Full Length Research Paper
References
|
Antunes RMP, Lima EO, Pereira MSV, Camara CA, Arruda TA, Catão RMR, Barbosa TP, Nunes XP, Dias CS, Silva TMS (2006). Atividade antimicrobiana "in vitro" e determinação da concentração inibitória mínina (CIM) de fitoconstituintes e produtos sintéticos sobre bactérias e fungos leveduriformes. Rev. Bras. Farmacogn.16:517-524. |
|
|
Araújo CRM, Santos VLA, Guimarães DG, Oliveira-Junior RG, Almeida JRGS, Gonsalves AA (2014). Síntese e Determinação in vitro do FPS-UVB de oximas Derivadas do Lapachol. Rev. Virtual Quím. 6:1702-1712. |
|
|
Araújo EL (2002). Lapachol: segurança e eficácia na terapêutica. Rev. Bras. Farmacogn. 12:57-59. |
|
|
Barbosa TP, Neto HD (2013). Preparação de derivados do Lapachol em meio ácido e em meio básico: uma proposta de experimentos para a disciplina de Química Orgânica Experimental. Quim. Nova. 36:331-334. |
|
|
CLSI (2012). Methods for Dilution Antimicrobial Susceptibility Tests for |
|
|
Colli VC, Pizzolito AC, Raddi MSG (2009). Determinação da resistência de Staphylococcus aureus: um desafio? Rev Ciênc Farm Básica Appl. 30:115-118. |
|
|
Cos P, Vlietinck AJ, Berghe DV, Maes L (2006). Anti-infective potential of natural products: How to develop a stronger in vitro 'proof-of-concept'. J. Ethnopharmacol. 106:290-302. |
|
|
Cragg GM e Newman DJ (2013). Natural products: A continuing source of novel drug leads. Biochimica et Biophysica Acta. 1830:3670-3695. |
|
|
Ferreira SB, Gonzaga DTG, Santos WC, Araújo KGL, Ferreira VF (2010). β-Lapachona: Sua Importância em Química Medicinal e Modificações Estruturais. Rev. Virtual Quim. 2:140-160. |
|
|
Fletcher MH, Jennings MC, Wuest WM (2014). Draining the moat: disrupting bacterial biofilms with natural products. Tetrahedron. 70:6373-6383. |
|
|
Fonseca SGC (2003). Lapachol – química, farmacologia e métodos de dosagem. Rev. Bras. Farm. 84:9-16. |
|
|
Kumagai Y (2012). The chemical biology of naphtho-quinones and its environmental implications. Annu. Rev. Pharmacol. Toxicol. 52:221-247. |
|
|
Kumagai Y, Shinkai Y, Miura T, Cho AK (2012). The Chemical Biology of Naphthoquinones and Its Environmental Implications. Annu. Rev. Pharmacol. Toxicol. 52:221-247. |
|
|
Macedo L, Fernandes T, Silveira L, Mesquita A, Franchitti AA, Ximenes EA (2013). Lapachone activity in synergy with conventional antimicrobials against methicillin resistant Staphylococcus aureus strains. Phytomed. 21:25-29. |
|
|
Oliveira AKM (2006). Caracterização Morfológica, Viabilidade e Vigor das sementes de Tabebuia áurea I (Silva Manso) Benth. & Hook. F. ex. S. Moore. Rev. Árvore 30:25-32. |
|
|
Paharik AE, Horswill AR (2016). Staphylococcal Biofilm: Adhesins, Regulation, and Host Response. Microbiol. Spectr. 4(2):529-566. |
|
|
Pavia DL, Lampman GM, Kriz GS (2001). Introduction to Spectroscopy. 3rd Edition, Thomson Learning. |
|
|
Park JH Lee J H, Kim CJ, Lee JC, Cho MH, Lee J (2012). Extracellular protease in Actinomycetes culture supernatants inhibits and detaches Staphylococcus aureus biofilm formation. Biotechnol. Lett. 34:655-661. |
|
|
Taylor PW (2013). Alternative natural sources for a new generation of antibacterial. Int. J. Antibacterial Agents 42:195-201. |
|
|
Trentin DS, Giordani RB., Zimmer KR, Silva AG da, Silva MV da, Correia MT, Baumvol IJ, Macedo AJ (2011). Potential of medicinal plants from the Brazilian semi-arid region (Caatinga) against Staphylococcus epidermidis planktonic and biofilm lifestyles. J. Ethnopharmacol.137:327-335. |
|
|
Wu S, Duan N, Gu H, Hao L, Ye H, Gong W, Wang Z (2016). A Review of the Methods for Detection of Staphylococcus aureus Enterotoxins. Toxins 8:176. |
|
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0
