Yadav S.Yadav D.Kumar P.Yadav A.Nirala G.Yadav S.2025-01-132025-01-13202416121317https://dl.bhu.ac.in/ir/handle/123456789/2761The term �bioceramics� describes the ceramics utilized in the reconstruction and restoration of damaged or diseased musculoskeletal system parts. Based on their biological response, bioceramics can be divided into three categories: basically bioinert materials (like zirconia and alumina), bioactive materials (like HA and bioactive glasses), and biodegradable materials (like TCP). Bioactive ceramics, including calcium phosphates, glass�ceramics, and bioactive glasses, can encourage the formation of hydroxyapatite deposits that resemble bone at their surface and offer an interface that contributes to the functional durability of the tissue. An amorphous material with an arbitrary atom configuration is called bioactive glass. The majority of bioactive glasses are mostly composed of SiO2, Na2O, CaO, and P2O5. Fast bonding to bone occurred when the bioactive glass�s silica content was between 42 and 53%. For the production of silicate-, phosphate-, and borate-based bioactive glasses, several compositional modifications are made to the bioactive glasses. They have been employed, among other things, in dental root replacements, middle ear replacements, and bone scaffolds. Bioactive glasses have the ability to form a chemical link with living bone tissue, which is further enhanced by biological responses on the material�s surface. Due of its low mechanical qualities, bioglass cannot be used for large load-bearing applications. These are employed in situations where mechanical strength is not required and regeneration is essential. � The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.enApplicationBioceramicsBioglassCompositionSynthesisBook chapter10.1007/978-981-97-9018-0_12