References
- Alexander JO. (1984). Arthropods and human skin. Springer-Verlag, 50–5.
- Al-Mahallawi AM, Fares AR, Abd-Elsalam WH. (2019). Enhanced permeation of methotrexate via loading into ultra-permeable niosomal vesicles: fabrication, statistical optimization, ex vivo studies, and in vivo skin deposition and tolerability. AAPS PharmSciTech 20:171.
- Amiri-Rigi A, Abbasi S. (2019). Extraction of lycopene using a lecithin-based olive oil microemulsion. Food Chem 272:568–73.
- Benbow T, Campbell J. (2019). Microemulsions as transdermal drug delivery systems for nonsteroidal anti-inflammatory drugs (NSAIDs): a literature review. Drug Dev Ind Pharm 45:1849–55.
- Berthet A, Oltramare C, Spring P, et al. (2020). Human skin permeation rates ex vivo following exposures to mixtures of glycol ethers. Toxicol Lett 335:1–10.
- Brand C, Townley SL, Finlay-Jones JJ, Hart PH. (2002). Tea tree oil reduces histamine induced oedema in murine ears. Inflamm Res 51:283–9.
- Das S, Lee SH, Chia VD, et al. (2020). Development of microemulsion based topical ivermectin formulations: pre-formulation and formulation studies. Colloids Surf B Biointerfaces 189:110823.
- Das S, Ng S, Tan RB. (2012). Development and in vitro evaluations of a lipid nanoparticle formulation containing tretinoin. In: Tiddy G, Tan RBH, eds. Nano formulation. London (UK): RSC, 38–52.
- Farghaly DA, Aboelwafa AA, Hamza MY, Mohamed MI. (2018). Microemulsion for topical delivery of fenoprofen calcium: in vitro and in vivo evaluation. J Liposome Res 28:126–36.
- Froelich A, Osmałek T, Snela A, et al. (2017). Novel microemulsion-based gels for topical delivery of indomethacin: formulation, physicochemical properties and in vitro drug release studies. J Colloid Interface Sci 507:323–36.
- Golwala P, Rathod S, Patil R, et al. (2020). Effect of cosurfactant addition on phase behavior and microstructure of a water dilutable microemulsion. Colloids Surf B Biointerfaces 186:110736.
- Hadaś E, Derda M, Cholewiński M. (2017). Evaluation of the effectiveness of tea tree oil in treatment of Acanthamoeba infection. Parasitol Res 116:997–1001.
- Kim KT, Lee JY, Park JH, et al. (2017). Capmul MCM/Solutol HS15-based microemulsion for enhanced oral bioavailability of rebamipide. J Nanosci Nanotechnol 17:2340–4.
- Mila-Kierzenkowska C, Woźniak A, Krzyżyńska-Malinowska E, et al. (2017). Comparative efficacy of topical permethrin, crotamiton and sulfur ointment in treatment of scabies. J Arthropod Borne Dis 11:1–9.
- Radwan SAA, El Meshad AN, Shoukri RA. (2017). Microemulsion loaded hydrogel as a promising vehicle for dermal delivery of the antifungal sertaconazole: design, optimization and ex vivo evaluation. Drug Dev Ind Pharm 43:1351–65.
- Shaker DS, Ishak RAH, Elhuoni MA, Ghoneim AM. (2020). Boosting transdermal delivery of atorvastatin calcium via o/w nanoemulsifying system: two-step optimization, ex vivo and in vivo evaluation. Int J Pharm 578:119073.
- Tabosa MAM, de Andrade ARB, Lira AAM, et al. (2018). Microemulsion formulations for the transdermal delivery of lapachol. AAPS PharmSciTech 19:1837–46.
- Tian Q, Guo J, Zhang Q, et al. (2020). Development and evaluation of cucurbitacin B microemulsion: the effect of oil phase and aqueous phase on drug percutaneous absorption based on ATR-FTIR spectroscopy and molecular modeling. AAPS PharmSciTech 21:258.
- Tighe S, Gao YY, Tseng SCG. (2013). Terpinen-4-ol is the most active ingredient of tea tree oil to kill demodex mites. Trans Vis Sci Technol 2:2–8.
- Zhang Y, Zhang K, Wang Z, et al. (2019). Transcutol P/Cremophor EL/ethyl oleate-formulated microemulsion loaded into hyaluronic acid-based hydrogel for improved transdermal delivery and biosafety of ibuprofen. AAPS PharmSciTech 21:22.