MILO Dental Implant
MILO Dental Implants

The MILO® Implant System is engineered for the anatomical and physiological demands of long-term denture stabilization or the permanent rehabilitation of single or multiple incisors. The simplified surgical protocol is similar to that of a miniature implant, however, MILO® has the added advantages of increased bone surface interface, improved load transfer capabilities and greater yield strength.

FEATURES

  • Long-term applications
  • OSSEAN® surface for faster healing5
  • Cement-Over™ Abutments
  • Direct delivery

Blossom® Redefined Cutting Technology

The Blossom cutting design allows for Intra-Lock implants to continually cut through bone with efficiency and minimal force. This minimizes trauma to the tissue, and evenly distributes the cutting force along the full body of the implant. Learn more about Blossom Self-tapping Technology.

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Blossom Implant System

Ossean® Bio-active Surface

The bio-active structure of the Ossean surface is developed by impregnating calcium phosphate into the implant surface, developing a fractal structure that mirrors its design at all levels of magnification.1,2,3 The resulting surface can facilitate fibril attachment, platelet deposition and osteoblast development.4 These functions can favorably alter the genetic expression of localized cells and induce faster healing of the implants.5

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Blossom Implant System

SPECIFICATIONS

DIAMETERS

3.0mm

LENGTHS

10mm | 11.5mm | 13mm | 15mm

CONNECTIONS

o-ball

PLACEMENT

bone level

PROFILE

narrow diameter

Milo Implants

Milo Prosthetics

MILO Prosthetics

Cement-Over™ Abutments provide the clinician with an unsurpassed range of prosthetic options. They can be prepared extra-orally and simply fit over the O-Ball Assembly. Once cemented in place with resin cement, abutment and implant form one unit; resistant and strong as a one-piece. An Analog and Impression Coping complements the system.

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Milo Prosthetics

Documentation

References

  1. ) Identification card and codification of the chemical and morphological characteristics of 14 dental implant surfaces.
    David Marcel Dohan Ehrenfest, DDS, MS, PhD, Lydia Vazquez, Yeong-Joon Park, Gilberto Sammartino, and Jean-Pierre Bernard Chonnam
    National University School of Dentistry, LoB5 unit, School of Dentistry, Gwangju, South Korea Journal of Oral Implantology: October 2011, Vol. 37, No. 5, pp. 525-542. R13006b
  2. Classification of Osseointegrated Implant Surfaces: Materials, Chemistry and Topography
    David M. Dohan Ehrenfest, Paulo G. Coelho, Byung-Soo Kang1, Young-Taeg Sul1 and Tomas Albrektsson
    1 Trends Biotechnol. 2010 Apr;28(4):198-206. Epub 2010 Jan 29. R13004r
  3. Basic Research Methods and Current Trends of Dental Implant Surfaces
    Paulo G. Coelho, Jose M. Granjeiro, George E. Romanos, Marcelo Suzuki, Nelson R. F. Silva, Giuseppe Cardaropoli, Van P. Thompson, Jack E. Lemons
    J Biomed Mater Res B Appl Biomater. 2009 Feb;88(2):579-96. doi: 10.1002/jbm.b.31264. R13002r
  4. Histomorphometric Evaluation of Bioceramic Molecular Impregnated and Dual Acid-Etched Implant Surfaces in the Human Posterior Maxilla
    Jamil Awad Shibli, DDS, MS, PhD; Sauro Grassi, DDS, MS; Adriano Piattelli, MD, DDS; Gabriele E. Pecora, MD, DDS; Daniel S. Ferrari, DDS, MS; Tatiana Onuma, DDS; Susana d’Avila, DDS, MS, PhD; Paulo G. Coelho, DDS, PhD; Raquel Barros, DDS, MS; Giovanna Iezzi, DDS, PhD
    Clinical Implant Dentistry and Related Research. Published Online: 28 Apr 2009 in Wiley Inter Science © 2010 Wiley Periodicals, Inc. R13003c
  5. Nanometer-Scale Features on Micrometer-Scale Surface Texturing: A bone Histological, Gene Expression, and Nano Mechanical Study
    Paulo G. Coelho, Tadahiro Takayama, Daniel Yoo, Ryo Jimbo, Sanjay Karunagaran, Nick Tovar, Malvin N. Janal, Seiichi Yamano.
    Bone, Issue 65, Aug. 2014. R13009a

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