Injectable, pro-osteogenic and antioxidant composite microspheres composed of cerium-containing mesoporous bioactive glass and chitosan for bone regeneration applications

[1]  Tao Jiang,et al.  Accelerated Bone Regeneration by an Astaxanthin-Modified Antioxidant Aerogel through Relieving Oxidative Stress via the NRF2 Signaling Pathway. , 2022, ACS biomaterials science & engineering.

[2]  Shengke Li,et al.  A Self-Healing, Magnetic and Injectable Biopolymer Hydrogel Generated by Dual Cross-Linking for Drug Delivery and Bone Repair. , 2022, Acta biomaterialia.

[3]  Zhen Yang,et al.  Self-Adhesive Hydrogel Biomimetic Periosteum to Promote Critical-Size Bone Defect Repair via Synergistic Osteogenesis and Angiogenesis. , 2022, ACS applied materials & interfaces.

[4]  Shengke Li,et al.  Covalent and Biodegradable Chitosan-Cellulose Hydrogel Dressing Containing Microspheres for Drug Delivery and Wound Healing , 2022, Materials Today Communications.

[5]  Ming Li,et al.  Single-component hyaluronic acid hydrogel adhesive based on phenylboronic ester bonds for hemostasis and wound closure. , 2022, Carbohydrate polymers.

[6]  Daidi Fan,et al.  Ce and Se co-doped MBG/SA/HLC microgel bone powder for repairing tumor bone defects , 2022, Nano Research.

[7]  Rui Wang,et al.  PgC3Mg metal-organic cages functionalized hydrogels with enhanced bioactive and ROS scavenging capabilities for accelerated bone regeneration. , 2022, Journal of materials chemistry. B.

[8]  A. Zambon,et al.  Loading with Biomolecules Modulates the Antioxidant Activity of Cerium-Doped Bioactive Glasses , 2022, ACS biomaterials science & engineering.

[9]  Guiting Liu,et al.  A novel hydrogel with glucose-responsive hyperglycemia regulation and antioxidant activity for enhanced diabetic wound repair , 2022, Nano Research.

[10]  Pengpeng Deng,et al.  Novel multifunctional dual-dynamic-bonds crosslinked hydrogels for multi-strategy therapy of MRSA-infected wounds , 2022, Applied Materials Today.

[11]  Jiahui He,et al.  A conductive photothermal non-swelling nanocomposite hydrogel patch accelerating bone defect repair. , 2022, Biomaterials science.

[12]  Zhuang Liu,et al.  Targeting Endogenous Hydrogen Peroxide at Bone Defects Promotes Bone Repair , 2021, Advanced Functional Materials.

[13]  X. Cui,et al.  Childhood Cartilage ECM Enhances the Chondrogenesis of Endogenous Cells and Subchondral Bone Repair of the Unidirectional Collagen-dECM Scaffolds in Combination with Microfracture. , 2021, ACS applied materials & interfaces.

[14]  Xiguang Chen,et al.  Collagen-based biocomposites inspired by bone hierarchical structures for advanced bone regeneration: ongoing research and perspectives. , 2021, Biomaterials science.

[15]  P. Gentile,et al.  Insights into oxidative stress in bone tissue and novel challenges for biomaterials. , 2021, Materials science & engineering. C, Materials for biological applications.

[16]  Chengtie Wu,et al.  An ultralong hydroxyapatite nanowire aerogel for rapid hemostasis and wound healing , 2021, Chemical Engineering Journal.

[17]  Hailing Li,et al.  Poly(tannic acid) nanocoating based surface modification for construction of multifunctional composite CeO2NZs to enhance cell proliferation and antioxidative viability of preosteoblasts. , 2021, Nanoscale.

[18]  A. Zambon,et al.  Cerium Containing Bioactive Glasses: A Review , 2021, ACS biomaterials science & engineering.

[19]  J. Tao,et al.  Dopamine-Substituted Multidomain Peptide Hydrogel with Inherent Antimicrobial Activity and Antioxidant Capability for Infected Wound Healing. , 2021, ACS applied materials & interfaces.

[20]  Bo Zhou,et al.  Inhibition of ROS activity by controlled release of proanthocyanidins from mesoporous silica nanocomposites effectively ameliorates heterotopic tendon ossification , 2021 .

[21]  Andrés J. García,et al.  Macrophage phenotypes in tissue repair and the foreign body response: implications for biomaterial-based regenerative medicine strategies. , 2021, Acta biomaterialia.

[22]  V. Geoffroy,et al.  A partially demineralized allogeneic bone graft: in vitro osteogenic potential and preclinical evaluation in two different intramembranous bone healing models , 2021, Scientific Reports.

[23]  Wenqing Liang,et al.  In vivo behavior of bioactive glass-based composites in animal models for bone regeneration. , 2021, Biomaterials science.

[24]  H. Xiaowei,et al.  A bioinspired mineral-organic composite hydrogel as a self-healable and mechanically robust bone graft for promoting bone regeneration , 2020 .

[25]  Jiabing Fan,et al.  Inspired by Nature: Facile Design of Nanoclay–Organic Hydrogel Bone Sealant with Multifunctional Properties for Robust Bone Regeneration , 2020, Advanced functional materials.

[26]  D. Xiong,et al.  Doubly crosslinked biodegradable hydrogels based on gellan gum and chitosan for drug delivery and wound dressing. , 2020, International journal of biological macromolecules.

[27]  G. Malavasi,et al.  Composition and morphology effects on catalase mimetic activity of potential bioactive glasses , 2020 .

[28]  Kangwu Chen,et al.  Nano-Scaled Bionic Periosteum Orchestrating Osteogenic Microenvironment for Sequential Bone Regeneration. , 2020, ACS applied materials & interfaces.

[29]  R. Singh,et al.  Cerium oxide nanoparticles: properties, biosynthesis and biomedical application , 2020, RSC Advances.

[30]  Hepeng Zhang,et al.  Nanoenzyme-Reinforced Injectable Hydrogel for Healing Diabetic Wounds Infected with Multi-Drug Resistant Bacteria. , 2020, Nano letters.

[31]  Xue Tang,et al.  Evaluate the activity of sodium butyrate to prevent osteoporosis in rats by promoting osteal GSK-3β/Nrf2 signaling and mitochondrial function. , 2020, Journal of agricultural and food chemistry.

[32]  R. Sedghi,et al.  Electrospun triazole-based chitosan nanofibers as a novel scaffolds for bone tissue repair and regeneration. , 2020, Carbohydrate polymers.

[33]  Yanqiu Wang,et al.  Parathyroid hormone enhances the osteo/odontogenic differentiation of dental pulp stem cells via ERK and P38 MAPK pathways , 2020, Journal of cellular physiology.

[34]  A. Boccaccini,et al.  Antioxidant mesoporous Ce-doped bioactive glass nanoparticles with anti-inflammatory and pro-osteogenic activities , 2020, Materials today. Bio.

[35]  A. Boccaccini,et al.  Chitosan/hydroxyapatite composite bone tissue engineering scaffolds with dual and decoupled therapeutic ion delivery: copper and strontium. , 2019, Journal of materials chemistry. B.

[36]  Ming Yan,et al.  LncRNA H19 promotes the committed differentiation of stem cells from apical papilla via miR-141/SPAG9 pathway , 2019, Cell Death & Disease.

[37]  F. Starsich,et al.  Engineering the Bioactivity of Flame-Made Ceria and Ceria/Bioglass Hybrid Nanoparticles. , 2019, ACS applied materials & interfaces.

[38]  Jianping Zhou,et al.  Dual-sensitive chitosan derivative micelles for site-specific drug release in the treatment of chicken coccidiosis , 2018, RSC advances.

[39]  Xiguang Chen,et al.  Preparation of composite hydroxybutyl chitosan sponge and its role in promoting wound healing. , 2018, Carbohydrate polymers.

[40]  Lijing Niu,et al.  pH and Glucose Dual-Responsive Injectable Hydrogels with Insulin and Fibroblasts as Bioactive Dressings for Diabetic Wound Healing. , 2017, ACS applied materials & interfaces.

[41]  Liyang Shi,et al.  Self‐Healing Silk Fibroin‐Based Hydrogel for Bone Regeneration: Dynamic Metal‐Ligand Self‐Assembly Approach , 2017 .

[42]  Zhen Huang,et al.  A comparison study on non-isothermal decomposition kinetics of chitosan with different analysis methods , 2017, Journal of Thermal Analysis and Calorimetry.

[43]  Talita Martins,et al.  Novel 3D composites with highly flexible behavior based on chitosan and bioactive glass for biomedical applications , 2017 .

[44]  D. Kelly,et al.  Tissue engineering and regenerative approaches to improving the healing of large bone defects. , 2016, European cells & materials.

[45]  B. Nelson,et al.  Antioxidant Cerium Oxide Nanoparticles in Biology and Medicine , 2016, Antioxidants.

[46]  A. Papavassiliou,et al.  ROS/oxidative stress signaling in osteoarthritis. , 2016, Biochimica et biophysica acta.

[47]  Changqing Zhang,et al.  Bioactive Glass for Large Bone Repair , 2015, Advanced healthcare materials.

[48]  Hui Tan,et al.  pH and glucose dually responsive injectable hydrogel prepared by in situ crosslinking of phenylboronic modified chitosan and oxidized dextran , 2015 .

[49]  Q. Cai,et al.  Regenerating infected bone defects with osteocompatible microspheres possessing antibacterial activity. , 2018, Biomaterials science.

[50]  Dean P. Jones,et al.  Oxidative Stress. , 2017, Annual review of biochemistry.