Amination of Polymeric Braid Structures to Improve Tendon Healing: An Experimental Comparison

resumo

Several polymers are researched for tendon repair as polyethylene terephthalate (PET) and polylactic acid (PLA). These are biocompatible and useful in scaffolding repair though with minimal success due to long-term failure. There is a need to improve such scaffolds' design and physical-chemical nature. This work concerns surface functionalization of polymeric braids (PET and PLA) that fulfill the high mechanical demands of tissues such as tendons. The functionalization aims to incorporate amine groups in the braids' surface, improve cell adhesion, and consequently, the poor healing rate of these tissues and the biointegration of the braids. Two approaches are compared: the direct application of NH3 plasma and the surface grafting of EDA after O-2 plasma activation. X-ray photoelectron spectroscopy (XPS) shows that amine groups are effectively introduced onto the samples' surfaces. Besides, the plasma parameters chosen do not compromise the topography and tensile behavior of the braids. Resazurin assay and scanning electron microscopy show that the NH3 treatment improves cell-biomaterial interaction as improved cell adhesion and proliferation are observed. Both approaches are safe for biomedical applications. The NH3 plasma approach is more environmentally friendly, faster, and easier to scale-up, showing potential for application in the final hybrid medical device.

palavras-chave

POLYETHYLENE TEREPHTHALATE FILMS; AMMONIA PLASMA; CELL-ADHESION; SURFACE CHARACTERIZATION; POLY(L-LACTIDE); SCAFFOLDS; AFFINITY; ACID)

categoria

Materials Science; Polymer Science

autores

Peixoto, T; Silva, D; Rodrigues, M; Neto, M; Silva, R; Paiva, MC; Grenho, L; Fernandes, MH; Lopes, MA

nossos autores

agradecimentos

T.P. and D.S. contributed equally to this work. Financial support from PT national funds (FCT/MCTES, Fundacao para a Ciencia e Tecnologia and Ministerio da Ciencia, Tecnologia e Ensino Superior) through the project UIDB/50006/2020 is acknowledged by REQUIMTE-LAQV authors. IPC authors acknowledge "National Funds through FCT-Portuguese Foundation for Science and Technology," References UIDB/05256/2020 and UIDP/05256/2020. T.P. acknowledges the financial support from FCT and ESF (European Social Fund) through North Portugal Regional Operational Program, through the PhD Grant PD/BD/143035/2018.

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