Mild Thermotherapy‐Assisted GelMA/HA/MPDA@Roxadustat 3D‐Printed Scaffolds with Combined Angiogenesis‐Osteogenesis Functions for Bone Regeneration

You, Jiaqian; Li, Yangyang; Wang, Chong; Lv, Huixin; Zhai, Shaobo; Liu, Manxuan; Liu, Xiuyu; Sezhen, Quni; zhang, Lu; Zhang, Yidi; Zhou, Yanmin

doi:10.1002/adhm.202400545

Adv Healthcare Materials

2024

DOI: 10.1002/adhm.202400545

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Mild Thermotherapy‐Assisted GelMA/HA/MPDA@Roxadustat 3D‐Printed Scaffolds with Combined Angiogenesis‐Osteogenesis Functions for Bone Regeneration

Jiaqian You,

Yangyang Li,

Chong Wang

et al.

Abstract: Early reconstruction of the vascular network is a prerequisite to the effective treatment of substantial bone defects. Traditional 3D printed tissue engineering scaffolds designed to repair large bone defects do not effectively regenerate the vascular network, and rely only on the porous structure within the scaffold for nutrient transfer and metabolic waste removal. This leads to delayed bone restoration and hence functional recovery. Therefore, strategies for generation scaffolds with the capacity to efficie… Show more

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Cited by 4 publications

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Mild Hyperthermia Accelerates Bone Repair by Dynamically Regulating iNOS/Arg1 Balance in the Early Stage

Zhao,

Luo,

Zhang

et al. 2024

Advanced Science

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Mild hyperthermia therapy has garnered interest as an adjunctive treatment for bone repair. However, its optimal timing, duration, and underlying mechanisms remain unclear. In this study, how mild hyperthermia supports bone repair during the early stages is assesed. These findings reveal that mild hyperthermia accelerates bone regeneration by dynamically regulating inducible nitric oxide synthase/arginase 1 (iNOS/Arg1) balance. This process involves macrophage polarization to the M1 phenotype through iNOS activation, followed by a rapid transition to the M2 phenotype through Arg1 activation after 3 days of sustained mild hyperthermia. RNA‐Seq reveals that a single day of mild hyperthermia induced immune alterations aligned with the early inflammatory phase of bone repair, characterized by osteoclast activation, cell recruitment, and neovascularization, thereby preparing for the transition to the repair phase. Experiments involving subcutaneous abscesses, subcutaneous embedding, and critical cranial bone defects further confirm that early mild hyperthermia treatment dynamically regulates macrophage phenotypes. This regulation enhances early antibacterial activity, promotes angiogenesis, and facilitates the transition from inflammation to repair, ultimately accelerating bone‐defect repair. This study is the first to elucidate the dual temporal effects of early mild hyperthermia on immune regulation, offering insights into the optimal timing and duration of photothermal therapy following bone repair surgery.

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Mild Hyperthermia Accelerates Bone Repair by Dynamically Regulating iNOS/Arg1 Balance in the Early Stage

Zhao,

Luo,

Zhang

et al. 2024

Advanced Science

View full text Add to dashboard Cite

show abstract

Multifunctional neuroimmunoregulatory nanoenzyme-enhanced hydrogel promotes bone regeneration by improving bone healing microenvironment

Li,

Long,

Wang

et al. 2025

Chemical Engineering Journal

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Exploring the frontiers: The potential and challenges of bioactive scaffolds in osteosarcoma treatment and bone regeneration

Zhang,

Wang,

Qiang

et al. 2024

Materials Today Bio

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Mild Thermotherapy‐Assisted GelMA/HA/MPDA@Roxadustat 3D‐Printed Scaffolds with Combined Angiogenesis‐Osteogenesis Functions for Bone Regeneration

Cited by 4 publications

References 57 publications

Mild Hyperthermia Accelerates Bone Repair by Dynamically Regulating iNOS/Arg1 Balance in the Early Stage

Mild Hyperthermia Accelerates Bone Repair by Dynamically Regulating iNOS/Arg1 Balance in the Early Stage

Multifunctional neuroimmunoregulatory nanoenzyme-enhanced hydrogel promotes bone regeneration by improving bone healing microenvironment

Exploring the frontiers: The potential and challenges of bioactive scaffolds in osteosarcoma treatment and bone regeneration

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