Evaluation of electrospun matrices for the co-cultivation of mesenchymal stem cells and skin keratinocytes
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2014
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INTERNATIONAL SOCIETY FOR STEM CELL RESEARCH, 12th
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Resumo
The regeneration of skin is an important field for tissue engineering. Currently available treatments are
insufficient to prevent scar formation and promote healing of the patient, especially in large burns and
chronic wounds. Due to the great need for skin substitutes with the ability of regenerating large amounts
of skin, as well as the lack of an ideal replacement, the current study has aimed to produce a cutaneous
substitute with a PDLLA polymer as a biomaterial. These, in turn, must be able to serve as a suitable
support for cellular growth for the period of time required for tissue regeneration. For this purpose,
scaffolds were constructed by the electrospinning technique and divided into 3 groups: 1) PDLLA
matrices, 2) PDLLA/NaOH, which were PDLLA scaffolds hydrolyzed with a solution of NaOH 0.75M
and 3) PDLLA/Lam, also hydrolyzed with NaOH and in which the protein laminin was linked by
covalent binding. They were all constructed with 2 different fiber diameters, with the smallest at the top
of the scaffold. These scaffolds were characterized by morphology and fiber diameter and their
hydrophilicity or hydrophobicity features. Mesenchymal stem cells were then seeded onto the bottom of
the scaffold and, after 24 hours, skin keratinocytes were seeded on the other side. This procedure was
performed in all the groups. The groups were evaluated for cell adhesion on the day of the seeding and on
days 7, 14 and 21 for viability with WST-8 assay. From day 7, the scaffolds were submitted to an
air/liquid system of culture. As a result, the scaffolds presented well formed fibers which were randomly
distributed. The treatment of the matrices with NaOH for 15 minutes did not substantially affect the
structure of the fibers, but it was enough to hydrophilize the surface of the biomaterials, which is
necessary for laminin linkage. The fiber diameter for all the groups was 4.58 μm for the largest fibers and
574 nm for the smallest. The pore size of the scaffolds obtained were approximately 27.5 μm and 3.44
μm, respectively, for the largest and smallest fibers. The linkage of the laminin was confirmed by
immunofluorescence assay. For the biological analysis, cell adhesion was greater in the PDLLA/Lam scaffolds with absorbance of 2.268± 0.494, in comparison with 1.264±0.473 for the control (PDLLA
scaffold) and 1.159±0.120 for the PDLLA/NaOH scaffold. On day 7 of the viability analysis, the
absorbance for the PDLLA scaffold was 1.148±0.411, the PDLLA/NaOH group was 1.380±0.501 and the
PDLLA/Lam was 1.990±0.255. On day 14, the absorbance for groups 1, 2 and 3 were 1.032±0.169,
0.755±0.016, and 1.636±0.313, respectively. On day 21, the results were 2.204±0.317, 1.437±0.024,
2.811±0.477 respectively for groups 1, 2, and 3. In general, in terms of the biological analysis, the
PDLLA/Lam group showed the best results for cell adhesion and viability tests. Histological analysis is
being processed for greater understanding of the behavior of the cells interacted within the scaffolds. In
conclusion, the PDLLA scaffolds, mainly the PDLLA/Lam groups, showed good results for the cocultivation
of the cells, with good cell adhesion and the presence of viable cells. These biomaterials were
capable of providing support for the growth of the cells, which was observed by the increase in the
absorbance over time. Therefore, although histological analysis is still in progress, these scaffolds
promise to be suitable biomaterials for use in tissue engineering.
Como referenciar
PRANKE, PATRICIA; STEFFENS, DANIELA; SANTI, BRUNA; LUCO, DAYANE P.; MATHOR, MONICA B. Evaluation of electrospun matrices for the co-cultivation of mesenchymal stem cells and skin keratinocytes. In: INTERNATIONAL SOCIETY FOR STEM CELL RESEARCH, 12th, June 18-21, 2014, Vancouver, Canada. Proceedings... Disponível em: http://repositorio.ipen.br/handle/123456789/27664. Acesso em: 30 Dec 2025.
Esta referência é gerada automaticamente de acordo com as normas do estilo IPEN/SP (ABNT NBR 6023) e recomenda-se uma verificação final e ajustes caso necessário.