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The role of functional parameters for topographical characterization of bone-anchored implants

Artikel i vetenskaplig tidskrift
Författare Anna Arvidsson
Bashar Sater
Ann Wennerberg
Publicerad i Clin Implant Dent Relat Res
Volym 8
Nummer/häfte 2
Sidor 70-6
Publiceringsår 2006
Publicerad vid Institutionen för odontologi
Institutionen för kliniska vetenskaper
Sidor 70-6
Språk en
Länkar www.ncbi.nlm.nih.gov/entrez/query.f...
Ämnesord Air Abrasion, Dental, Aluminum Oxide/chemistry, Biomechanics, *Dental Implants, Dental Materials/chemistry, *Dental Prosthesis Design, Humans, Interferometry, Optics, Particle Size, Surface Properties, Titanium/chemistry, Wettability
Ämneskategorier Odontologi

Sammanfattning

BACKGROUND: The surface topographical characterization of bone-anchored implants has been recommended to be based on amplitude, spatial, and hybrid parameters. There are also functional parameters that have the potential to describe characteristics important for a specific application. PURPOSE: The aim of the present study was to evaluate if parameters that have been described as functional in engineering applications are also relevant in the topographical characterization of bone-anchored implants. MATERIALS AND METHODS: The surface topography of threaded titanium implants with different surface roughness (S(a), S(ds), and S(dr)) was analyzed with an optical interferometer, and five candidating functional parameters (S(bi), S(ci), S(vi), S(m), and S(c)) were calculated. Examples of the same parameters for five commercially available dental implants were also calculated. Results The highest core fluid retention index (S(ci)) was displayed by the turned implants, followed by fixtures blasted with 250- and 25-microm particles, respectively. Fixtures blasted with 75-microm Al(2)O(3) particles displayed the lowest S(ci) value. This is the inverse order of the bone biological ranking based on earlier in vivo studies with the experimental surfaces included in the present study. CONCLUSION: A low core fluid retention index (S(ci)) seems favorable for bone-anchored implants. Therefore, it is suggested to include S(ci) to the set of topographical parameters for bone-anchored implants to possibly predict the biological outcome.

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