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Sökning: WFRF:(Linderbäck Paula)

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  • Wermelin, Karin, 1977-, et al. (författare)
  • Bisphosphonate coating on titanium screws increases mechanical fixation in rat tibia after two weeks
  • 2008
  • Ingår i: Journal of Biomedical Materials Research. Part A. - Hoboken, NJ, United States : John Wiley & Sons. - 1549-3296. ; 86A:1, s. 220-227
  • Tidskriftsartikel (refereegranskat)abstract
    • Recently published data indicate that immobilized N-bisphosphonate enhances the pullout force and energy uptake of implanted stainless steel screws at 2 weeks in rat tibia. This study compares titanium screws with and without a bisphosphonate coating in the same animal model. The screws were first coated with an <img src="http://www3.interscience.wiley.com/giflibrary/12/sim.gif" />100-nm thick crosslinked fibrinogen film. Pamidronate was subsequently immobilized into this film via EDC/NHS-activated carboxyl groups within the fibrinogen matrix, and finally another N-bisphosphonate, ibandronate, was physically adsorbed. The release kinetics of immobilized 14C-alendronate was measured in buffer up to 724 h and showed a 60% release within 8 h. Mechanical tests demonstrated a 32% (p = 0.04) and 48% (p = 0.02) larger pullout force and energy until failure after 2 weeks of implantation, compared to uncoated titanium screws. A control study with physically adsorbed pamidronate showed no effect on mechanical fixation, probably due to a too small adsorbed amount. We conclude that the fixation of titanium implants in bone can be improved by fibrinogen matrix-bound bisphosphonates.
  • Fröjd, Victoria, et al. (författare)
  • Effect of nanoporous TiO2 coating and anodized Ca2+ modification of titanium surfaces on early microbial biofilm formation.
  • 2011
  • Ingår i: BMC oral health. - 1472-6831. ; 11
  • Tidskriftsartikel (refereegranskat)abstract
    • BACKGROUND: The soft tissue around dental implants forms a barrier between the oral environment and the peri-implant bone and a crucial factor for long-term success of therapy is development of a good abutment/soft-tissue seal. Sol-gel derived nanoporous TiO2 coatings have been shown to enhance soft-tissue attachment but their effect on adhesion and biofilm formation by oral bacteria is unknown. METHODS: We have investigated how the properties of surfaces that may be used on abutments: turned titanium, sol-gel nanoporous TiO2 coated surfaces and anodized Ca2+ modified surfaces, affect biofilm formation by two early colonizers of the oral cavity: Streptococcus sanguinis and Actinomyces naeslundii. The bacteria were detected using 16S rRNA fluorescence in situ hybridization together with confocal laser scanning microscopy. RESULTS: Interferometry and atomic force microscopy revealed all the surfaces to be smooth (Sa≤0.22 μm). Incubation with a consortium of S. sanguinis and A. naeslundii showed no differences in adhesion between the surfaces over 2 hours. After 14 hours, the level of biofilm growth was low and again, no differences between the surfaces were seen. The presence of saliva increased the biofilm biovolume of S. sanguinis and A. naeslundii ten-fold compared to when saliva was absent and this was due to increased adhesion rather than biofilm growth. CONCLUSIONS: Nano-topographical modification of smooth titanium surfaces had no effect on adhesion or early biofilm formation by S. sanguinis and A. naeslundii as compared to turned surfaces or those treated with anodic oxidation in the presence of Ca2+. The presence of saliva led to a significantly greater biofilm biovolume but no significant differences were seen between the test surfaces. These data thus suggest that modification with sol-gel derived nanoporous TiO2, which has been shown to improve osseointegration and soft-tissue healing in vivo, does not cause greater biofilm formation by the two oral commensal species tested than the other surfaces.
  • Linderbäck, Paula, 1980- (författare)
  • Improved titanium and steel implants Studies on bisphosphonate, strontium and surface treatments
  • 2011
  • Doktorsavhandling (övrigt vetenskapligt)abstract
    • Purpose: The general aim of this thesis was to increase the understanding of biomaterial surface modifications and local delivery of osteoporosis drugs for bone integration. We therefore (i) characterised and investigated model surface coatings for controlled drug delivery in a rat tibia screw model (ii) elucidated the effect of surface treatment for activation of complement system in vitro.Materials and methods: Bisphosphonate was immobilised directly to implant surfaces by two methods. In the first method, bisphosphonate was bound via a crosslinked fibrinogen layer to titanium surfaces. In the second method, stainless steel screws were first dip coated in a TiO2 solgel, and thereafter incubated in simulated body fluid (SBF). The so prepared thin calcium phosphate layer on titania bound then bisphosphonate directly with high affinity. The drug release kinetics was determined in vitro by 14C marked alendronate that was quantified with scintillation techniques. The screws were inserted in the metaphysis of rat tibia and the mechanical fixation monitored by screw pullout measurements after 2 or 4 weeks of implantation. In order to compare two different osteoporosis drugs, bisphosphonate and strontium ranelate, stainless steel and PMMA screws were inserted in the tibial metaphysis of rat for 4 and 8 weeks. Bisphosphonate was then delivered subcutaneously and strontium ranelate orally during the whole implantation period. The mechanical fixation was analysed by pullout force measurements, and bone architecture studied by micro-computed tomography (μCT). The immune complement activation on sol-gel- and smooth titanium surfaces was analysed in human blood plasma before and after annealing of titanium at 100-500ºC or upon UVO-treatment for up to 96 hours.Results: Bisphosphonate coated screws enhanced the screw pull out force after 2 weeks of implantation by more than 30% (fibrinogen coating) and by 93% after 4 weeks (sol-gel derived TiO2 coating). Systemically administered bisphosphonate enhanced the mechanical screw fixation after 4 weeks by more than 96% and after 8 weeks by more than 55% as compared to strontium ranelate treated animals (p = 0.00). Strontium ranelate treatment did not show significant improvement of screw pullout force after 4 and 8 weeks, compared to control. The immune complement surface deposition from blood plasma vanished irreversibly after Ti heat treatment at 250-300 ºC during 30 minutes or after UVO exposure for 24 hours or longer. Tentatively, changes in surface water/hydroxyl binding upon heat- and UVO treatments were observed by XPS and infrared spectroscopy.Conclusions: The results show that fixation at short implantation time (weeks) of orthopaedic implant can be enhanced by immobilised bisphosphonate on stainless steel or titanium implants. Systemic delivery of strontium ranelate showed no significant effect on implant fixation in rat tibia, and we hypothesise therefore that strontium ranelate will not become a power tool to increase the early implant fixation, but may be beneficial at longer times. Heat annealing or UVO-treatment of titanium surfaces change the surface hydroxylation, leading to decreased immune complement deposition from blood plasma.
  • Linderbäck, Paula, et al. (författare)
  • Sol-gel derived titania coating with immobilized bisphosphonate enhances screw fixation in rat tibia.
  • 2010
  • Ingår i: Journal of biomedical materials research. Part A. - 1552-4965. ; 94:2, s. 389-95
  • Tidskriftsartikel (refereegranskat)abstract
    • A variety of surface modifications have been tested for the enhancement of screw fixation in bone, and locally delivered anti-osteoporosis drugs such as bisphosphonates (BP) are then of interest. In this in vivo study, the impact of surface immobilized BP was compared with systemic BP delivery and screws with no BP. After due in vitro characterization, differently treated stainless steel (SS) screws were divided into four groups with 10 rats each. Three of the groups received screws coated with sol gel derived TiO2 and calcium phosphate (SS+TiO2+CaP). One of these had no further treatment, one had alendronate (BP) adsorbed to calcium phosphate mineral, and one received systemic BP treatment. The fourth group received uncoated SS screws and no BP (control). The screw pullout force was measured after 4 weeks of implantation in rat tibiae. The immobilized amount and release rate of alendronate could be controlled by different immersion times. The SS+TiO2+CaP coating did not increase the pullout force compared to SS alone. Surface delivered alendronate enhanced the pullout force by 93% [p = 0.000; 95% Confidence Interval (CI): 67-118%] compared to SS, and by 39% (p = 0.044; 95% CI: 7-71%) compared to systemic alendronate delivery. Both surface immobilized and systemically delivered alendronate improved implant fixation. Also, locally delivered, that is, surface immobilized alendronate showed a better fixation than systemically delivered. Using sot gel derived TiO2 as a platform, it is possible to administer controllable amounts of a variety of BPs.
  • Linderbäck, Paula, et al. (författare)
  • Weak effect of strontium on early implant fixation in rat tibia
  • 2012
  • Ingår i: Bone. - Elsevier. - 8756-3282. ; 50:1, s. 350-356
  • Tidskriftsartikel (refereegranskat)abstract
    • Strontium ranelate increases bone mass and is used in the treatment of osteoporosis. Its effects in metaphyseal bone repair are largely unknown. We inserted a stainless steel and a PMMA screw into each tibia of male Sprague-Dawley rats. The animals were fed with ordinary feed (n =40) or with addition of strontium ranelate (800mg/kg/day; n = 20). As a positive control, half of the animals on control feed received alendronate subcutaneously. The pullout force of the stainless steel screws was measured after 4 and 8 weeks, and μCT was used to assess bone formation around the PMMA screws. No significant effects of strontium treatment on pullout force were observed, but animals treated with bisphosphonate showed a doubled pullout force. Strontium improved the microarchitecture of the cancellous bone below the primary spongiosa at the growth plate, but no significant effects were found around the implants. Strontium is known to improve bone density, but it appears that this effect is weak in conjunction with metaphyseal bone repair and early implant fixation.
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