Mesoporous Bioactive Glasses: A Review on Structure-Directing-Based Synthesis, Characterization, and Biomedical Applications
Adriana Vulpoi, Ioan Botiz

TL;DR
Mesoporous bioactive glasses are advanced materials with unique properties that enhance drug delivery and tissue regeneration for various biomedical uses.
Contribution
This review highlights the role of structure-directing agents in MBG synthesis and their impact on biomedical performance.
Findings
MBGs have high surface areas and uniform pores that improve drug-loading and ion release.
Therapeutic ion doping enhances functionalities like osteogenic and antibacterial properties.
MBGs show versatility in applications such as bone tissue engineering and drug delivery.
Abstract
Mesoporous bioactive glasses (MBGs) represent a significant advancement in bioactive glass technology, combining the well-established osteoconductive and osteoinductive properties of traditional bioactive glasses with the structural precision provided by highly ordered mesoporosity. Their characteristic architecture, defined by uniform pores typically ranging from a few to several tens of nanometers and exceptionally high surface areas reaching several hundred m2/g, enables enhanced drug-loading capacity, controlled therapeutic ion release, and accelerated tissue regeneration. In this work, we emphasize how the synthesis of these materials is predominantly governed by structure-directing agents, which critically influence the pore size, mesophase ordering, surface area, and structural stability. Additionally, we discuss how compositional tailoring, particularly through therapeutic ion…
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Taxonomy
TopicsBone Tissue Engineering Materials · Mesoporous Materials and Catalysis · Aerogels and thermal insulation
