Vojnosanitetski Pregled (Jan 2014)

Implant stability and marginal bone level of microgrooved zirconia dental implants: A 3-month experimental study on dogs

  • Delgado-Ruíz Rafael Arcesio,
  • Marković Aleksa,
  • Calvo-Guirado Luís José,
  • Lazić Zoran,
  • Piattelli Adriano,
  • Boticelli Daniele,
  • Maté-Sánchez José Eduardo,
  • Negri Bruno,
  • Ramírez-Fernández María Piedad,
  • Mišić Tijana

DOI
https://doi.org/10.2298/VSP121003034D
Journal volume & issue
Vol. 71, no. 5
pp. 451 – 461

Abstract

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Background/Aim. The modification of implant surfaces could affect mechanical implant stability as well as dynamics and quality of peri-implant bone healing. The aim of this 3-month experimental study in dogs was to investigate implant stability, marginal bone levels and bone tissue response to zirconia dental implants with two laser-micro-grooved intraosseous surfaces in comparison with nongrooved sandblasted zirconia and sandblasted, high-temperature etched titanium implants. Methods. Implant surface characterization was performed using optical interferometric profilometry and energy dispersive X-ray spectroscopy. A total of 96 implants (4 mm in diameter and 10 mm in length) were inserted randomly in both sides of the lower jaw of 12 Fox Hound dogs divided into groups of 24 each: the control (titanium), the group A (sandblasted zirconia), the group B (sandblasted zirconia plus microgrooved neck) and the group C (sandblasted zirconia plus all microgrooved). All the implants were immediately loaded. Insertion torque, periotest values, radiographic crestal bone level and removal torque were recorded during the 3-month follow-up. Qualitative scanning electon micro-scope (SEM) analysis of the bone-implant interfaces of each group was performed. Results. Insertion torque values were higher in the group C and control implants (p the control > the group B > the group A (p the control > the group B > the group A (p < 0.05). SEM showed that implant surfaces of the groups B and C had an extra bone growth inside the microgrooves that corresponded to the shape and direction of the microgrooves. Conclusion. The addition of micro-grooves to the entire intraosseous surface of zirconia dental implants enhances primary and secondary implant stability, promotes bone tissue ingrowth and preserves crestal bone levels.

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