Bioceramics and pharmaceuticals: A remarkable synergy

The research on controlled drug delivery systems using bioceramics as host matrices presents two distinct sides; one route aims at embedding pharmaceuticals in biomaterials designed for the reconstruction or regeneration of living tissues, in order to counteract inflammatory responses, infections, bone carcinomas and so forth, while the other route deals with the more traditional drug introduction systems, i.e. oral administration.The incorporation of pharmaceuticals to bioceramic matrices could be very interesting in clinical practice. It is rather common in these days for an orthopedic surgeon working in bone reconstruction to use bioceramics. An added value to the production of these ceramics would be the optional addition of pharmaceuticals such as antibiotics, anti-inflammatories, anti-carcinogens, etc. In this sense, if we take into account the infections statistics at hip joint prostheses, the incidence varies between 2 and 4%, reaching up to a 45% in bolts used as external fixation. One of the main problems in these situations is the access to the infected area of the bone, in order to deliver the adequate antibiotic. If the pharmaceutical could be included within the implant itself, the added value would be straightforward.And if the bioceramic is bioactive, and therefore precursor of new bone tissue, the capability to introduce peptides, proteins or growth factors at its pores could accelerate the bone regeneration processes. We are facing a fine example of multidisciplinary research, where the so-called transversal supply of knowledge from and between the domains of materials science, biology and medicine will empower the know-how and applications that shall, undoubtedly, give rise to new advances in science and technology.

Graphical abstractThe incorporation of pharmaceuticals to bioceramic matrices is receiving great interest in the field of biomedical science. Silica-based ordered mesoporous materials are excellent candidates to be used in tissue engineering nanotechnology, because they show the capability to perform as controlled delivery systems of a wide range of drugs and to promote bone tissue regeneration.Figure optionsDownload full-size imageDownload as PowerPoint slide