Cinnamaldehyde and α-terpineol as an alternative for using as denture cleansers: antifungal activity and acrylic resin color stability

Loyse Martorano-Fernandes; Nadiny Cezar Rodrigues; Natanael Victor Furtunato  Bezerra; Maria Heloisa de Souza  Borges; Yuri Wanderley Cavalcanti; Leopoldina de Fátima Dantas de Almeida

doi:10.33448/rsd-v10i3.13512

Autores/as

Loyse Martorano-Fernandes Federal University of Paraíba https://orcid.org/0000-0002-5995-5085
Nadiny Cezar Rodrigues Federal University of Paraíba https://orcid.org/0000-0001-6351-1869
Natanael Victor Furtunato Bezerra Federal University of Paraíba https://orcid.org/0000-0002-5348-3363
Maria Heloisa de Souza Borges Federal University of Paraíba https://orcid.org/0000-0003-3038-0908
Yuri Wanderley Cavalcanti Federal University of Paraíba https://orcid.org/0000-0002-3570-9904
Leopoldina de Fátima Dantas de Almeida Federal University of Paraíba https://orcid.org/0000-0001-5997-6612

DOI:

https://doi.org/10.33448/rsd-v10i3.13512

Palabras clave:

Candida albicans; Placa dental; Estomatitis subprotética; Limpiadores de dentadura; Fitoterapia.

Resumen

Objetivo: se investigó el potencial de los constituyentes fitoquímicos cinamaldehído y α-terpineol como potenciales limpiadores de prótesis dentales, en el que se evaluó la actividad antifúngica, así como el efecto de los tratamientos sobre el cambio de color del poli (metil) metacrilato (PMMA). Metodología: Se formaron biopelículas de Candida albicans en muestras de PMMA y se expusieron a un tratamiento diario durante 10 minutos con cinamaldehído (10 mg / ml) y α-terpineol (10 mg / ml), NaCl al 0,9% y NaClO al 1%. Se recolectaron biopelículas y se analizó la viabilidad celular (UFC / mL), el metabolismo celular (MTT) y la rugosidad del biofilm. Además, se verificó la variación de color de las muestras durante siete y 14 días. Se utilizaron las pruebas de Kruskal-Wallis, Mann Whitney y ANOVA unidireccional (α <0,05). Resultados: el cinamaldehído y el α-terpineol disminuyeron el número de células viables, en comparación con NaCl al 0,9%, en un 76% y 83,2%, respectivamente (p <0,05). Ambas sustancias redujeron el metabolismo de la biopelícula en aproximadamente un 70% (p <0,05). Además, los fitoquímicos probados dieron como resultado un biofilm ligeramente rugoso, similar al NaClO (p> 0.05), sin cambiar el color de la resina acrílica de las muestras (p> 0.05). Conclusión: el cinamaldehído y el α-terpineol, a concentraciones de 10 mg / mL, mostraron actividad antifúngica en biofilms de C. albicans sin alterar el color de la resina acrílica. Desde un punto de vista clínico, estas sustancias tienen un gran potencial para incorporarse en soluciones para la limpieza de prótesis dentales.

Citas

Almeida, L., Paula, J. F., Almeida, R. V., Williams, D. W., Hebling, J., & Cavalcanti, Y. W. (2016). Efficacy of citronella and cinnamon essential oils on Candida albicans biofilms. Acta odontologica Scandinavica, 74(5), 393–398.

Arruda, C., Salles, M. M., Badaró, M. M., Sorgini, D. B., Oliveira, V. C., Macedo, A. P., Silva-Lovato, C. H., & Paranhos, H. (2018). Evaluation of biofilm removal and adverse effects on acrylic resin by diluted concentrations of sodium hypochlorite and Ricinus communis solutions. Gerodontology, 10.1111/ger.12348.

Axe, A. S., Varghese, R., Bosma, M., Kitson, N., & Bradshaw, D. J. (2016). Dental health professional recommendation and consumer habits in denture cleansing. The Journal of prosthetic dentistry, 115(2), 183–188.

Badaró, M. M., Bueno, F. L., Arnez, R. M., Oliveira, V. C., Macedo, A. P., de Souza, R. F., Paranhos, H., & Silva-Lovato, C. H. (2020). The effects of three disinfection protocols on Candida spp., denture stomatitis, and biofilm: A parallel group randomized controlled trial. The Journal of prosthetic dentistry, 124(6), 690–698.

Bakhtiari, S., Jafari, S., Taheri, J. B., Kashi, T., Namazi, Z., Iman, M., & Poorberafeyi, M. (2019). The Effects of Cinnamaldehyde (Cinnamon Derivatives) and Nystatin on Candida Albicans and Candida Glabrata. Open access Macedonian journal of medical sciences, 7(7), 1067–1070.

Calderone, R. A., & Fonzi, W. A. (2001). Virulence factors of Candida albicans. Trends in microbiology, 9(7), 327–335.

Cavalcanti, Y. W., Wilson, M., Lewis, M., Williams, D., Senna, P. M., Del-Bel-Cury, A. A., & da Silva, W. J. (2016). Salivary pellicles equalise surfaces' charges and modulate the virulence of Candida albicans biofilm. Archives of oral biology, 66, 129–140.

Chen, B. J., Fu, C. S., Li, G. H., Wang, X. N., Lou, H. X., Ren, D. M., & Shen, T. (2017). Cinnamaldehyde Analogues as Potential Therapeutic Agents. Mini reviews in medicinal chemistry, 17(1), 33–43.

de Groot, A. C., & Schmidt, E. (2016). Tea tree oil: contact allergy and chemical composition. Contact dermatitis, 75(3), 129–143.

de Souza, R. F., Silva-Lovato, C. H., de Arruda, C. N., Regis, R. R., Zanini, A. P., Longo, D. L., Peracini, A., de Andrade, I. M., Watanabe, E., & Paranhos, H. F. (2019). Efficacy of a propolis solution for cleaning complete dentures. American journal of dentistry, 32(6), 306–310.

Doyle, A. A., & Stephens, J. C. (2019). A review of cinnamaldehyde and its derivatives as antibacterial agents. Fitoterapia 139, 104405.

Duyck, J., Vandamme, K., Krausch-Hofmann, S., Boon, L., De Keersmaecker, K., Jalon, E., & Teughels, W. (2016). Impact of Denture Cleaning Method and Overnight Storage Condition on Denture Biofilm Mass and Composition: A Cross-Over Randomized Clinical Trial. PloS one, 11(1), e0145837.

Faot, F., Cavalcanti, Y. W., Mendonça e Bertolini, M. d., Pinto, L., da Silva, W. J., & Cury, A. A. (2014). Efficacy of citric acid denture cleanser on the Candida albicans biofilm formed on poly(methyl methacrylate): effects on residual biofilm and recolonization process. BMC oral health, 14, 77.

Figuerôa, R., Conterno, B., Arrais, C., Sugio, C., Urban, V. M., & Neppelenbroek, K. H. (2018). Porosity, water sorption and solubility of denture base acrylic resins polymerized conventionally or in microwave. Journal of applied oral science: revista FOB, 26, e20170383.

Freitas-Fernandes, F. S., Cavalcanti, Y. W., Ricomini Filho, A. P., Silva, W. J., Del Bel Cury, A. A., & Bertolini, M. M. (2014). Effect of daily use of an enzymatic denture cleanser on Candida albicans biofilms formed on polyamide and poly(methyl methacrylate) resins: an in vitro study. The Journal of prosthetic dentistry, 112(6), 1349–1355.

Gendreau, L., & Loewy, Z. G. (2011). Epidemiology and etiology of denture stomatitis. Journal of prosthodontics: official journal of the American College of Prosthodontists, 20(4), 251–260.

Gulati, M., & Nobile, C. J. (2016). Candida albicans biofilms: development, regulation, and molecular mechanisms. Microbes and infection, 18(5), 310–321.

Hannah, V. E., O'Donnell, L., Robertson, D., & Ramage, G. (2017). Denture Stomatitis: Causes, Cures and Prevention. Primary dental journal, 6(4), 46–51.

Khan, M. S., Ahmad, I., & Cameotra, S. S. (2013). Phenyl aldehyde and propanoids exert multiple sites of action towards cell membrane and cell wall targeting ergosterol in Candida albicans. AMB Express, 3(1), 54.

Kong, Q., Zhang, L., An, P., Qi, J., Yu, X., Lu, J., & Ren, X. (2019). Antifungal mechanisms of α-terpineol and terpene-4-alcohol as the critical components of Melaleuca alternifolia oil in the inhibition of rot disease caused by Aspergillus ochraceus in postharvest grapes. Journal of applied microbiology, 126(4), 1161–1174.

Kurt, A., Erkose-Genc, G., Uzun, M., Sarı, T., & Isik-Ozkol, G. (2018). The Effect of Cleaning Solutions on a Denture Base Material: Elimination of Candida albicans and Alteration of Physical Properties. Journal of prosthodontics: official journal of the American College of Prosthodontists, 27(6), 577–583.

Leite, K. F., Martins, M. L., de Medeiros, M. M., Bezerra, N. V., Brito, C. M., de Almeida, L. F., & Cavalcanti, Y. W. (2020). Red propolis hydroalcoholic extract inhibits the formation of Candida albicans biofilms on denture surface. Journal of clinical and experimental dentistry, 12(7), e626–e631.

Martins, M. L., Leite, K., Pacheco-Filho, E. F., Pereira, A., Romanos, M., Maia, L. C., Fonseca-Gonçalves, A., Padilha, W., & Cavalcanti, Y. W. (2018). Efficacy of red propolis hydro-alcoholic extract in controlling Streptococcus mutans biofilm build-up and dental enamel demineralization. Archives of oral biology, 93, 56–65.

Martorano-Fernandes, L., Cavalcanti, Y. W., & de Almeida, L. (2020). "Inhibitory effect of Brazilian red propolis on Candida biofilms developed on titanium surfaces". BMC complementary medicine and therapies, 20(1), 104.

Mayer, F. L., Wilson, D., & Hube, B. (2013). Candida albicans pathogenicity mechanisms. Virulence, 4(2), 119–128.

Mehta, P., Shah, R., Lohidasan, S., & Mahadik, K. R. (2015). Pharmacokinetic profile of phytoconstituent(s) isolated from medicinal plants-A comprehensive review. Journal of traditional and complementary medicine 5(4), 207–227.

Murakami, Y., Kawata, A., Suzuki, S., & Fujisawa, S. (2018). Cytotoxicity and Pro-/Anti-inflammatory Properties of Cinnamates, Acrylates and Methacrylates Against RAW264.7 Cells. In vivo (Athens, Greece), 32(6), 1309–1322.

Paranhos, H., Peracini, A., Pisani, M. X., Oliveira, V., de Souza, R. F., & Silva-Lovato, C. H. (2013). Color stability, surface roughness and flexural strength of an acrylic resin submitted to simulated overnight immersion in denture cleansers. Brazilian dental journal, 24(2), 152–156.

Pellizzaro, D., Polyzois, G., Machado, A. L., Giampaolo, E. T., Sanitá, P. V., & Vergani, C. E. (2012). Effectiveness of mechanical brushing with different denture cleansing agents in reducing in vitro Candida albicans biofilm viability. Brazilian dental journal, 23(5), 547–554.

Pereira, A. S., Shitsuka, D. M., Parreira, F. J., Shitsuka, R. (2018). Metodologia da Pesquisa Científica. Santa Maria, RS: Núcleo de Tecnologia Educacional NTE.

Porwal, A., Khandelwal, M., Punia, V., & Sharma, V. (2017). Effect of denture cleansers on color stability, surface roughness, and hardness of different denture base resins. Journal of Indian Prosthodontic Society, 17(1), 61–67.

Pradebon Brondani, L., Alves da Silva Neto, T., Antonio Freitag, R., & Guerra Lund, R. (2018). Evaluation of anti-enzyme properties of Origanum vulgare essential oil against oral Candida albicans. Journal de mycologie medicale, 28(1), 94–100.

Ramage, G., Milligan, S., Lappin, D. F., Sherry, L., Sweeney, P., Williams, C., Bagg, J., & Culshaw, S. (2012). Antifungal, cytotoxic, and immunomodulatory properties of tea tree oil and its derivative components: potential role in management of oral candidosis in cancer patients. Frontiers in microbiology, 3, 220.

Ribeiro, A. B., de Araújo, C. B., Silva, L., Fazan-Junior, R., Salgado, H. C., Ribeiro, A. B., Fortes, C. V., Bueno, F. L., de Oliveira, V. C., de F O Paranhos, H., Watanabe, E., & da Silva-Lovato, C. H. (2019). Hygiene protocols for the treatment of denture-related stomatitis: local and systemic parameters analysis - a randomized, double-blind trial protocol. Trials, 20(1), 661.

Shreaz, S., Bhatia, R., Khan, N., Muralidhar, S., Manzoor, N., & Khan, L. A. (2013). Influences of cinnamic aldehydes on H⁺ extrusion activity and ultrastructure of Candida. Journal of medical microbiology, 62(Pt 2), 232–240.

Shreaz, S., Wani, W. A., Behbehani, J. M., Raja, V., Irshad, M., Karched, M., Ali, I., Siddiqi, W. A., & Hun, L. T. (2016). Cinnamaldehyde and its derivatives, a novel class of antifungal agents. Fitoterapia, 112, 116–131.

Skupien, J. A., Valentini, F., Boscato, N., & Pereira-Cenci, T. (2013). Prevention and treatment of Candida colonization on denture liners: a systematic review. The Journal of prosthetic dentistry, 110(5), 356–362.

Straede, A., Corran, A., Bundy, J., & Heinisch, J. J. (2007). The effect of tea tree oil and antifungal agents on a reporter for yeast cell integrity signalling. Yeast (Chichester, England), 24(4), 321–334.

Taguchi, Y., Hasumi, Y., Hayama, K., Arai, R., Nishiyama, Y., & Abe, S. (2012). Effect of cinnamaldehyde on hyphal growth of C. albicans under various treatment conditions. Medical mycology journal, 53(3), 199–204.

Taguchi, Y., Hasumi, Y., Abe, S., & Nishiyama, Y. (2013). The effect of cinnamaldehyde on the growth and the morphology of Candida albicans. Medical molecular morphology, 46(1), 8–13.

Zou, Y., & Zhan, D. (2015). Patients' expectation and satisfaction with complete denture before and after the therapy. Vojnosanitetski pregled, 72(6), 495–498.

Cinamaldehído y α-terpineol como alternativa para su uso como limpiadores de prótesis: actividad antifúngica y estabilidad del color de la resina acrílica

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