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izvor podataka: crosbi

The effect of xenogeneic bone substitute temperature treatment on the tissue response – a mini review (CROSBI ID 256197)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Barbeck, Mike ; Perić Kačarević, Željka ; Kavehei, Faraz ; Rider, Patrick ; Najman, Stevo ; Stojanovic, Sanja ; Rimashevskiy, Denis ; Wenisch, Sabina ; Schnettler, Reinhard The effect of xenogeneic bone substitute temperature treatment on the tissue response – a mini review // Acta medica Medianae, 58 (2018), 4; 1-25. doi: 10.5633/amm.2019.0118

Podaci o odgovornosti

Barbeck, Mike ; Perić Kačarević, Željka ; Kavehei, Faraz ; Rider, Patrick ; Najman, Stevo ; Stojanovic, Sanja ; Rimashevskiy, Denis ; Wenisch, Sabina ; Schnettler, Reinhard

engleski

The effect of xenogeneic bone substitute temperature treatment on the tissue response – a mini review

In general, it has been revealed that bone substitute material interaction with the host immune system is dependent upon their physico- chemical properties. In the case of xenografts, different purification methods are applied to process the precursor tissue. One purification method that differs the most is the applied temperature. Materials treated with low and high temperatures are available. In this context, the question remains as to the influence of the different temperature treatments on the physical and chemical material properties and, thus, on the tissue reactions during the healing processes. It has been hypothesized that materials that induce mononuclear cells induce physiological healing processes, while a pathological reaction is accompanied with the induction of multinucleated giant cells (MNGCs). In this mini-review, the focus is on the comparison of preclinical research into tissue reactions to sintered and non-sintered bovine-derived xenograft. Interpretation of this data showed that an induction of higher numbers of MNGCs by sintered xenograft, also induced a higher implant bed vascularization. Finally, the higher number of MNGCs and increased vascularization presumably resulted in a higher expression of anti-inflammatory molecules that may support the process of bone remodeling.

bone substitute ; xenograft ; multinucleated giant cells ; implant bed vascularization ; inflammation

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Podaci o izdanju

58 (4)

2018.

1-25

objavljeno

0365-4478

1821-2794

10.5633/amm.2019.0118

Povezanost rada

Dentalna medicina

Poveznice