Isabel Mosch scite author profile

The aim of this study was to analyse the osseointegrative potential of phosphoserine-tethered dendrons when applied as surface functionalisation molecules on titanium implants in a sheep model after 2 and 8 weeks of implantation. Uncoated and dendron-coated implants were implanted in six sheep. Sandblasted and etched (SE) or porous additive manufactured (AM) implants with and without additional dendron functionalisation (SE-PSD; AM-PSD) were placed in the pelvic bone. Three implants per group were examined histologically and six implants were tested biomechanically. After 2 and 8 weeks the bone-to-implant contact (BIC) total values of SE implants (43.7±12.2; 53.3±9.0%) and SE-PSD (46.7±4.5; 61.7±4.9%) as well as AM implants (20.49±5.1; 43.9±9.7%) and AM-PSD implants (19.7±3.5; 48.3±15.6%) showed no statistically significant differences. For SE-PSD and AM-PSD a separate analysis of only the cancellous BIC demonstrated a statistically significant difference after 2 and 8 weeks. Biomechanical findings proved the overall increased stability of the porous implants after 8 weeks. Overall, the great effect of implant macro design on osseointegration was further supported by additional phosphoserine-tethered dendrons for SE and AM implants.

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Einfluss von unterschiedlichen Implantatmakrodesigns und Oberflächenmodifikationen auf das osseointegrative Verhalten von sechs verschiedenen Titan-Implantattypen: eine histologische und biomechanische Analyse im Schafmodell

Mosch¹

2012

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Isabel Mosch

Histological and biomechanical analysis of porous additive manufactured implants made by direct metal laser sintering: A pilot study in sheep

Osseointegration of titanium implants functionalised with phosphoserine-tethered poly(epsilon-lysine) dendrons: a comparative study with traditional surface treatments in sheep

Einfluss von unterschiedlichen Implantatmakrodesigns und Oberflächenmodifikationen auf das osseointegrative Verhalten von sechs verschiedenen Titan-Implantattypen: eine histologische und biomechanische Analyse im Schafmodell

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