- Ambrose D.C.P., Manickavasagan A, Naik R. Leafy Medicinal Herbs: Botany, Chemistry, Postharvest Technology and Uses. CABI; 2016:xiii + 282 pp.
- Orellana-Paucar A.M. Steviol Glycosides from Stevia rebaudiana: An Updated Overview of Their Sweetening Activity, Pharmacological Properties, and Safety Aspects. Molecules. 2023;28(3):1258.
- Baser K.H.C., Buchbauer G. Handbook of Essential Oils: Science, Technology, and Applications. CRC Press; 2020.
- Padalia R.C., Verma D.K., Arora C., Mahish P.K. Essential Oils: Sources, Production and Applications. Walter de Gruyter GmbH & Co KG; 2023.
- Aggarwal S., Agarwal S., Jalhan S. Essential oils as novel human skin penetration enhancer for transdermal drug delivery: A review. Int. J. Pharm. Biol. Sci. 2013;4(1):857-868.
- Costa M.F., Durço A.O., Rabelo T.K., Barreto R. de S.S., Guimarães A.G. Effects of Carvacrol, Thymol and essential oils containing such monoterpenes on wound healing: a systematic review. J. Pharm. Pharmacol. 2019;71(2):141-155.
- Arooj B., Asghar S., Saleem M., Khalid S.H., Asif M., Chohan T., Khan I.U., Zubair H.M., Yaseen H.S. Anti-inflammatory mechanisms of eucalyptol rich Eucalyptus globulus essential oil alone and in combination with flurbiprofen. Inflammopharmacology. 2023;31(4):1849-1862.
- Koyama S., Purk A., Kaur M., Soini H.A., Novotny M.V., Davis K., Kao C.C., Matsunami H., Mescher A. Beta-caryophyllene enhances wound healing through multiple routes. PloS One. 2019;14(12):e0216104.
- Mohamad Zen N.I., Zaidan U.H., Abd Gani S.S., Shamsi S., Halmi M.I.E. Essential Oil Constituents Assessment and Antioxidant Profiles of Stevia rebaudiana Bertoni Leaves from Malaysia. Malays. Appl. Biol. 2019;48:55-62.
- Zaidan U.H., Hamid S.N.M., Mat Yusof M.F., Ahmad S., Shamsi S. Chemical Evaluation And Antioxidant Properties of Extracts and Essential Oil from Stevia rebaudiana Leaves. Malays Appl Biol. 2018;47(2):15-23.
- Ghiulai R., Roşca O.J., Antal D.S., Mioc M., Mioc A., Racoviceanu R., Macaşoi I., Olariu T., Dehelean C., Creţu O.M., Voicu M., Şoica C. Tetracyclic and Pentacyclic Triterpenes with High Therapeutic Efficiency in Wound Healing Approaches. Molecules. 2020;25(23):5557. doi:10.3390/molecules25235557
- Bensouilah J., Buck P. Aromadermatology: Aromatherapy in the Treatment and Care of Common Skin Conditions. Routledge; 2021.
- Aslantürk Ö.S. In Vitro Cytotoxicity and Cell Viability Assays: Principles, Advantages, and Disadvantages. In: Genotoxicity - A Predictable Risk to Our Actual World. InTech; 2018. doi:10.5772/intechopen.71923
- Muanda F.N., Soulimani R., Diop B., Dicko A. Study on chemical composition and biological activities of essential oil and extracts from Stevia rebaudiana Bertoni leaves. LWT - Food Sci. Technol. 2011;44(9):1865-1872. doi:10.1016/j.lwt.2010.12.002
- Ericsson H.M., Sherris J.C. Antibiotic sensitivity testing. Report of an international collaborative study. Acta Pathol. Microbiol. Scand. [B] Microbiol. Immunol. 1971;217:Suppl 217:1+-Suppl 217:1+.
- Li Z.H., Cai M., Liu Y.S., Sun P.L., Luo S.L. Antibacterial Activity and Mechanisms of Essential Oil from Citrus medica L. Var. Sarcodactylis. Molecules. 2019;24(8).
- Chan L.L.Y., Rice W.L., Qiu J. Observation and quantification of the morphological effect of trypan blue rupturing dead or dying cells. PLoS One. 2020;15(1).
- Babakhanova G., Zimmerman S.M., Pierce L.T., Sarkar S., Schaub N.J., Simon C.G.Jr. Quantitative, traceable determination of cell viability using absorbance microscopy. PLoS One. 2022;17(1):e0262119.
- Kamiloglu S., Sari G., Ozdal T., Capanoglu E. Guidelines for cell viability assays. Food Front. 2020;1(3):332-349.
- Demetzos C., Pippa N. Thermodynamics and Biophysics of Biomedical Nanosystems: Applications and Practical Considerations. Springer; 2019.
- International Standard I. ISO 10993-5:2009 - Biological evaluation of medical devices- Part 5: Tests for in vitro cytotoxicity. Published online 2009.
- Toiu A., Mocan A., Vlase L., Pârvu A.E., Vodnar D.C., Gheldiu A.M., Moldovan C., Oniga I. Phytochemical Composition, Antioxidant, Antimicrobial and in vivo Anti-inflammatory Activity of Traditionally Used Romanian Ajuga laxmannii (Murray) Benth. ("Nobleman's Beard" - Barba Împăratului). Front. Pharmacol. 2018;9(MAR):7-7.
- Malik S., ed. Essential Oil Research: Trends in Biosynthesis, Analytics, Industrial Applications and Biotechnological Production. Springer, 2019.
- Benevides Bahiense J., Marques F.M., Figueira M.M., Vargas T.S., Kondratyuk T.P., Endringer D.C., Scherer R., Fronza M. Potential anti-inflammatory, antioxidant and antimicrobial activities of Sambucus australis. Pharm. Biol. 2017;55(1):991-997.
- Pinto R., Antunes F., Pires J., Silva-Herdade A., Pinto M.L. A Comparison of Different Approaches to Quantify Nitric Oxide Release from NO-Releasing Materials in Relevant Biological Media. Molecules. 2020;25(11):2580. doi:10.3390/molecules25112580
- Domb A.J., Kunduru K.R., Farah S. Antimicrobial Materials for Biomedical Applications. Royal Society of Chemistry; 2019.
- Sateriale D., Forgione G., De Cristofaro G.A., Facchiano S., Boscaino F., Pagliuca C., Colicchio R., Salvatore P., Paolucci M., Pagliarulo C. Towards Green Strategies of Food Security: Antibacterial Synergy of Essential Oils from Thymus vulgaris and Syzygium aromaticum to Inhibit Escherichia coli and Staphylococcus aureus Pathogenic Food Isolates. Microorganisms. 2022;10(12):2446.
- Zaidan U. H., Mohamad Zen N.I., Amran N.A., Shamsi S., Abd Gani S.S. Biochemical evaluation of phenolic compounds and steviol glycoside from Stevia rebaudiana extracts associated with in vitro antidiabetic potential. Biocatal. Agric. Biotechnol. 2019;18:101049-101049.
- Liu K., Zhang X., Xie L., Deng M., Chen H., Song J., Long J., Li X., Luo J. Lupeol and its derivatives as anticancer and anti-inflammatory agents: Molecular mechanisms and therapeutic efficacy. Pharmacol. Res. 2021;164:10537.
- Pawar S., Bhane P., Jha U. Review on Betel Pepper Leaf for Anti Inflammatory Activity. World J. Pharm. Res. 2021;11(2):1196-1208.
- Barboza J.N., da Silva Maia Bezerra Filho C., Silva R.O., Medeiros J.V.R., de Sousa D.P. An Overview on the Anti-inflammatory Potential and Antioxidant Profile of Eugenol. Oxid. Med. Cell. Longev. 2018;2018:3957262.
- Miguel M.G. Antioxidant and anti-inflammatory activities of essential oils: A short review. Molecules. 2010;15(12):9252-9287.
- Lis-Balchin M. Aromatherapy Science: A Guide for Healthcare Professionals. 1st ed. Pharmaceutical Press; 2006:446. doi:10.1111/j.2042-7166.2006.tb04705.x
- Valerio F., Mezzapesa G.N., Ghannouchi A., Mondelli D., Logrieco A.F., Perrino E.V. Characterization and Antimicrobial Properties of Essential Oils from Four Wild Taxa of Lamiaceae Family Growing in Apulia. Agronomy. 2021;11(7):1431.
- Tran V.T., Nguyen T.B., Nguyen H.C., Do N.H.N., Le P.K. Recent applications of natural bioactive compounds from Piper betle (L.) leaves in food preservation. Food Control. 2023;154:110026.
- Andrade-Ochoa S., Chacón-Vargas K.F., Sánchez-Torres L.E., Rivera-Chavira B.E., Nogueda-Torres B., Nevárez-Moorillón G.V. Differential Antimicrobial Effect of Essential Oils and Their Main Components: Insights Based on the Cell Membrane and External Structure. Membranes. 2021;11(6):405. doi:10.3390/membranes11060405
- Byrd A.L., Belkaid Y., Segre J.A. The human skin microbiome. Nat. Rev. Microbiol. 2018;16(3):143-155.
- Hernandez-Valdes J.A., Zhou L., de Vries M.P., Kuipers O.P. Impact of spatial proximity on territoriality among human skin bacteria. NPJ Biofilms Microbiomes. 2020;6(1):1-13.
- Patterson J.E., McElmeel L., Wiederhold N. P. In Vitro Activity of Essential Oils Against Gram-Positive and Gram-Negative Clinical Isolates, Including Carbapenem-Resistant Enterobacteriaceae. Open Forum Infect Dis. 2019;6(12): ofz502.
|