ABSTRACT
LARRY L. HENCH {X\ IONNIS D. XYNOS 2 and JULIA M. POLAK2 1 Department of Materials, Imperial College London, Prince Consort Road, London, SW7 2BP, UK
2 Tissue Engineering and Regenerative Medicine Centre, Imperial College London, Prince Consort Road, London, SW7 2BP, UK
Received 3 October 2003; accepted 9 December 2003
Abstract-Historically the function of biomaterials has been to replace diseased or damaged tissues. Recent findings show that controlled release of the ionic dissolution products of bioactive glasses results in regeneration of tissues. The mechanism for in situ tissue regeneration involves upregulation of seven families of genes that control the osteoblast cell cycle, mitosis and differentiation. In the presence of critical concentrations of Si and Ca ions, within 48 h osteoblasts that are capable of differentiating into a mature osteocyte phenotype begin to proliferate and regenerate new bone. Osteoblasts that are not in the correct phase of the cell cycle and unable to proceed towards differentiation are switched into apoptosis by the ionic dissolution products. A controlled release of soluble Ca and Si from bioactive glass — resorbable polymer composites leads to vascularised soft tissue regeneration. Gene activation by controlled ion release provides the conceptual basis for molecular design of a third generation of biomaterials optimised for in situ tissue regeneration.
