Fiber length and concentration: Synergistic effect on mechanical and cellular response in wet‐laid poly(lactic acid) fibrous scaffolds

Abstract: In the area of biomaterials, fibers not only offer increased mechanical response, but also serve as an extracellular matrix mimicking morphology to direct cellular attachment and proliferation. While biologically similar in morphology, soft, and flexible hydrogel materials have low mechanical properties. For applications in tissue engineering, the lack of directional cues and attachment regions within the biogels is undesired as cells require a guide for adequate attachment and organized proliferation. In this… Show more

“…The biodegradable and biocompatible nature of the PLA offers various practical applications such as medical implants, drug delivery, cosmetics, and food packaging [1] . The porous PLA matrix has been developed as a scaffold in tissue engineering, drug loading, and wound dressing [2][3][4] .…”

Cell response to PLA scaffolds functionalized with various seaweed polysaccharides

“…The biodegradable and biocompatible nature of the PLA offers various practical applications such as medical implants, drug delivery, cosmetics, and food packaging [1] . The porous PLA matrix has been developed as a scaffold in tissue engineering, drug loading, and wound dressing [2][3][4] .…”

Cell response to PLA scaffolds functionalized with various seaweed polysaccharides

“…6 and 7), whereas Nap-FFGSO + A showed very few dead cells which might probably due to the hydrophobic nature or IKVAV and also shorter ber lengths might not provide proper support to the growing cells. 88 For both the cell types, the Nap-FFGSO + A + B gels resulted in enhancement of cell density aer 72 h along with the distinguished cell morphology. However in case of Nap-FFGSO + A and Nap-FFGSO + B, the clusters of C6 cells were observed which indicates the dominant proliferation phase of the cells, aer 72 h 40 In contrast to this, L929 cell density has been relatively increased aer 72 h, in comparison to 48 h, indicating growth phase.…”

Designing a bioactive scaffold from coassembled collagen–laminin short peptide hydrogels for controlling cell behaviour

Low-temperature inductively coupled plasma as a method to promote biomineralization on 3D printed poly(lactic acid) scaffolds