Haijiao Mao scite author profile

Osteosarcoma, with poor survival after metastasis, is considered the most common primary bone cancer in adolescents. Notwithstanding the efforts of researchers, its five-year survival rate has only shown limited improvement, suggesting that existing therapeutic strategies are insufficient to meet clinical needs. Notably, immunotherapy has shown certain advantages over traditional tumor treatments in inhibiting metastasis. Therefore, managing the immune microenvironment in osteosarcoma can provide novel and valuable insight into the multifaceted mechanisms underlying the heterogeneity and progression of the disease. Additionally, given the advances in nanomedicine, there exist many advanced nanoplatforms for enhanced osteosarcoma immunotherapy with satisfactory physiochemical characteristics. Here, we review the classification, characteristics, and functions of the key components of the immune microenvironment in osteosarcoma. This review also emphasizes the application, progress, and prospects of osteosarcoma immunotherapy and discusses several nanomedicine-based options to enhance the efficiency of osteosarcoma treatment. Furthermore, we examine the disadvantages of standard treatments and present future perspectives for osteosarcoma immunotherapy.

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Osteoblast/fibroblast coculture derived bioactive ECM with unique matrisome profile facilitates bone regeneration

Mei

Zhang

et al. 2020

Bioactive Materials

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Engineering the viscoelasticity of gelatin methacryloyl (GelMA) hydrogels via small “dynamic bridges” to regulate BMSC behaviors for osteochondral regeneration

Liu

Yuan

et al. 2023

Bioactive Materials

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Fucoidan-loaded nanofibrous scaffolds promote annulus fibrosus repair by ameliorating the inflammatory and oxidative microenvironments in degenerative intervertebral discs

Han

Yuan

et al. 2022

Acta Biomaterialia

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Multifunctional Nanofibrous Scaffolds with Angle‐Ply Microstructure and Co‐Delivery Capacity Promote Partial Repair and Total Replacement of Intervertebral Disc

Chu

Zhu

et al. 2022

Adv Healthcare Materials

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There is an urgent clinical need for the treatment of annulus fibrosus (AF) impairment caused by intervertebral disc (IVD) degeneration or surgical injury. Although repairing injured AF through tissue engineering is promising, the approach is limited by the complicated angle-ply microstructure, inflammatory microenvironment, poor self-repairing ability of AF cells and deficient matrix production. In this study, electrospinning technology is used to construct aligned core-shell nanofibrous scaffolds loaded with transforming growth factor-𝜷3 (TGF𝜷3) and ibuprofen (IBU), respectively. The results confirm that the rapid IBU release improves the inflammatory microenvironment, while sustained TGF𝜷3 release enhances nascent extracellular matrix (ECM) formation. Biomaterials for clinical applications must repair local AF defects during herniectomy and enable AF regeneration during disc replacement, so a box defect model and total IVD replacement model in rat tail are constructed. The dual-drug delivering electrospun scaffolds are assembled into angle-ply structure to form a highly biomimetic AF that is implanted into the box defect or used to replace the disc. In two animal models, it is found that biomimetic scaffolds with good anti-inflammatory ability enhance ECM formation and maintain the mechanical properties of IVD. Findings from this study demonstrate that the multifunctional nanofibrous scaffolds provide inspirations for IVD repair.

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Definition of a safe zone for screw fixation of posterior talar process fracture by 3-dimensional technology

Mao

Wang

et al. 2018

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Background:Percutaneous screw fixation can provide stable fixation with a minimally invasive surgical technique for posterior talar process fracture.Objectives:The purpose of this study was to investigate the optimal posterior screw placement and the geometry of safe zone for screw insertion in the posterior talar process by analyzing with 3-dimensional (3D) technology.Methods:100 adult feet computed tomography (CT) scans were evaluated. CT data were imported into Materiaise's interactive medical image control system (MIMICS) 18.01 software for 3-dimensional reconstruction. Two 3.0mm-diameter screws were simulated from the posterior to anterior position for posterior talar process. The morphology parameters of posterior talar process were also quantitatively measured. The safe zone and the length and entry point of screw were defined.Results:The optimal entry point of screw for posterior talar process fracture was lateral tubercle from the posterior to anterior position. The safe zone of medial tubercle entry point was smaller in lateral tubercle. These gender-specific measurements were all significant (P <.001).Conclusions:The predefined zone with computer-assisted 3D techniques for the most frequently positioned percutaneous screws may aid in preoperative planning, shorten the operation time and reduce the incidence of surgical complications.

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Minimally invasive technique for medial subtalar dislocation associated with navicular and entire posterior talar process fracture: A case report

Mao

Shi

Liu

et al. 2015

Injury

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Haijiao Mao

Anatomical study for flexor hallucis longus tendon transfer in treatment of Achilles tendinopathy

Managing the immune microenvironment of osteosarcoma: the outlook for osteosarcoma treatment

Osteoblast/fibroblast coculture derived bioactive ECM with unique matrisome profile facilitates bone regeneration

Engineering the viscoelasticity of gelatin methacryloyl (GelMA) hydrogels via small “dynamic bridges” to regulate BMSC behaviors for osteochondral regeneration

Fucoidan-loaded nanofibrous scaffolds promote annulus fibrosus repair by ameliorating the inflammatory and oxidative microenvironments in degenerative intervertebral discs

Multifunctional Nanofibrous Scaffolds with Angle‐Ply Microstructure and Co‐Delivery Capacity Promote Partial Repair and Total Replacement of Intervertebral Disc

Definition of a safe zone for screw fixation of posterior talar process fracture by 3-dimensional technology

Minimally invasive technique for medial subtalar dislocation associated with navicular and entire posterior talar process fracture: A case report

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