OBJECTIVES: To determine the effect of magnetron-sputtered calcium phosphate coating of implants on the later stages of osseointegration in a non-human primate model. MATERIAL AND METHODS: Eighteen and 20 implants with a 0.1 microm amorphous calcium phosphate coating and a turned surface, respectively, were inserted in the anterior upper and lower jaw of adult non-human primates. Following a 7.5 months healing period, one part of the implants remained in the submerged position. The other part of implants was connected to healing abutments to allow peri-implant inflammation to occur. After another 20 months, histologic and histomorphometric analysis of the peri-implant area was performed. RESULTS: Submerged implants with a calcium phosphate coating and a turned surface showed no signs of an inflammatory reaction. The histomorphometric parameters 'bone volume per tissue volume' (BV/TV) and 'bone-to-implant contacts' (BIC) were not affected by calcium phosphate coating. Non-submerged implants of both groups showed occasionally signs of inflammation at the implant-abutment junction. Histomorphometric analysis revealed that the distance between the implant-abutment junction and the most coronal level (where bone was attached to the implant) as well as BV/TV and BIC were independent from the surface modification. CONCLUSION: Our results show that dental implants with calcium phosphate coating behave similar to turned implants independently whether they are connected to healing abutments or remain submerged. Ultra-thin calcium phosphate coating can combine the positive effects of calcium phosphate during the early stage of osseointegration without causing impairment of the later stages.
OBJECTIVES: To determine the effect of magnetron-sputtered calcium phosphate coating of implants on the later stages of osseointegration in a non-human primate model. MATERIAL AND METHODS: Eighteen and 20 implants with a 0.1 microm amorphous calcium phosphate coating and a turned surface, respectively, were inserted in the anterior upper and lower jaw of adult non-human primates. Following a 7.5 months healing period, one part of the implants remained in the submerged position. The other part of implants was connected to healing abutments to allow peri-implant inflammation to occur. After another 20 months, histologic and histomorphometric analysis of the peri-implant area was performed. RESULTS: Submerged implants with a calcium phosphate coating and a turned surface showed no signs of an inflammatory reaction. The histomorphometric parameters 'bone volume per tissue volume' (BV/TV) and 'bone-to-implant contacts' (BIC) were not affected by calcium phosphate coating. Non-submerged implants of both groups showed occasionally signs of inflammation at the implant-abutment junction. Histomorphometric analysis revealed that the distance between the implant-abutment junction and the most coronal level (where bone was attached to the implant) as well as BV/TV and BIC were independent from the surface modification. CONCLUSION: Our results show that dental implants with calcium phosphate coating behave similar to turned implants independently whether they are connected to healing abutments or remain submerged. Ultra-thin calcium phosphate coating can combine the positive effects of calcium phosphate during the early stage of osseointegration without causing impairment of the later stages.
Authors: B A J A van Oirschot; E M Bronkhorst; J J J P van den Beucken; G J Meijer; J A Jansen; R Junker Journal: Odontology Date: 2016-02-17 Impact factor: 2.634
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Authors: José L Calvo-Guirado; Antonio Aguilar-Salvatierra; Javier Guardia; Rafael Delgado-Ruiz; María P Ramírez-Fernández; Cristina Pérez Sánchez; Gerardo Gómez-Moreno Journal: J Clin Exp Dent Date: 2012-02-01
Authors: Jeanne-Marie Damerau; Susanne Bierbaum; Daniel Wiedemeier; Paula Korn; Ralf Smeets; Gregor Jenny; Johanna Nadalini; Bernd Stadlinger Journal: J Biomed Mater Res B Appl Biomater Date: 2021-07-16 Impact factor: 3.405