Multifunctional 58S Bioactive Glass/Silver/Cerium Oxide-Based Biocomposites with Effective Antibacterial, Cytocompatibility, and Mechanical Properties.
Indrajeet SinghKaushal ShakyaPankaj GuptaPooja RaniIng KongVivek VermaKantesh BalaniPublished in: ACS applied materials & interfaces (2024)
58S bioactive glass (BG) has effective biocompatibility and bioresorbable properties for bone tissue engineering; however, it has limitations regarding antibacterial, antioxidant, and mechanical properties. Therefore, we have developed BG AC biocomposites by reinforcing 58S BG with silver and ceria nanoparticles, which showed effective bactericidal properties by forming inhibited zones of 2.13 mm (against Escherichia coli ) and 1.96 mm (against Staphylococcus aureus ; evidenced by disc diffusion assay) and an increment in the antioxidant properties by 39.9%. Moreover, the elastic modulus, hardness, and fracture toughness were observed to be increased by ∼84.7% (∼51.9 GPa), ∼54.5% (∼3.4 GPa), and ∼160% (∼1.3 MPam 1/2 ), whereas the specific wear rate was decreased by ∼55.2% (∼1.9 × 10 -11 m 3 /Nm). X-ray diffraction, high-resolution transmission electron microscopy, and field emission scanning electron microscopy confirmed the fabrication of biocomposites and the uniform distribution of the nanomaterials in the BG matrix. The addition of silver nanoparticles in the 58S BG matrix (in BG A ) increased mechanical properties by composite strengthening and bactericidal properties by damaging the cytoplasmic membrane of bacterial cells. The addition of nanoceria in 58S BG (BG C ) increased the antioxidant properties by 44.5% (as evidenced by the 2,2-diphenyl-1-picrylhydrazyl assay). The resazurin reduction assay and MTT assay confirmed the effective cytocompatibility for BG AC biocomposites against mouse embryonic fibroblast cells (NIH3T3) and mouse bone marrow stromal cells. Overall, BG AC resulted in mechanical properties comparable to those of cancellous bone, and its effective antibacterial and cytocompatibility properties make it a good candidate for bone healing.
Keyphrases
- electron microscopy
- silver nanoparticles
- tissue engineering
- high resolution
- escherichia coli
- bone marrow
- staphylococcus aureus
- oxidative stress
- high throughput
- induced apoptosis
- anti inflammatory
- bone mineral density
- cell cycle arrest
- gold nanoparticles
- drug delivery
- mass spectrometry
- magnetic resonance
- cell proliferation
- bone loss
- body composition
- cell death
- wound healing
- candida albicans
- pi k akt