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Effects of Process Parameters on Structure and Properties of Melt-Blown Poly(Lactic Acid) Nonwovens for Skin Regeneration

Ewa Dzierzkowska, Anna Ścisłowska‐Czarnecka, Marcin H. Kudzin, Maciej Boguń, Piotr Szatkowski, Marcin Gajek, Kamil Kornaus, Magdalena Chadzińska, Ewa Stodolak‐Zych

2021Journal of Functional Biomaterials34 citationsDOIOpen Access PDF

Abstract

Skin regeneration requires a three-dimensional (3D) scaffold for cell adhesion, growth and proliferation. A type of the scaffold offering a 3D structure is a nonwoven material produced via a melt-blown technique. Process parameters of this technique can be adapted to improve the cellular response. Polylactic acid (PLA) was used to produce a nonwoven scaffold by a melt-blown technique. The key process parameters, i.e., the head and air temperature, were changed in the range from 180-270 °C to obtain eight different materials (MB1-MB8). The relationships between the process parameters, morphology, porosity, thermal properties and the cellular response were explored in this study. The mean fiber diameters ranged from 3 to 120 µm. The average material roughness values were between 47 and 160 µm, whereas the pore diameters ranged from 5 to 400 µm. The calorimetry thermograms revealed a correlation between the temperature parameters and crystallization. The response of keratinocytes and macrophages exhibited a higher cell viability on thicker fibers. The cell-scaffold interaction was observed via SEM after 7 days. This result proved that the features of melt-blown nonwoven scaffolds depended on the processing parameters, such as head temperature and air temperature. Thanks to examinations, the most suitable scaffolds for skin tissue regeneration were selected.

Topics & Concepts

Materials sciencePolylactic acidScaffoldComposite materialPorosityFiberMorphology (biology)CrystallizationLactic acidExtrusionRegeneration (biology)Biomedical engineeringChemical engineeringPolymerBacteriaCell biologyBiologyGeneticsEngineeringMedicinebiodegradable polymer synthesis and propertiesElectrospun Nanofibers in Biomedical ApplicationsWound Healing and Treatments