Dual Ion Releasing Nanoparticles for Modulating Osteogenic Cellular Microenvironment of Human Mesenchymal Stem Cells

Kim, Yujin; Lee, Jaeyoung; Im, Gwang‐Bum; Song, Jihun; Song, Jiwoo; Chung, Ji-Young; Yu, Taekyung; Bhang, Suk Ho

doi:10.3390/ma14020412

Cited by 4 publications

(2 citation statements)

References 42 publications

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“…The application of zinc in bone through nanotechnology and the introduction of antibacterial materials have enhanced the antibacterial properties of hydroxyapatite nanoparticles and improved the proliferation capacity of bone marrow stem cells, displaying favorable characteristics for bone tissue engineering (Maleki-Ghaleh H, Siadati MH, Fallah A, et al, 2021). By developing dual-ion releasing nanoparticles containing zinc and iron, these nanoparticles can promote the differentiation of mesenchymal stem cells into osteogenic cells and induce blood vessel formation, exhibiting optimized properties for bone tissue engineering (Kim YJ, Lee J, Im GB, et al, 2021). Through controlled release mechanisms, these nanoparticles can modulate gene expression and secretion factors in stem cells, improve cellular activity, and enhance the osteogenic potential of stem cells, providing a promising platform for future biomedical applications.…”

Section: Zinc Nanoparticles and Bonementioning

confidence: 99%

Bibliometric Analysis of Zinc and Bone

Wan

Tang

Cao

et al. 2023

JIMR

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Background: Zinc plays a crucial role in bone health; however, there is a lack of bibliometric analysis on zinc and bone research. This study aims to fill this research gap by conducting a bibliometric analysis of the development and research focus of zinc and bone-related studies. Methods: We performed a search in the Web of Science Core Collection and selected relevant literature on zinc and bone. We then conducted statistical analysis and visualized the literature to reveal the development trends and key areas of zinc and bone research. Results: From the retrieved literature, we observed an increasing trend in zinc and bone-related research since the 1990s. China emerged as a core country in research related to zinc and bone, with Shanghai Jiao Tong University being the institution with the greatest influence in this field. Yamaguchi, M emerged as the author with the greatest influence in research related to zinc and bone. These studies mainly focused on the role of zinc in bone formation, bone density and quality, bone diseases, and bone tissue engineering. Conclusion: Research on zinc and bone is growing, and there is increasing interest in the role of zinc in bone health. Future research should focus on gaining a deeper understanding of the toxicity and safety of zinc-based biomaterials, optimizing material design to improve biocompatibility and functionality, investigating the mechanisms of bio-interactions, and expanding the application areas of zinc-based biomaterials to drive their development in clinical and biomedical settings.

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Section: Zinc Nanoparticles and Bonementioning

confidence: 99%

Bibliometric Analysis of Zinc and Bone

Wan

Tang

Cao

et al. 2023

JIMR

View full text Add to dashboard Cite

show abstract

“…[ 32b ] The internalization process can also be monitored via fluorescence microscopy after staining EVMs with the fluorescent stain, DiO. [ 80 ] The mechanisms underlying EVMs uptake remain unclear. In general, naturally isolated EVs are internalized by target cells through direct fusion with the plasma membrane and endocytosis, via various pathways, such as clathrin‐dependent endocytosis, caveolin‐mediated uptake, macropinocytosis, phagocytosis, and lipid raft‐mediated internalization.…”

Section: Targeting and Cellular Uptakesmentioning

confidence: 99%

Extracellular Vesicle Mimetics: Preparation from Top‐Down Approaches and Biological Functions

Wang

Yang

et al. 2022

Adv Healthcare Materials

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Extracellular vesicles (EVs) have attracted attention as delivery vehicles due to their structure, composition, and unique properties in regeneration and immunomodulation. However, difficulties during production and isolation processes of EVs limit their large‐scale clinical applications. EV mimetics (EVMs), prepared via top‐down strategies that improve the yield of nanoparticles while retaining biological properties similar to those of EVs have been used to address these limitations. Herein, the preparation of EVMs is reviewed and their characteristics in terms of structure, composition, targeting ability, cellular uptake mechanism, and immunogenicity, as well as their strengths, limitations, and future clinical application prospects as EV alternatives are summarized.

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Iron Oxide Nanoparticles in Mesenchymal Stem Cell Detection and Therapy

Mehta

2022

Stem Cell Rev and Rep

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Mesenchymal stem cells (MSCs) exhibit regenerative and reparative properties. However, most MSC-related studies remain to be translated for regular clinical usage, partly due to challenges in pre-transplantation cell labelling and post-transplantation cell tracking. Amidst this, there are growing concerns over the toxicity of commonly used gadolinium-based contrast agents that mediate in-vivo cell detection via MRI. This urges to search for equally effective but less toxic alternatives that would facilitate and enhance MSC detection post-administration and provide therapeutic benefits in-vivo. MSCs labelled with iron oxide nanoparticles (IONPs) have shown promising results in-vitro and in-vivo. Thus, it would be useful to revisit these studies before inventing new labelling approaches. Aiming to inform regenerative medicine and augment clinical applications of IONP-labelled MSCs, this review collates and critically evaluates the utility of IONPs in enhancing MSC detection and therapeutics. It explains the rationale, principle, and advantages of labelling MSCs with IONPs, and describes IONP-induced intracellular alterations and consequent cellular manifestations. By exemplifying clinical pathologies, it examines contextual in-vitro, animal, and clinical studies that used IONP-labelled bone marrow-, umbilical cord-, adipose tissue- and dental pulp-derived MSCs. It compiles and discusses studies involving MSC-labelling of IONPs in combinations with carbohydrates (Venofer, ferumoxytol, dextran, glucosamine), non-carbohydrate polymers [poly(L-lysine), poly(lactide-co-glycolide), poly(L-lactide), polydopamine], elements (ruthenium, selenium, gold, zinc), compounds/stains (silica, polyethylene glycol, fluorophore, rhodamine B, DAPI, Prussian blue), DNA, Fibroblast growth Factor-2 and the drug doxorubicin. Furthermore, IONP-labelling of MSC exosomes is reviewed. Also, limitations of IONP-labelling are addressed and methods of tackling those challenges are suggested. Graphical Abstract

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Dual Ion Releasing Nanoparticles for Modulating Osteogenic Cellular Microenvironment of Human Mesenchymal Stem Cells

Cited by 4 publications

References 42 publications

Bibliometric Analysis of Zinc and Bone

Bibliometric Analysis of Zinc and Bone

Extracellular Vesicle Mimetics: Preparation from Top‐Down Approaches and Biological Functions

Iron Oxide Nanoparticles in Mesenchymal Stem Cell Detection and Therapy

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