In recent years, bioactive ceramic bone scaffolds have drawn remarkable attention as an alternative method for treating and repairing bone defects. Vat photopolymerization (VP) is a promising additive manufacturing (AM) technique that enables the efficient and accurate fabrication of bioactive ceramic bone scaffolds. This review systematically reviews the research progress of VP-printed bioactive ceramic bone scaffolds. First, a summary and comparison of commonly used bioactive ceramics and different VP techniques are provided. This is followed by a detailed introduction to the preparation of ceramic suspensions and optimization of printing and heat treatment processes. The mechanical strength and biological performance of the VP-printed bioactive ceramic scaffolds are then discussed. Finally, current challenges and future research directions in this field are highlighted.
Keywords: bioactive ceramic; bone scaffold; ceramic suspension; process optimization; vat photopolymerization.