Abstract

In vivo experiments are accompanied by ethical issues, including sacrificing a large number of animals as well as large costs. A new in vivo 3D screening system was developed to reduce the number of required animals without compromising the results. The present pilot study examined a multiwell array system in combination with three different collagen-based biomaterials (A, B and C) using subcutaneous implantation for 10 days and histological and histomorphometrical evaluations. The tissue reaction towards the device itself was dominated by mononuclear cells. However, three independent biomaterial-specific tissue reactions were observed in three chambers. The results showed a mononuclear cell-based tissue reaction in one chamber (A) and foreign body reaction by multinucleated giant cells in the other two chambers (B and C). Statistical analysis showed a significantly higher number of multinucleated giant cells in cases B and C than in case A (A vs. B; ***P < 0.001), (A vs. C; P < 0.01). These outcomes were comparable to previously published observations with conventional biomaterial implantation. The present data lead to the conclusion that this 3D screening system could be an alternative tool to enhance the effectiveness of in vivo experiments, thus offering a more economic strategy to screen biomaterial-related cellular reactions, while saving animals, without influencing the final outcome.

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