CeO2 Nanoparticle-Containing Polymers for Biomedical Applications: A Review

Shcherbakov, A. B.; Reukov, Vladimir; Yakimansky, А. V.; Краснопеева, Е. Л.; Иванова, О. С.; Попов, А. И.; Иванов, В. К.

doi:10.3390/polym13060924

Cited by 94 publications

(50 citation statements)

References 159 publications

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“…Cerium oxide (ceria) nanoparticles are promising for use as an active nanofiller in polymer composites [ 15 ]. They have been shown to solve the following problems in polymer science: the screening of electromagnetic irradiation, fabrication of catalysts, modification of the acoustic properties of a polymer matrix, etc.…”

Section: Introductionmentioning

confidence: 99%

Bacterial Cellulose-Based Nanocomposites Containing Ceria and Their Use in the Process of Stem Cell Proliferation

et al. 2021

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A technique for the fabrication of bacterial cellulose-based films with CeO2 nanofiller has been developed. The structural and morphological characteristics of the materials have been studied, their thermal and mechanical properties in dry and swollen states having been determined. The preparation methodology makes it possible to obtain composites with a uniform distribution of nanoparticles. The catalytic effect of ceria, regarding the thermal oxidative destruction of cellulose, has been confirmed by TGA and DTA methods. An increase in CeO2 content led to an increase in the elastic modulus (a 1.27-fold increase caused by the introduction of 5 wt.% of the nanofiller into the polymer) and strength of the films. This effect is explained by the formation of additional links between polymer macro-chains via the nanoparticles’ surface. The materials fabricated were characterized by a limited ability to swell in water. Swelling caused a 20- to 30-fold reduction in the stiffness of the material, the mechanical properties of the films in a swollen state remaining germane to their practical use. The application of the composite films in cell engineering as substrates for the stem cells’ proliferation has been studied. The increase in CeO2 content in the films enhanced the proliferative activity of embryonic mouse stem cells. The cells cultured on the scaffold containing 5 wt.% of ceria demonstrated increased cell survival and migration activity. An analysis of gene expression confirmed improved cultivation conditions on CeO2-containing scaffolds.

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Section: Introductionmentioning

confidence: 99%

Bacterial Cellulose-Based Nanocomposites Containing Ceria and Their Use in the Process of Stem Cell Proliferation

et al. 2021

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“…Benzophenone substances are generally used as UV absorbents for hydrogel lenses, but their use is limited, as they change the physical properties of the lenses and affect their water content and refractive index. CeNPs, due to their high transparency in the visible light range of spectra, as well as their antioxidant, therapeutic, antibacterial and UV-shielding properties, could be a good candidate as a filling material for contact lenses [ 33 ]. As the monomer formula used in this study enhances the optical functionality without changing the physical properties of the lens, it has potential as a useful additive for contact lens materials.…”

Section: Resultsmentioning

confidence: 99%

Poly (Ethylene Glycol) Methyl Ether Methacrylate-Based Hydrogel and Cerium(IV) Oxide Nanoparticles as Ophthalmic Lens Material

2021

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The functional hydrogel lens containing 2-hydroxyethylmethacrylate (HEMA) was manufactured by thermal polymerization. The physical properties of the produced hydrogel lens were measured and analyzed. In this study, HEMA, ethylene glycol dimethacrylate (EGDMA), and azobisisobutyronitrile (AIBN) were used for thermal copolymerization. Additionally, poly (ethylene glycol) methyl ether methacrylate (PEGMEMA), 3-(Triethoxysilyl) propyl isocyanate (TEPI), and cerium(Ⅳ) oxide nanoparticles were used as additives to make a functional hydrogel lens. The mixture was heated at 100 °C for 90 min to produce the hydrogel ophthalmic lens by the cast mold method. The resulting physical properties showed that the water content and refractive index of the sample were in the ranges of 38.06~42.11% and 1.426~1.436, respectively. The addition of cerium oxide nanoparticles lowered the contact angle and allowed the hydrogel lens to block UV light. The tensile strength was also improved by 52.13% through cerium oxide nanoparticles, and up to 123.4% by using TEPI. Based on the results of this study, the produced ophthalmic lens is suitable for durable, UV-blocking high-performance lenses.

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“…33 In addition, in recent years, nano-metal oxides such as zinc oxide (ZnO), copper oxide (CuO), iron oxide (Fe 2 O 3 ) and more recently cerium oxide (CeO 2 ) nanoparticles have attracted increasing interest in biomedical applications. [34][35][36][37][38][39][40][41][42][43][44] Among them, CeO 2 nanoparticles (nanoceria or CeNPs or CNPs as mentioned in published literature) are the critical rare earth metal oxides that have gained considerable attention in biological research due to their anti-oxidant and regenerative properties. 45 The unique ability of Ce to switch the oxidation states between (+3) and (+4) depending on the environment enables it to be applied in several key areas such as medicine, gene delivery, and tissue engineering and endows it with various activities such as antioxidant, anti-bacterial, anti-cancer, and anti-diabetic.…”

Section: Introductionmentioning

confidence: 99%

PLLA–gelatin composite fiber membranes incorporated with functionalized CeNPs as a sustainable wound dressing substitute promoting skin regeneration and scar remodeling

Sang

et al. 2022

J. Mater. Chem. B

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CeO2 Nanoparticle-Containing Polymers for Biomedical Applications: A Review

Cited by 94 publications

References 159 publications

Bacterial Cellulose-Based Nanocomposites Containing Ceria and Their Use in the Process of Stem Cell Proliferation

Bacterial Cellulose-Based Nanocomposites Containing Ceria and Their Use in the Process of Stem Cell Proliferation

Poly (Ethylene Glycol) Methyl Ether Methacrylate-Based Hydrogel and Cerium(IV) Oxide Nanoparticles as Ophthalmic Lens Material

PLLA–gelatin composite fiber membranes incorporated with functionalized CeNPs as a sustainable wound dressing substitute promoting skin regeneration and scar remodeling

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