https://doi.org/10.4081/ejh.2017.2673

The biocompatibility of bone cements: progress in methodological approach

Vol. 61 No. 2 (2017)
Submitted: 28 April 2016
Accepted: 7 March 2017
Published: 4 May 2017
Key words, Plymethylmetacrilate, calcium phosphate cement, osteointegration, biocompatibility, Environmental Scanning Electron Microscopy.
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Authors

Carlo Dall'Oca
University of Verona, Italy.
Tommaso Maluta
University of Verona, Italy.
Gian Mario Micheloni
University of Verona, Italy.
Matteo Cengarle
University of Verona, Italy.
Giampaolo Morbioli
University of Verona, Italy.
Paolo Bernardi
University of Verona, Italy.
Andrea Sbarbati
Verona University of Verona, Italy.
Daniele Degl'Innocenti
d.d.i@libero.it
University of Verona, Italy.
Franco Lavini
University of Verona, Italy.
Bruno Magnan
University of Verona, Italy.

The ideal bone graft substitute should have certain properties and there are many studies dealing with mixture of polymethylmetacrilate (PMMA) and β-tricalciumphospate (β-TCP) presenting the best characteristics of both. Scanning Electron Microscopy (SEM), for ultra-structural data, resulted a very reliable in vivo model to better understand the bioactivity of a cement and to properly evaluate its suitability for a particular purpose. The present study aims to further improve the knowledge on osteointegration development, using both parameters obtained with the Environmental Scanning Electron Microscopy (ESEM) and focused histological examination. Two hybrid bone graft substitute were designed among ceramic and polymer-based bone graft substitutes. Based on β-TCP granules sizes, they were created with theoretical different osteoconductive properties. An acrylic standard cement was chosen as control. Cements were implanted in twelve New Zealand White (NZW) rabbits, which were sacrificed at 1, 2, 3, 6, 9 and 12 months after cement implantation. Histological samples were prepared with an infiltration process of LR white resin and then specimens were studied by X-rays, histology and Environmental Scanning Electron Microscopy (ESEM). Comparing the resulting data, it was possible to follow osteointegration’s various developments resulting from different sizes of β-TCP granules. In this paper, we show that this evaluation process, together with ESEM, provides further important information that allows to follow any osteointegration at every stage of develop.

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Carlo Dall'Oca, University of Verona

Department of Surgical, Dentistry and Maternal-Infantile Sciences. Operating Unit of orthopedics. Researcher.

Tommaso Maluta, University of Verona
Operating Complex Unit of Orthopedics and Traumatology B, Manager.
Gian Mario Micheloni, University of Verona
Department of Surgical, Dentistry and Maternal-Infantile Sciences. Operating Unit of orthopedics. Trainee.
Giampaolo Morbioli, University of Verona
CIRSAL - Centro Interdipartimentale per la Ricerca Scientifica su Animali da Laboratorio (Interdepartmental Center of Scientific Research on Laboratory Animals),
Paolo Bernardi, University of Verona
Department of Neuroscience, Biomedicine and Movement. Human Anatomy and Histology Section. Technical-administrative staff
Andrea Sbarbati, Verona University of Verona
Department of Neuroscience, Biomedicine and Movement. Human Anatomy and Histology Section. Professor. Director.
Daniele Degl'Innocenti, University of Verona
Department of Neuroscience, Biomedicine and Movement. Human Anatomy and Histology Section. Grantholder researcher
Franco Lavini, University of Verona
Department of Surgical, Dentistry and Maternal-Infantile Sciences. Operating Unit of orthopedics. Trainee.
Bruno Magnan, University of Verona
Department of Surgical, Dentistry and Maternal-Infantile Sciences. Operating Unit of orthopedics. Associate professor. Director

How to Cite

Dall’Oca, C., Maluta, T., Micheloni, G. M., Cengarle, M., Morbioli, G., Bernardi, P., … Magnan, B. (2017). The biocompatibility of bone cements: progress in methodological approach. European Journal of Histochemistry, 61(2). https://doi.org/10.4081/ejh.2017.2673

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