References
- Bua A, Usai D, Donadu MG, Delgado Ospina J, Paparella A, Chaves-Lopez C, Serio A, Rossi C, Zanetti S, Molicotti P. 2018. Antimicrobial activity of Austroeupatorium inulaefolium (HBK) against intracellular and extracellular organisms. Nat Prod Res. 32(23):2869–2871.
- Campoy S, Adrio LJ. 2017. Antifungals. Biochem Pharmacol. 133(1):86–96.
- Costa M, Silva A, Silva A, Lima V, Bezerra-Silva P, Rocha S, Navarro D, Correia M, Napoleão T, Silva M, et al. 2017. Essential oils from leaves of medicinal plants of Brazilian flora: chemical composition and activity against Candida Species. Medicines. 4(2):27–28.
- Donadu MG, Usai D, Marchetti M, Usai M, Mazzarello V, Molicotti P, Montesu MA, Delogu G, Zanetti S. 2019. Antifungal activity of oils macerates of North Sardinia plants against Candida species isolated from clinical patients with candidiasis. Nat Prod Res. 24:1–5.
- de Sousa Eduardo L, Farias TC, Ferreira SB, Ferreira PB, Lima ZN, Ferreira SB. 2018. Antibacterial activity and time-kill kinetics of positive enantiomer of α-pinene against strains of Staphylococcus aureus and Escherichia coli. Curr Top Med Chem. 18(11):917–924.
- Him A, Ozbek H, Turel I, Oner CA. 2008. Antinociceptive activity of alpha-pinene and fenchone. Pharmacologyonline. 3:363–369.
- Monika S. 2020. Virulence factors in Candida species. Curr Protein Pept Sci. 21(3):313–323.
- Satish HS, Viswanatha B, Manjuladevi MA. 2013. Clinical study of otomycosis. IOSR-JDMS. 5(2):57–62.
- Satou T, Kasuya H, Maeda K, Koike K. 2014. Daily inhalation of α-pinene in mice: effects on behavior and organ accumulation . Phytother Res. 28(9):1284–1287.