Variety of prosthetic solutions
From cemented fixation and burn-out angulated caps to telescopic caps with screwed retention and CAD-CAM solutions on multiunit platforms.
- Special compressive threads
- Immediate loading
- Adjustable abutment slope angle
- In accordance with FILO concept can be combined with Basal implants in pterygoid area for total rehabilitation
- Καινοτομία και εξέλιξη
- Διασφάλιση ποιότητας
- Surface Implant Treatment
- Titanium Grade 23
- Dental Implant Passport
Το Roott εμφυτευματικό σύστημα δημιουργήθηκε και διαρκώς αναβαθμίζεται από την Roott σε στενή συνεργασία με μέλη της Open Dental Community.
Το Roott concept είναι η απλότητα και η αποβολή των υπέρπολύπλοκων θεραπευτικών διαδικασιών που προσφέρουν πολλές άλλες εταιρείες εμφυτευμάτων στην αγορά.
Η Roott φιλοσοφία περιλαμβάνει υψηλότατη ποιότητα, απλότητα στην εφαρμογή της και ανταγωνιστικές τιμές. Ανώτατη καθαρότητα επιφάνειας (ZWP 3/2016, p. 12-18).
We operate a quality management system based on EN ISO 13485:2016.
The company's products are certified in compliance with the provisions European Directive 93/42/EEC.
All Implants come with a 20 years warranty and a passport of quality is given to every patient
Our Implants have an SLA surface. They are not sandblasted with Aluminium oxide (it could be toxic and it is not resorbable) but by using resorbable blasting materials like Hydroxyapatite.
Surface Implant Treatment
The implant surface can be sand blasted by using Aluminium oxide or by using resorbable blasting materials (RBM) like Hydroxyapatite or Beta TCP.
This RBM seems to be interesting. There was no significant difference roughness obtained between the Sandblast acid etched (SBAE) and the RBM. The resistance to the corrosion is almost the same.
But Protein synthesis by the osteoblasts seems to be influenced by the surface treatment. Indeed, the cellular activity s significantly higher on porous Ti and RBM surfaces than on TPS, HA, and SBAE surfaces.
Indeed, HA, SBAE, and RBM surfaces have a similar roughness, but a significantly different cellular activity.
This helps the dentist to choose an implant. It is preferable that the implant surface is sand blasted by Hydorxyapatite or Beta TCP more than those by Aluminium Oxyde.
Corrosion resistance and biocompatibility of a new porous surface for titanium implants Simon M, Lagneau C, Moreno J, Lissac M, Dalard F, Grosgogeat B. Corrosion resistance and biocompatibility of a new porous surface for titanium implants. Eur J Oral Sci 2005; 113: 537–545. _ Eur J Oral Sci, 2005_ Eur J Oral Sci, 2005
Titanium Grade 23
The titanium can be divided in several grades. the most common used in dental implant are 2, 4 and 5. The Grade 5 is the used by the major implant industry. It is because of its hardness. There are implants made of Titanium Grade 23. This Grade 23 is basically a Grade 5 with the reduction of oxygen (0.2% for grade 5 and 0.13% for grade 23), iron (0.40 for grade 5 and 0.25% for grade 23) and nitrogen (0.05 for grade 5 and 0.03 for grade 23) content. This reduction of these ions allows the titanium grade 23 to become an Extra Low Interstitial Alloy. This confers improved ductility and fracture toughness. ELI has been widely used in fracture critical airframe structures and for offshore tubulars. The Ti ELI or grade 23 is a version of Titanium Grade 5 but it is purer. So, it is the purity version of Titanium 5 because of the reduction of ions. It is the golden choice where there is a need of combinations of high and strength, good corrosion resistance light weight and high toughness. It is damage tolerance is superior to other alloys.