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  2. Porous Titanium Scaffolds with Mechanoelectrical Conversion and Photothermal Function: A Win-Win Strategy for Bone Reconstruction of Tumor-Resected Defects

Porous Titanium Scaffolds with Mechanoelectrical Conversion and Photothermal Function: A Win-Win Strategy for Bone Reconstruction of Tumor-Resected Defects

  • Adv Healthc Mater. 2023 Dec 15:e2302901. doi: 10.1002/adhm.202302901.
Zhen Tang 1 Dongmei Yu 1 Shusen Bao 1 Chenyu Li 1 Hao Wu 1 Hui Dong 1 Ning Wang 1 Yichao Liu 1 Qi Wu 1 Changcheng Chen 1 Mo Wang 1 Pengfei Cao 1 Zenghui Zheng 1 Hai Huang 1 Xiaokang Li 1 Zheng Guo 1
Affiliations

Affiliation

  • 1 Department of Orthopaedics, Tangdu Hospital, Fourth Military Medical University, Xi'an, 710038, China.
Abstract

Bone metastases severely threaten the lives of patients. Although surgical treatment combined with Adjuvant chemotherapy significantly improves the survival rate of patients, tumor recurrence, or metastasis after surgical resection and bone defects caused by surgical treatment remain major challenges for clinicians. Given the abovementioned clinical requirements, barium titanate-containing iron-coated porous titanium alloy scaffolds have been proposed to promote bone defect repair and inhibit tumor recurrence. Fortunately, in vitro and in vivo experimental research confirms that barium titanate containing iron-coated porous titanium alloy scaffolds promote osteogenesis and bone reconstruction in defect repair via mechanoelectric conversion and inhibit tumor recurrence via photothermal effects. Furthermore, the underlying and intricate mechanisms of bone defect repair and tumor recurrence prevention of barium titanate-containing iron-coated porous titanium alloy scaffolds are explored. A win-win strategy for mechanoelectrical conversion and photothermal functionalization provides promising insights into bone reconstruction of tumor-resected defects.

Keywords

bone defect repair; mechanoelectrical conversion; photothermal effect; porous titanium alloy scaffolds; tumor prevention.

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