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Containerless-Processing Bioactive Glass for Tissue Regeneration and Disease Therapy

  • 0State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Sciences, 1295 Dingxi Road, Shanghai, 200050, P. R. China.
Advanced Healthcare Materials +

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August 16, 2025

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August 16, 2025

View abstract on PubMed

Summary

This summary is machine-generated.

Containerless processing offers a novel method for preparing bioactive glass (BG) for tissue repair, overcoming limitations of traditional techniques. This approach enables precise functional design and overcomes challenges in compositional control and structural uniformity.

Area Of Science

  • Biomaterials Science
  • Materials Engineering
  • Biomedical Engineering

Background

  • Bioactive glass (BG) is crucial for tissue repair due to its bioactivity and tunable properties.
  • Conventional BG preparation methods face challenges in compositional design, contamination, and structural uniformity, limiting precise functionalization.
  • Containerless processing presents a promising alternative for innovative BG preparation.

Purpose Of The Study

  • To systematically review the limitations of traditional bioactive glass preparation techniques.
  • To introduce the principles and advantages of containerless processing for bioactive glass.
  • To present design strategies and applications of containerless-processing bioactive glass (CPBG).

Main Methods

  • Systematic summarization of traditional bioactive glass preparation bottlenecks.
  • Introduction to the core principles of containerless technology.
  • Review of design strategies and application directions for CPBG.

Main Results

  • Identified key limitations in conventional bioactive glass synthesis.
  • Highlighted the advantages of containerless processing for composition and function design.
  • Presented design strategies for CPBG in three application areas.

Conclusions

  • Containerless processing provides a novel pathway for advanced bioactive glass preparation.
  • Research on containerless-processing bioactive glass (CPBG) is in its early stages but shows significant potential.
  • This review bridges the gap between advanced glass technology and biomedical applications.

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