work performed, as well as sent (anonymously) to IDI Evolution's central database.
"The information collected, appropriately subjected to statistical and scientific analysis, is then transformed into new operational guidelines, which are then returned to clinicians," comments Andrea Piantoni , Chief Innovation Officer of IDI Evolution, and continues, "A product of this type therefore gives life to a community of professionals, each of whom contributes to the generation of increasingly predictable surgical outputs, well-tailored to the nosological individuality of our implant patients. We could say that each clinician, through TMM3, contributes with their own work to facilitate and improve the work of all the other clinicians."
The TMM3 therefore gives shape to the aspirations of the “ implantologist 4.0 ”: to perfect daily practical experience with data and surgical facilitation tools, to build a complete and associable digital record, to participate in a new clinical-scientific project together with other professionals, and thus contribute to the professional growth of all implantologists in the time of technological evolution in dentistry.
Read the full article on Odontoiatria33.
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