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Eugenia uniflora
|
Essential oil |
β - Elemene, Caryophyllene, D-Germacrene, Bicyclogermacrene, α-Bulnesene, Germacrene B, Selina-1,3,7(11)-trien-8-one, Germacrone, selina-1,3,7(11)-trien-8-one epoxide |
Antifungal activity and virulence inhibition against Candida albicans, C. tropicalis and C. krusei
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High concentrations of essential oil were required to obtain an antifungal effect, with no synergism on the combination with fluconazole - regardless, good results were obtained in relation to C. albicans and C. tropicalis
|
(Santos et al., 2018) |
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Lippia gracilis
|
Essential oil, and essential oil emulsions |
α-Thujene α-Pinene. Mircene, α Terpinene, p-Cimene, Limonene 1,8 Cineol, γ-Terpinene, Linalol, Terpinen-4-ol Metyl tymol, Tymol, Carvacrol, β-Cariofilene, α-Humulene, Viridiflorene, Biciclogermacrene, Espathulenol, Caryophyllene Oxide |
Antifungal activity of the oil and its nanoemulsions against Thielaviopis paradoxa
|
MIC was 0.23 ± 0.3 mg/mL, and MFC 0.80 ± 0.08 mg/mL, the fungicide potential was maintained at the nanoemulsion developed. |
(Cruz et al., 2018) |
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Lippia alba
|
Essential oil of leaves |
Marjority: 6-methy-5-hepten-2-one, nerol/geraniol, citral (neral/geranial), E-caryophyllene |
Antimicrobial activity (antifungal and antibacterial) against 16 microorganisms, and cytotoxic activity against cell lines B16F10Nex2, MCF-7, HUVEC, CT26WT, A549, MDA-MB-231, CACO 2, and CHO. |
Cytotoxic activity was observed in tumor cell lines B16F10Nex2 and A549. The essential oil showed activity in all yeasts strains, except C. albicans. |
(Santos et al., 2016) |
|
R. echinus Schauer |
Essential oil |
Marjority: β-Caryophyllene and bicyclogermacrene |
Antifungical activity against Candida albicans, C. krusei and tropicalis, and E. coli,
|
The essential oil itself was not relevant for clinical use, but it showed capability to enhance antibacterial and antifungal activity of nystatin and fluconazole. |
(Duarte et al., 2016) |
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Eremanthus arboreus
|
Essential oils |
Main component: α-Bisabolol |
Chemical composition and literature review of its antimicrobial activities |
As the main component of the essential oil, is α-Bisabolol, it has pharmaceutical potential to present antimicrobial, larvicide, anti-inflammatory and antinociceptive. |
(Macedo et al., 2020) |
|
Lippia gracilis
|
Leaves/hydrodistilled |
Carvacrol, thymol |
Antifungal activity |
The biomass formation of the F. oxysporum biofilm was inhibited completely at essential oils concentrations ranging from 0.3125 to 10 mg ml−1 . |
(Oliveira et al., 2021) |
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Lippia sidoides, Lippia gracilis
|
Leaves/hydrodistillation |
Thymol, carvacrol |
Antifungal activity |
At concentrations of 0.3 µL mL-1, both the essential oils of L. gracilis and L. sidoides inhibited 100% mycelial growth of Colletotrichum sp.
|
(Araújo et al., 2018) |
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Eugenia uniflora L. |
Leaves/hydro-distillation |
Mono- and sesquiterpenes |
Antifungal activity and potential anti-virulence |
The concentration that reduced microorganismal growth was ≥8,192 μg/mL while the IC50 varied, this being between 1892.47 and 12491.80 μg/ mL (oil), 10.07 – 80.78 μg/mL (fluconazole) and 18.53 – 295.60 μg/mL (fluconazole + oil). 295.60 μg/mL (fluconazole + oil). |
(Santos et al., 2018) |
|
Lippia alba (Mill.) N.E.Br. ex Britton & P. Wilson (Verbenaceae) |
Leaves/hydro-distillation |
Linalool, trans-ocimenone and caryophyllene oxide |
Antifungal activity |
The essential oils showed antifungal activity, mainly against S. slerotiorum, a fungi species related with diseases in soybean plants, with 100% of growth inhibition. |
(Arruda et al., 2019) |
|
Croton tricolor
|
Stems/hydrodistillation |
Epiglobulol, α-bisabolol, α-trans-bergamotol and β-caryophyllene. |
Antifungal activity |
Essential oils concentrations from 1.0 to 1024 μg/mL inhibited the growth of all tested strains, |
(Miranda et al., 2019) |
|
Nectandra, and Ocotea genera |
Seeds, leaves, stem barks, and twigs/ hydrodistillation |
β-caryophyllene, germacrene D, bicyclogermacrene, caryophyllene oxide, α-bisabolol, bicyclogermacrenal, phenylpropanoids, safrole, 6-methoxyelemicin, apiole, limonene, α-pinene, β-pinene, 1,8-cineole, and camphor. |
Antimicrobial activity |
Several biological activities have been attributed to these oils, especially cytotoxic, antioxidant and antifungal potential, among other pharmacological applications. |
(Xavier et al., 2020) |
|
Mentha piperita L. |
Essential oils, and citral and limonene |
The chemical nature of the essential oils were not studied. Citral and Limonene. |
Screening and selection the best product with antifungal activity against C. albicans strains isolated from dental prostheses |
Of all essential oils and molecules, citral presented the best antifungal activity, against strains nystatin resistant |
(Freire et al., 2017) |
|
Algrizea minor
|
The essential oil was extracted by hydrodistillation of the leaves |
b-Pinene and a-Pinene (monoterpene) |
The antimicrobial activity of Algrizea minor essential oil, which contains as main constituents b-Pinene and a-Pinene |
Candida albicans ATCC 10231 (500 mg/mL) and Candida glabrata ATCC 15126 (1000 mg/mL) |
(Veras et al., 2020) |
|
Schinus terebinthifolia
|
Essential oils from leaves by hydrodistillation |
Terpenes |
Antichemotactic and Antifungal Action of the Essential Oils from Cryptocarya aschersoniana, Schinus terebinthifolia, and Cinnamomum amoenum
|
Resulting in MIC ranging from 125 μg/mL to over 500 μg/mL. C. aschersoniana oil inhibited the growth of species of the genera Trichophyton and Microsporum and combined terbinafine resulted in an additive interaction effect |
(Maciel et al., 2019) |
|
Eugenia uniflora
|
Leaves extract |
Terpenes |
Antifungal potential of plant species from brazilian caatinga against. Dermatophytes. |
An inhibitory effect on dermatophytes growth was observed for essential oil from leaves of E. uniflora cultivated in the Brazilian cerrado for AcE of E. uniflora, which exhibited moderate activity against most clinical isolates (MIC90 of 125.0 µg/mL) |
(Biasi-Garbin et al., 2016) |
Antifungal activity of terpenes isolated from the Brazilian Caatinga: a review
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