Abstract
Large bone defects are a medical concern as these are often unable to heal spontaneously, based on the host bone repair mechanisms. In their treatment, bone tissue engineering techniques represent a promising approach by providing a guide for osseous regeneration. As bioactive glasses proved to have osteoconductive and osteoinductive properties, the aim of our study was to evaluate by histologic examination, the differences in the healing of critical-sized calvarial bone defects filled with bioactive glass combined with adipose-derived mesenchymal stem cells, compared to negative controls. We used 16 male Wistar rats subjected to a specific protocol based on which 2 calvarial bone defects were created in each animal, one was filled with Bon Alive S53P4 bioactive glass and adipose-derived stem cells and the other one was considered control. At intervals of one week during the following month, the animals were euthanized and the specimens from bone defects were histologically examined and compared. The results showed that this biomaterial was biocompatible and the first signs of osseous healing appeared in the third week. Bone Alive S53P4 bioactive glass could be an excellent bone substitute, reducing the need of bone grafts.
Highlights
Large bone defects are a medical concern as these are often unable to heal spontaneously, based on the host bone repair mechanisms
Bone regeneration is required in large quantities which exceed the potential of self-healing, such as large bone defects created by trauma, skeletal abnormalities, infection or tumors [5, 32-35]
The main objective of this study was to examine, by using an experimental animal model, the differences in the healing of critical-sized calvarial bone defects using bioactive glass combined with adipose-derived mesenchymal stem cells with natural healing of similar bone lesions
Summary
Large bone defects are a medical concern as these are often unable to heal spontaneously, based on the host bone repair mechanisms. In their treatment, bone tissue engineering techniques represent a promising approach by providing a guide for osseous regeneration. Despite the high innate regenerative capacity of bone, large osseous defects fail to heal and remain a clinical challenge, requiring surgical interventions. The main objective of this study was to examine, by using an experimental animal model, the differences in the healing of critical-sized calvarial bone defects using bioactive glass combined with adipose-derived mesenchymal stem cells with natural healing of similar bone lesions. We intended to compare through histologic methods the cell dynamics and regenerative processes
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