Comparative analysis of the biocompatibility of endothelial cells on surfaces treated by thermal plasma and cold atmospheric plasma

• Published in: Anais da Academia Brasileira de Ciências Vol. 95; no. 3; p. e20220865
• Main Authors: SOUZA, ALAN MAX T. DE, BRAZ, JANINE KARLA F. DA SILVA, MARTINS, GABRIEL M., VITORIANO, JUSSIER DE OLIVEIRA, G.A. NETO, AURÉLIO, NERY, DAVID M., SABINO, VLADIMIR G., LUCENA, EUDES E. DE SOUZA, ROCHA, HUGO ALEXANDRE DE OLIVEIRA, BARBOZA, CARLOS AUGUSTO G., A. JÚNIOR, CLODOMIRO, MOURA, CARLOS EDUARDO B. DE
• Format: Journal Article
• Language: English
• Published: Academia Brasileira de Ciências 01.01.2023
• Subjects: Angiogenesis; cold atmospheric plasma; MULTIDISCIPLINARY SCIENCES; nitriding; titanium; Angiogenesis; nitriding; cold atmospheric plasma; titanium
• ISSN: 0001-3765; 1678-2690; 1678-2690
• DOI: 10.1590/0001-3765202320220865

In recent years, cold atmospheric plasma (CAP) is used for surface disinfection. However, little is known about its ability to improve biocompatibility of metallic surfaces when compared to thermal plasma methods. In this context, the study aimed to evaluate the response of human endothelial cells (Ea.hy926) on titanium surfaces treated by non-thermal plasma method and thermal plasma method under nitriding atmosphere. The wettability was characterized by the sessile drop method, the topography and roughness were evaluated by atomic force microscopy (AFM), and the microstructure by grazing angle X-ray diffraction (GIXRD). Endothelial cells were cultured and evaluated for morphology by scanning electron microscopy and viability by an MTT (3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide) assay. CAP treatment reduced the contact angle of the Ti surface (13.43° ± 1.48; p<0.05), increasing hydrophilicity. Rz roughness was higher on the nitrided surface (220.44±20.30; p< 0.001) compared to the CAP treated surfaces (83.29 ± 11.61; p< 0.001) and polished (75.98 ±34.21a); p<0.001). The different applied plasma treatments created different titanium surfaces improving the biocompatibility of endothelial cells, however CAP results demonstrate its potential for biomedical applications, considering the low cost and ease of use of the technique, allowing surface treatments before clinical procedures.