is now part of the Zimmer Biomet dental division
X
Consent Message
X
Log In
Username:
Password:

Forgot your password?
Enter your email address
but leave the password blank to have
your password emailed to you.
Create An Account
Salutation: :
First Name: :
Last Name: :
Specialty :
Username:
Password:

Dental Professionals
Laboratory Technician
Patient
Customer Service 00 32 2 541 02 90
English
French

3iT3Shorts_EN_BE.png Countries_EN_BE.png FlexBanner_EN_BE.png 3iT3_EN.png DIEM2_EN.png Encode_EN.png ImplantRemovalKit_EN.png LODIHeader_en.png SlimKit_EN.png
BIOMET 3i Educational Opportunities

Dental Professionals

 
 
BellaTek Encode Empowered Laboratories
 
Products & Solutions
 
Upcoming Courses
 
Additional Educational Opportunities
 
Global Events
 
Restorative Catalog
Surgical and Site Preparation Product Catalog
 
BellaTek Encode Online Work Order Form
 
BellaTek Bars Online Work Order Form

NanoTite Non Platform Switched

One Nano Step For Man, One Giant Leap For Implant Dentistry...


Nano In Size, Profound In Effect

  • Microtopography Of The OSSEOTITE Implant Combined With A Nanometer-scale Discrete Crystalline Deposition (DCD®) Of Calcium Phosphate (CaP) Creates A More Complex Surface Topography. This Renders The NanoTite Implant A Bone Bonding Surface By The Interlocking Of The Newly Formed Cement Line Matrix Of Bone With The Implant Surface
  • Preclinical Studies Demonstrate A Substantial Improvement On The Rate And Extent Of Osseointegration For The NanoTite Implant Versus The OSSEOTITE Implant Leading To Implant Stability
  • NanoTite Implants May Be Used For Immediate Function On Single Tooth And/Or Multiple Tooth Applications When Good Primary Stability Is Achieved, With Appropriate Occlusal Loading, In Order To Restore Chewing Function

Why NanoTite?

BIOMET 3i’s OSSEOTITE Surface has more than a decade of clinical use and evidence based research to support its efficacy, so why is another surface needed? As treatment protocols get more advanced and dental implants are placed in more challenging clinical scenarios, there could be a benefit to a surface that provides a greater rate and extent of osseointegration on a more predictable basis. Potential scenarios where such an implant might be beneficial to patient and practice might include the following:

  • Immediate And Accelerated Loading Protocols
  • Immediate Replacement In Extraction Sockets
  • Simultaneous Grafted Sites And Implant Placement
  • Aesthetic Areas Where Bone Preservation Is Critical
  • Implant Placement In Poor-Quality Bone
  • Locations Requiring Short Or Wide Implants

Implants typically demonstrate good primary stability at the time of placement – in principle, a mechanical phenomenon. As bone remodels in subsequent weeks, there can be a reduction in implant stability that might impact early or immediate loading protocols.

The micro-topography of the OSSEOTITE Surface combined with the nanometer-scale architecture created with the NanoTite Surface Treatment renders it a Bone Bonding Surface by the interlocking of the newly formed cement line matrix of bone with the implant surface.

  1. Baumgarten H†, Meltzer A†. Improving outcomes while employing accelerated treatment protocols within the aesthetic zone: From single tooth to full arch restorations. Presented at the Academy of Osseointegration, 27th Annual Meeting; March 2012; Phoenix, AZ.
  2. Suttin Z†, Towse R†, Cruz J†. A novel method for assessing implant-abutment connection seal robustness. Poster Presentation 188: Academy Of Osseointegration, 27th Annual Meeting: 2012 March 1–3; Phoenix, Arizona. http://biomet3i.com/Pdf/Posters/Poster_Seal%20Study_ZS_AO2012_no%20logo.pdf. Testing done by BIOMET 3i, Palm Beach Gardens, FL; n = 20.
  3. Byrne D, Jacobs S, O’Connell B, Houston F, Claffey N. Preloads generated with repeated tightening in three types of screws used in dental implant assemblies. J. Prosthodont. 2006 May–Jun;15(3):164-71.
  4. Östman PO†, Wennerberg A, Albrektsson T. Immediate occlusal loading of NanoTite Prevail Implants: A prospective 1-year clinical and radiographic study. Clin Implant Dent Relat Res. 2010 Mar;12(1):39–47.
  5. Boitel N, Andreoni C, Grunder U†, Naef R, Meyenberg, K†. A three year prospective, multicenter, randomized-controlled study evaluating platform-switching for the preservation of peri-implant bone levels. Poster presentation P83: Academy of Osseointegration, 26th Annual Meeting: 2011 March 3–5; Washington DC.
  6. Lin A, Wang CJ, Kelly J, Gubbi P, Nishimura I. The role of titanium implant surface modification with hydroxyapatite nanoparticles in progressive early bone-implant fixation in vivo. Int J Oral Maxillofac Implants 2009 Sep–Oct;24(5):808–816
  7. Zetterqvist et al. A prospective, multicenter, randomized controlled 5-year study of hybrid and fully etched implants for the incidence of peri-implantitis. J Periodontol April, 2010.
  8. Östman PO†, Wennerberg A, Ekestubbe A, et al. Immediate occlusal loading of NanoTite™ Tapered Implants: A prospective 1-year clinical and radiographic study. Clin Implant Dent Relat Res 2012 Jan 17. [Epub ahead of print]
  9. Block MS†. Placement of implants into fresh molar sites: Results of 35 cases. J Oral Maxillofac Surg. 2011 Jan;69(1):170-4.

†Dr. Baumgarten, Dr. Block, Dr. Grunder, Dr. Meltzer, Dr. Meyenberg, Dr. Östman , J Cruz, Z Suttin and R Towse have financial relationships with BIOMET 3i LLC resulting from speaking engagements, consulting engagements and other retained services.

Share Your Feedback