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Innovative Biomaterials for Bone Tumor Treatment and Regeneration: Tackling Postoperative Challenges and Charting the Path Forward. | LitMetric

AI Article Synopsis

  • Surgical resection of bone tumors is the main treatment for bone cancer, but there are risks like recurrence and infection that can affect patient outcomes.
  • Recent advancements in biomaterials have introduced new strategies for treating bone tumors and aiding bone healing, through the use of innovative composite materials that respond to various stimuli.
  • This report reviews the development of these therapeutic biomaterials, their potential applications in treating conditions like osteosarcoma, and addresses safety concerns and future challenges in the field.

Article Abstract

Surgical resection of bone tumors is the primary approach employed in the treatment of bone cancer. Simultaneously, perioperative interventions, particularly postoperative adjuvant anticancer strategies, play a crucial role in achieving satisfactory therapeutic outcomes. However, the occurrence of postoperative bone tumor recurrence, metastasis, extensive bone defects, and infection are significant risks that can result in unfavorable prognoses or even treatment failure. In recent years, there has been significant progress in the development of biomaterials, leading to the emergence of new treatment options for bone tumor therapy and bone regeneration. This progress report aims to comprehensively analyze the strategic development of unique therapeutic biomaterials with inherent healing properties and bioactive capabilities for bone tissue regeneration. These composite biomaterials, classified into metallic, inorganic non-metallic, and organic types, are thoroughly investigated for their responses to external stimuli such as light or magnetic fields, internal interventions including chemotherapy or catalytic therapy, and combination therapy, as well as their role in bone regeneration. Additionally, an overview of self-healing materials for osteogenesis is provided and their potential applications in combating osteosarcoma and promoting bone formation are explored. Furthermore, the safety concerns of integrated materials and current limitations are addressed, while also discussing the challenges and future prospects.

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Source
http://dx.doi.org/10.1002/adhm.202304060DOI Listing

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