Alves MS, De Medeiros MAA, Pereira CT, Simão KLA, Simão BLA, Diniz AF, De Sousa AP, Medeiros CIS, Guênes GMT, Silva DF, De Medeiros RS, Dos Anjos RM, De Brito Júnior L, Lima EO, De Oliveira Filho AA (2019). Determinação da ação antifúngica do óleo de Pogostemon cablin (lamiaceae) em combate a cepas de Candida Kruse. International Journal of Development Research, 9:29640-29644.

Adhavan P, Kaur G, Princy A, Murugan R (2017). Essential oil nanoemulsions of wild patchouli attenuate multi-drug resistant gram-positive, gram-negative and Candida albicans. Industrial Crops Products 100:106-116.
Crossref

Aisyah Y, Yunita D, Amanda A (2021). Antimicrobial activity of patchouli (Pogostemon cablin Benth) citronella (Cymbopogon nardus), and nutmeg (Myristica fragrans) essential oil and their mixtures against pathogenic and food spoilage microbes. In IOP Conference Series: Earth and Environmental Science 667(1):012020. IOP Publishing.
Crossref

Böhme K, Barros-Velázquez J, Calo-Mata P, Aubourg SP (2014). Antibacterial, Antiviral and Antifungal Activity of Essential Oils: Mechanisms and Applications. In: Villa T.G., Veiga-Crespo P., editors. Antimicrobial Compounds: Current Strategies and New Alternatives. Springer; Berlin/Heidelberg, Germany pp. 51-81.
Crossref

Cavalcante JNM, Siqueira DS, Ferreira JLS, Bezerra RV, Delgado LA, Silva RCMO, Figueira RC, Silva DF, De Oliveira HMBF, Lima EO, De Oliveira Filho AA (2018). Antifungal Activity of the Essential Oil of Pogostemon cablin (Lamiaceae) against Candida tropicalis Strains. International Journal Pharmacy and Pharmaceutical Research 13 (2):51-58.

Cleland R, Squires E (1991). Evaluation of new antimicrobials "in vitro" and in experimental animal infections. In: Lorian V. M. D. Antibiotics in Laboratory Medicine. Willians & Wilkins pp. 739-788.

Coutinho HDM, Costa JGM, Lima EO, Falcão-Silva VS, Siqueira- Junior JP (2008). Enhancement of the antibiotic activity against a multiresistant Escherichia coli by Mentha arvensis L. and chlorpromazine. Chemotherapy 54(4):328-30.
Crossref

Cho TJ, Park SM, Yu H, Seo GH, Kim HW, Kim SA, Rhee MS (2020). Recent Advances in the Application of Antibacterial Complexes Using Essential Oils. Molecules 25(7):1752.
Crossref

Da Silva BD, Bernardes PC, Pinheiro PF, Fantuzzi E, Roberto CD (2021). Chemical composition, extraction sources and action mechanisms of essential oils: Natural preservative and limitations of use in meat products. Meat Science 176:108463.
Crossref

D'agostino M, Tesse N, Frippiat JP, Machouart M, Debourgogne A (2019). Essential Oils and Their Natural Active Compounds Presenting Antifungal Properties. Molecules 24(20):3713.
Crossref

Eliopoulos GM, Moellering RC (1991). Antimicrobial Combinations. In: Lorian V (Ed.), Antibiotics in Laboratory Medicine, the Williams & Wilkins Co., Baltimore, pp. 434-441.

Escalante A, Gattuso M, Pérez P, Zacchino S (2008). Evidence for the mechanism of action of the antifungal phytolaccoside B isolated from Phytolacca tetramera Hauman. Journal of Natural Products 71(10):1720-1725.
Crossref

Firacative C (2020). Invasive fungal disease in humans: are we aware of the real impact? Memórias do Instituto Oswaldo Cruz 115:e200430.
Crossref

Frost DJ, Brandt KD, Cugier D, Goldman R (1995). A whole-cell Candida albicans assay for the detection of inhibitors towards fungal cell wall synthesis and assembly. The Journal of antibiotics (Tokyo) 48(4):306-310.
Crossref

Fu Y, Zu Y, Chen L, Shi X, Wang Z, Sun S, Efferth T (2007). Antimicrobial activity of clove and rosemary essential oils alone and in combination. Phytotherapy research 21(10):989-994.
Crossref

Hadacek F, Greger H (2000). Testing of antifungal natural products: methodologies, comparatibility of results and assay choice. Phytochemical Analyses 11(3):137-147.
Crossref

Healey KR, Jimenez Ortigosa C, Shor E, Perlin DS (2016). Genetic Drivers of multidrug resistance in Candida glabrata. Frontiers in microbiology 7:1995.
Crossref

Houghton PJ, Howes MJ, Lee CC, Steventon G (2007). Uses and abuses of in vitro tests in ethnopharmacology: visualizing an elephant. Journal of Ethnopharmacology 110(3):391-400.
Crossref

Holetz FB, Homes MJ, Lee CC, steventon G (2002). Screening of some plants used in the Brazilian folk medicine for the treatment of infectious diseases. Memórias do Instituto Oswaldo Cruz 97(7):1027-1031.
Crossref

Hussain AI, Anwar F, Nigam PS, Sarker SD, Moore JE, Rao JR, Mazumdar A (2011) Antibacterial activity of some Lamiaceae essential oils using resazurin as an indicator of cell growth. LWT - Food Science Technology 44(4):1199-1206.
Crossref

Junren C, Xiaofang X, Mengting L, Qiuyun X, Gangmin L, Huiqiong Z, Guanru C, Xin X, Yanpeng Y, Fu P, Cheng P (2021). Pharmacological activities and mechanisms of action of Pogostemon cablin Benth: a review. Chinese medicine 16(1):1-20.
Crossref

Koneman EW, Allen SD, Janda WM, Schreckenberger MP, Winn Jr WC (2008). Diagnóstico Microbiológico. 6 ed. São Paulo: Médica e Científica Ltda P 1565.

Leyva-López N, Gutiérrez-Grijalva EP, Vazquez-Olivo G, Heredia JB (2017). Essential Oils of Oregano: Biological Activity beyond Their Antimicrobial Properties. Molecules 22(6):989.
Crossref

Lee Y, Puumala E, Robbins N, Cowen LE (2021). Antifungal Drug Resistance: Molecular Mechanisms in Candida albicans and Beyond. Chemical Reviews 121(6) :3390-3411.
Crossref

Lee HS, Kim Y (2016). Antifungal activity of Salvia miltiorrhiza against Candida albicans is associated with the alteration of membrane permeability and (1,3)-β-d-glucan synthase activity. Journal of Microbiology and Biotechnology 26(3):610-617.
Crossref

Lewis RE, Diekema DJ, Messer SA, Pfaller MA, Klepser ME (2002). Comparison of E-test, chequerboard dilution and time-kill studies for the detection of synergy or antagonism between antifungal agents tested against Candida species. Journal of Antimicrobial Chemotherapy 49(2):345-51.
Crossref

Murphy SE, Bicanic T (2021). Drug Resistance and Novel Therapeutic Approaches in Invasive Candidiasis. Frontiers in Cellular and Infection Microbiology 11:759408.
Crossref

McCarty TP, Pappas PG (2016). Invasive Candidiasis. Infectious Disease Clinics of North America 30(1):103-124.
Crossref

Mohammad H, Elghazawy NH, Eldesouky HE, Hegazy YA, Younis W, Avrimova L, Hazbun T, Arafa RK, Seleem MN (2018). Discovery of a Novel Dibromoquinoline Compound Exhibiting Potent Antifungal and

Antivirulence Activity That Targets Metal Ion Homeostasis. ACS infectious Diseases 4(3):403-414

Nazzaro F, Fratianni F, Coppola R, De Feo V (2017). Essential oils and antifungal activity. Pharmaceuticals 10(4):86. 
Crossref

Nishikawa JL, Boeszoermenyi A, Vale-Silva LA, Torelli R, Posteraro B, Sohn YJ, Ji F, Gelev V, Sanglard D, Sanguinetti M, Sadreyev RI, Mukherjee G, Bhyravabhotla J, Buhrlage SJ, Gray NS, Wagner G, Näär AM, Arthanari H (2016). Inhibiting fungal multidrug resistance by disrupting an activator-Mediator interaction. Nature 530(7591):485-489.
Crossref

Ncube N, Afolayan SAJ, Okoh AI. (2008) Assessment techniques of antimicrobial properties of natural compounds of plant origin: Current methods and future trends. African Journal of Biotechnology 7:1797-1806.
Crossref

Ostrosky EA, Mizumoto MK, Lima MEL, Kaneko TM, Nishikawa SO, Freitas BR (2008). Métodos para avaliação da atividade antimicrobiana de determinação de concentração mínima inibitória (CMI) de plantas medicinais. Revista Brasileira de Farmacognosia 18(2):301-307.
Crossref

Pham JV, Yilma MA, Feliz A, Majid MT, Maffetone N, Walker JR, Kim E, Cho HJ, Reynolds JM, Song MC, Park SR, Yoon YJ (2019). A Review of the Microbial Production of Bioactive Natural Products and Biologics. Frontiers in Microbiology 10:1404.
Crossref

Revie NM, Iyer KR, Robbins N, Cowen LE (2018). Antifungal drug resistance: evolution, mechanisms and impact. Current opinion in Microbiology 45:70-76.
Crossref

Swamy MK, Sinniah UR (2015). A Comprehensive Review on the Phytochemical Constituents and Pharmacological Activities of Pogostemon cablin Benth.: An Aromatic Medicinal Plant of Industrial Importance. Molecules 20(5):8521-8547.
Crossref

Sánchez-Torres P (2021). Molecular Mechanisms Underlying Fungicide Resistance in Citrus Postharvest Green Mold. Journal of Fungi 7(9):783.
Crossref

Sartoratto A, Machado ALM, Delarmelina C, Figueira GM, Duarte MCT, Rehder VLG (2004). Composition and antimicrobial activity of essential oils from aromatic plants used in Brazil. Brazilian Journal of Microbiology 35(4):275-280.
Crossref

Singh DK, Tóth R, Gácser A (2020). Mechanisms of Pathogenic Candida Species to Evade the Host Complement Attack. Frontiers in cellular and infection microbiology 10:94.
Crossref

Singh PK, Tack BF, McCray PB Jr, Welsh MJ (2000). Synergistic and additive killing by antimicrobial factors found in human airway surface liquid. American Journal of Physiology-Lung Cellular and Molecular Physiology 279(5):L799-L805.
Crossref

Tsay SV, Mu Y, Williams S, Epson E, Nadle J, Bamberg WM, Barter DM, Johnston HL, Farley MM, Harb S, Thomas S, Bonner LA, Harrison LH, Hollick R, Marceaux K, Mody RK, Pattee B, Shrum Davis S, Phipps EC, Tesini BL, Gellert AB, Zhang AY, Schaffner W, Hillis S, Ndi D, Graber CR, Jackson BR, Chiller T, Magill S, Vallabhaneni S (2020). Burden of Candidemia in the United States, 2017. Clinical Infectious Diseases 71(9):e449-e453.
Crossref

Whaley SG, Berkow EL, Rybak JM, Nishimoto AT, Barker KS, Rogers PD (2017). Azole Antifungal Resistance in Candida albicans and Emerging Non-albicans Candida Species. Frontiers in microbiology 7:2173.
Crossref

Zhou QM, Chen MH, Li XH, Peng C, Lin DS, Li XN, He Y, Xiong L (2018). Absolute Configurations and Bioactivities of Guaiane-Type Sesquiterpenoids Isolated from Pogostemon cablin. Journal of Natural Products 81(9):1919-1927.
Crossref