Chemistry

Calcium-loaded nanofibers show promise for medical implants and wound healing

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This study investigated composite fibers made from cellulose acetate loaded with calcium oxide (CaO) and produced through electrospinning technology. Researchers characterized the morphological properties, structural features, and functional capabilities of these fibers to assess their suitability for biomedical use. The CaO-loaded cellulose acetate fibers demonstrated properties that make them potentially viable for applications in tissue engineering, wound healing, or drug delivery systems.


Development of biocompatible composite materials with tailored properties could advance medical treatments requiring scaffolds or controlled release systems. Cellulose acetate is biodegradable and biocompatible, while calcium oxide can provide antibacterial properties and support bone tissue regeneration, making these composite fibers particularly relevant for regenerative medicine applications.


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Electrospinning Concept coming soon Biomaterials Concept coming soon Nanofibers Concept coming soon

Source: CaO-loaded cellulose acetate electrospun composite fibers: morphological, structural, and functional evaluation for biomedical applications