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Expert Opinion on Drug Delivery Volume 5, 2008 - Issue 1
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Review

Microemulsions as novel drug carriers: the formation, stability, applications and toxicity

H Yesim Karasulu University of Ege, Department of Pharmaceutical Technology, Faculty of Pharmacy, 35100 Bornova, Izmir, Turkey [email protected]
Pages 119-135 | Published online: 21 Dec 2007

Bibliography

  • Hoar TP, Schulman JH. Transparent water-in-oil dispersions: the oleopathic hydro-micelle. Nature 1943;152:102-3
  • Lawrence MJ, Rees GD. Microemulsion-based media as novel drug delivery systems. Adv Drug Del Rev 2000;45:89-121
  • Moulik SP, Paul BK. Structure: dynamics and transport properties of microemulsions. Adv Colloid Interface Sci 1998;78:99-195
  • Schwuger MJ, Stickdorn K. Microemulsions in technical processes. Chem Rev 1995;95:849-64
  • Attwood D. Microemulsions. In: Colloidal Drug Delivery Systems. Kreuter J, editor. New York: Marcel Dekker; 1994. p. 31-71
  • Tenjarla S. An overview and pharmaceutical applications. Crit Rev Ther Drug Carrier Syst 1999;16:461-521
  • Warisnoicharoen W, Lansley AB, Lawrence MJ. Nonionic oil in water microemulsions: the effect of oil type on phase behavior. Int J Pharm 2000;198:7-27
  • Ceigle A, Das KP, Lindman B. Microemulsion structure in four-component systems for different surfactants. Colloids Surf 1987;28:29-40
  • De Gennes PG, Taupin C. Microemulsions and flexibility of oil/water interfaces. J Phys Chem 1982;86:2294-304
  • Watari H. Microemulsions in separation sciences. J Chromatogr A 1997;780:93-102
  • Atwood D, Mallon C, Ktistis G, Taylor JC. A study on factors influencing the droplet size in non-ionic oil in water microemulsions. Int J Pharm 1992;88:417-22
  • Taha MO, Al-Ghazawi M, Abu-Amara H, Khalil E. Development of quantitative structure–property relationship models for pseudoternary microemulsions formulated with nonionic surfactants and cosurfactants: application of data mining and molecular modeling. Eur J Pharm Sci 2002;15:461-78
  • Kawakami K, Yoshikawa T, Moroto Y, et al. Microemulsion formulation for enhanced absorption of poorly soluble drugs. I. Prescription design. J Control Rel 2002;81:65-74
  • Wu W, Wang Y, Que L. Enhanced bioavailability of silymarin by self-microemulsifying drug delivery system. Eur J Pharm Biopharm 2006;63:288-94
  • Gershanika T, Benita S. Self-dispersing lipid formulations for improving oral absorption of lipophilic drugs. Eur J Pharm Biopharm 2000;50:179-88
  • Kim C-H, Cho Y-J, Gao Z-G. Preparation and evaluation of biphenyl dimethyl dicarboxylate microemulsion for oral delivery. J Control Rel 2001;70:149-55
  • Danielsson I, Lindman B. The definition of microemulsion. Colloids Surf A 1981;3:391-3
  • Schulman JH, Stoeckenius W, Prince LM. Mechanism of formation and structure of microemulsions by electron microscopy. J Phys Chem 1959;63:1677-80
  • Prince LM. A theory of aqueous emulsion. I. Negative interfacial tension at the oil/water interface. J Colloid Interface Sci 1967;23:165-73
  • Constantinides PP, Scalart J-P. Formulation and physical characterization of water-in-oil microemulsions containing long-versus medium-chain glycerides. Int J Pharm 1997;158:57-68
  • Muller-Goymann CC, Hamann H-J. Sustained release from reverse micellar solutions by phase transformations into lamellar liquid crystals. J Control Rel 1993;23:165-74
  • Trotta M, Gasco MR, Pattarino F. Diffusion of steroid hormones from o/w microemulsions: influence of the cosurfactant. Acta Pharm Technol 1990;36:226-31
  • Acosta E, Kurlat DH, Bisceglia M, et al. Indused electric birefringence and viscosity studies in microemulsions. Collids Surf A Physicochem Eng Aspects 1996;106:11-21
  • Aboofazeli R, Lawrence CB, Wicks SR, Lawrence MJ. investigations into the formation and characterization of phospholipid microemulsions. III. Pseudo-ternary phase diagrams of systems containing water-lecithin-isopropyl myristate and either an alkanoic acid, amine, alkanediol, polyethylene glycol alkyl ether or alcohol as cosurfactant. Int J Pharm 1994;111:63-72
  • Aboofazeli R, Lawrence CB, Wicks SR, Lawrence MJ. Investigations into the formation and characterization of phospholipid microemulsions. IV. Pseudo-ternary phase diagrams of systems containing water-lecithin-alcohol and oil; the influence of oil. Int J Pharm 1995;125:63-72
  • Kale NJ, Alen LV. Studies on microemulsion using Brij 96 as surfactant and glycerin, ethylene glycol and propylene glycol as co-surfactants. Int J Pharm 1989;57:87-93
  • Kantarci G. Karasulu HY, Ozgüney I, Güneri T. Phase behaviour of microemulsion systems containing short-chain alcohols as co-surfactant. Acta Pharm Turcica 2002;44:77-85
  • Sintov AC, Shapiro L. New microemulsion vehicle facilitates percutaneous penetration in vitro and cutaneous drug bioavailability in vivo. J Control Rel 2004;95:173-83
  • Alany RG, Rades T, Nicoll J, Tucker IG, Davies NM. w/o microemulsions for ocular delivery: evaluation of ocular irritation andprecorneal retention. J Control Rel 2006;111:145-52
  • Pouton CW. Lipid formulations for oral administration of drugs: non-emulsifying, self-emulsifying and self-microemulsfying drug delivery systems. Eur J Pharm Sci 2000;11:93-98
  • Porter CJH, Kaukonen AM, Boyd BJ, Edwards GA, Charman WN. Susceptibility to lipase-mediated digestion reduces the oral bioavailability of danazol after administration as a medium chain lipid-based microemulsion formulation. Pharm Res 2004;21:1405-12
  • Osborne DW, Middleton CA, Rogers RL. Alcohol-free microemulsions. J Disper Sci Tech 1988;9:415-23
  • Karasulu HY, Karabulut B, Goker E, Guneri T, Gabor F. Controlled release of methotrexate from w/o microemulsion and its in vitro anti-tumor activity. Drug Deliv 2007;14:225-33
  • Ege MA, Karasulu HY, Guneri T. Triangle phase diagram analysis software. Acta Pharmaceutica Turcica (The 4th International Postgraduate Research Symposium on Pharmaceutics. Istanbul, Turkey). 2004;46:36
  • Kreilgaard M. Influence of microemulsions on cutaneous drug delivery. Adv Drug Del Rev 2002;54:S77-S98
  • Calfors J, Blute I, Schmidt V. Lidocaine in microemulsion-dermal delivery system. J Disper Sci Tech 1991;12:467-82
  • Goddeeris C, Cuppo F, Reynaers H, et al. Light scattering measurements on microemulsions: estimation of droplet sizes. Int J Pharm 2006;31:187-95
  • Uskoković V, Drofenik M, Ban I. The characterization of nanosized nickel-zinc ferrites synthesized within reverse micelles of CTAB/1–hexanol/water microemulsion. J Magnetism Magnetic Materials 2004;284:294-302
  • Aikawa K, Kaneko K, Tamura T, Fujitsu M, Ohbu K. Formation of fractal porous silica by hydrolysis of TEOS in a bicontinuous microemulsion. Coll Surf A Physicochem Eng Aspects 1999;150:95-104
  • Mohapatra P, Mishra T, Parida KM. Effect of microemulsion composition on textural and photocatalytic activity of titania nanomaterial. Appl Catalysis A General 2006;310:183-9
  • Tomšič M, Bešter-Rogač M, Jamnik A, et al. Ternary systems of nonionic surfactant Brij 35, water and various simple alcohols: Structural investigations by small-angle X-ray scattering and dynamic light scattering. J Coll Interface Sci 2006;294:194-211
  • Kantarci G, Ozgungey I, Karasulu HY, Guneri T, Basdemir G. In vitro permeation of diclofenac sodium from novel microemulsion formulations through rabbit skin. Drug Dev Res 2005;65:17-25
  • Charman SA, Charman WN, Rogge MC, et al. Self-emulsifying drug delivery systems: Formulation and biopharmaceutical evaluation of an investigational lipophilic compound. Pharm Res 1992;9:87-93
  • Tarr BD, Yalkowsky SH. Enhanced intestinal absorption of cyclosporine in rats through the reduction of emulsion droplet size. Pharm Res 1989;6:40-3
  • Ozguney (Sarigullu) I, Karasulu HY, Kantarci G, et al. Transdermal delivery of diclofenac sodium through rat skin from various formulations. AAPS Pharm Sci Tech 2006;7:88-94
  • Park KM, Kim CH. Preparation and evaluation of flurbiprofen-loaded microemulsion for parenteral delivery. Int J Pharm 1999;181:173-9
  • Lam AC, Schechter RS. The theory of diffusion in microemulsion. J Coll Interface Sci 1987;120:56-63
  • Zhao X-Y, Xu J, Zheng L-Q, Livisk X-W. Preparation of temperature-sensitive microemulsion-based gels formed from a triblock copolymer. Coll Surf A Physicochem Eng Aspects 2007;307:100-7
  • Karasulu HY, Karabulut B, Kantarci G, et al. Preparation of arsenic trioxide loaded microemulsion and its enhanced cytotoxicity on MCF-7 breast carcinoma cell line. Drug Deliv 2004;11:345-50
  • Fanun M. Conductivity, viscosity, NMR and diclofenac solubilization capacity studies of mixed nonionic surfactants microemulsions. J Mol Liquids 2007;135:5-13
  • Mo C, Li X. Microstructure and structural transition in coconut oil microemulsion using semidifferential electroanalysis. J Coll Interface Sci 2007;312:355-62
  • Shrestha S, Yeung CMY, Nunnerley C, Tsang SC. Comparison of morphology and electrical conductivity of various thin films containing nano-crystalline praseodymium oxide particles. Sensors Actuators A Physical 2007;136:191-8
  • Kantarci G, Ozguney (Sarigullu) I, Karasulu Hy, Arzil S, Guneri T. Comparison of different w/o microemulsions contain diclofenac sodium; preparation, characterization, release rate and skin irritation studies. AAPS Pharm Sci Tech In Press
  • Sorichetti PA, Matteo CL. Low-frequency dielectric measurements of complex fluids usinghigh-frequency coaxial sample cells. Measurement 2007;40:437-49
  • Letamendia L, Louisor E, Pru-Lestret E, et al. Relaxation phenomena in critical microemulsion systems. Coll Surf A Physicochem Eng Aspects 1998;140:289-93
  • Ezrahi S, Wachtel E, Aserin A, Garti N. Structural polymorphism in a four-component nonionic microemulsion. J Coll Interface Sci 1997;191:277-90
  • Weigert S, Eicke H-F, Meier W. Electric conductivity near the percolation transition of a nonionic water-in-oil microemulsion. Physica A 1997;242:95-103
  • Paul BK, Moulik SP. Microemulsions; an overview. J Dispers Sci Tech 1997;18:301-67
  • Chan J, El Maghraby GMM, Craig JP, Alany RG. Phase transition water-in-oil microemulsions as ocular drug delivery systems: in vitro and in vivo evaluation. Int J Pharm 2007;328:65-71
  • Alany RG, Tucker IG, Davies NM, Rades T. Characterizing colloidal structures of pseudoternary phase diagrams formed by oil/water/amphiphile systems. Drug Devel Ind Pharm 2001;27:31-8
  • David G, Ozer F, Simionescu BC, Zareie H, Piskin E. Microemulsion photopolymerization of methacrylates stabilized with sodium dodecyl sulfate and poly(N-acetylethylenimine) macromonomers. Eur Polym J 2002;38:73-8
  • Seto H, Nagao M, Kawabata Y. Pressure-dependence of the bending modulus of surfactant monolayers in ternary microemulsion systems observed by neutron spin echo. Coll Surf A Physicochem Eng Aspects 2006;284-285:430-3
  • Farago B. Neutron spin echo study of well organized soft matter systems Physica B Condensed Matter 2006;385-386:688-91
  • Libster D, Aserin A, Garti N. A novel dispersion method comprising a nucleating agent solubilized in a microemulsion, in polymeric matrix. II. Microemulsion characterization. J Coll Interface Sci 2006;302:322-9
  • Pal A, Shah S, Devi S. Preparation of silver, gold and silver–gold bimetallic nanoparticles in w/o microemulsion containing TritonX-100. Coll Surf A Physicochem Eng Aspects 2007;302:483-7
  • Frielinghaus H, Maccarrone S, Byelov D, et al. SANS studies of confined diblock copolymers in microemulsions. Physica B Condensed Matter 2006;385-386:738-41
  • Hellweg T. Phase structures of microemulsions. Curr Opin Coll Interface Sci 2002;7:50-56
  • Sha X, Yan G, Wu Y, Li J, Fang X. Effect of self-microemulsifying drug delivery systems containing labrosol on tight junctions in Caco-2 cells. Eur J Pharm Sci 2005;24:477-86
  • Lv F-F, Li N, Zheng L-Q, Tung C-H. Studies on the stability of the chloramphenicol in the microemulsion free of alcohols. Eur J Pharm Biopharm 2006;62:288-94
  • Kreilgaard M, Pedersen EJ, Jaroszewski JW. NMR characterization and transdermal drug delivery potential of microemulsion systems. J Control Rel 2000;69:421-33
  • Soderman O, Nyden M. NMR in microemulsions. NMR translational diffusion studies of a model microemulsion. Coll Surf A Physicochem Eng Aspects 1999;158:273-89
  • Barolli B, Lopes-Quintela MA, Delgado-Charro MB, Fadda AM, Blanco-Mendes J. Microemulsiona for topical delivery of 8-methosalen. J Control Rel 2000;69:209-18
  • Trotta M, Gasco MR, Morel S. Release of drugs from oil-water microemulsions. J Control Rel 1989;10:237-43
  • Araya H, Tomita M, Hayashi M. The novel formulation design of o/w microemulsion for improving the gastrointestinal absorption of poorly water soluble compounds. Int J Pharm 2005;305:61-74
  • Yuan Y, Li S-M, Mo F-K, Zhong DF. investigation of microemulsion system for transdermal delivery of meloxicam. Int J Pharm 2006;321:117-23
  • Kawakami K, Yoshikawa T, Hayashi T, et al. Microemulsion formulation for enhanced absorption of poorly soluble drugs. II. In vivo. J Control Rel 2002;81:75-82
  • Ke W-T, Lin S-Y, Ho H-O Sheu M-T. Physical characterizations of microemulsion systems using tocopheryl polyethylene glycol 1000 succinate (TPGS) as a surfactant for the oral delivery of protein drugs. J Control Rel 2005;102:489-50
  • Wang CH, Ko WJ, Chou NK, Wang SS. Efficacy and safety of tacrolimus versus cyclosporine microemulsion in primary cardiac transplant recipients: 6-month results in Taiwan. Transplant Proc 2004;36:2384-5
  • Lucangioli SE, Kenndler E, Carlucci A, et al. Relation between retention factors of immunosuppressive drugs in microemulsion electrokinetic chromatography with biosurfactants and octanol–water partition coefficients. J Pharm Biomed Anal 2003;33:871-87
  • Pally C, Tanner M, Rizvi H, Papageorgiou C, Schuurman H-J. Tolerability profile of sodium mycophenolate (ERL080) and mycophenolate mofetil with and without cyclosporine (Neoral) in the rat. Toxicology 2001;157:207-15
  • Cibulskyte D, Pedersen M, Hjelm-Poulsen J, et al. The pharmacokinetics and acute renal effects of oral microemulsion cyclosporin A in normal pigs. Int Immunopharmacol 2006;6:627-34
  • Margreiter R. Efficacy and safety of tacrolimus compared with ciclosporin microemulsion in renal transplantation: a randomised multicentre study. Lancet 2002;359:741-6
  • Cilek A, Çelebi N, Tirnaksiz F, Tay A. A lecithin-based microemulsion of rh-insulin with aprotinin for oral administration: investigation of hypoglycemic effects in non-diabetic and STZ-induced diabetic rats. Int J Pharm 2005;298:176-85
  • Celebi N, Turkyilmaz A, Gonul B, Ozogul C. Effects of epidermal growth factor microemulsion formulation on the healing of stress-indused gastric ulcers in rats. J Control Rel 2002;83:197-210
  • Kim SK, Lee EH, Vaishali B, et al. Tricaprylin microemulsion for oral delivery of low molecular weight heparin conjugates. J Control Rel 2005;105:32-42
  • Spernath A, Aserin A. Microemulsions as carriers for drugs and nutraceuticals. Adv Coll Interface Sci 2006;128-130:47-64
  • Yamazaki K, Imai M, Suzuki I. Water solubilization capacity and mean emulsion size of phospholipid-based isooctane-alcohol w/o microemulsion. Coll Surf A Physicochem Eng Aspects 2007;293:241-6
  • Chen H, Chang X, Du D, et al. Microemulsion-based hydrogel formulation of ibuprofen for topical delivery. Int J Pharm 2006;315:52-8
  • Courrier HM, Vandamme TF, Krafft MP. Reverse water-in fluorocarbon emulsions and microemulsions obtained with a fluorinated surfactant. Coll Surf A Physicochem Eng Aspects 2004;244:141-8
  • Zhang Q, Jiang X, Jiang W, et al. Preparation of nimodipine-loaded microemulsion for intranasal delivery and evaluation on the targeting efficiency to the brain. Int J Pharm 2004;275:85-96
  • Li L, Nandi I, Kim KH. Development of an ethyl laurate-based microemulsion for rapid-onset intranasal delivery of diazepam. Int J Pharm 2002;237:77-85
  • D'cruz OJ, Uckun FM. Gel-microemulsions as vaginal spermicides and intravaginal drug delivery vehicles. Contraception 2001;64:113-23
  • Terek MC, Karabulut B, Selvi N, et al. Arsenic trioxide-loaded, microemulsion-enhanced cytotoxicity on MDAH 2774 ovarian carcinoma cell line. Int J Gynecol Cancer 2006;16:532-7
  • Hwang SR, Lim S-J, Park J-S, Kim C-K. Phospholipid-based microemulsion formulation of all-trans-retinoic acid for parenteral administration. Int J Pharm 2004;276:175-83
  • Karadeniz H, Alparslan L, Erdem A, Karasulu E. Electrochemical investigation of interaction between mitomycin C and DNA in a novel drug-delivery system. J Pharm Biomed Anal 2007;452:322-6
  • Gupta RR, Jain SK, Varshney M. AOT water-in-oil microemulsions as a penetration enhancer in transdermal drug delivery of 5-fluorouracil. Coll Surf B Biointerf 2005;41:25-32
  • Djordjevic L, Primorac M, Stupar M, Krajisnik D. Characterization of caprylocaproyl macrogolglycerides based microemulsion drug delivery vehicles for an amphiphilic drug. Int J Pharm 2004;271:11-19
  • Kemken J, Ziegler A, Muller BW. influence of supersaturation on the pharmacodynamic effect of bupranolol after dermal administration using microemulsions as vehicles. Pharm Res 1992;43:554-8
  • Anigbogu ANC, Williams AC, Barry BW, Edwards HGM. Fourier transform raman-spectroscopy of interactions between the penetration enhancer dimethyl sulfoxoide and human stratum corneum. Int J Pharm 1995;125:265-82
  • Dreher F, Walde P, Walther P, Wehrli E. interaction of a lecithin microemulsion gel with human stratum corneum and its effect on transdermal transport. J Control Rel 1997;45:131-40
  • Yajima I, Sakai H, Miyazawa K, et al. Preparation and properties of multiphase microemulsions with some phosphatidylcholines having different alkyl chains. Coll Surf B Biointerf 1997;9:177-86
  • Changez M, Chander J, Dinda AK. Transdermal permeation of tetracaine hydrochloride by lecithin microemulsion: in vivo. Coll Surf B Biointerf 2006;48:58-66
  • Mei Z, Chen H, Weng T, Yang Y, Yang X. Solid lipid nanoparticle and microemulsion for topical delivery of triptolide. Eur J Pharm Biopharm 2003;56:189-96
  • Paolino D, Ventura CA, Nisticò S, Puglisi G, Fresta M. Lecithin microemulsions for the topical administration of ketoprofen: percutaneous adsorption through human skin and in vivo human skin tolerability. Int J Pharm 2002;244:21-31
  • Gasco MR, Gallarate M, Pattarino F. In vitro permeation of azelaic acid from viscosized microemulsions. Int J Pharm 1991;69:193-6
  • Kemken J, Ziegler A, Muller BW. Investigation into the pharmacodynamic effects of dermally administered microemulsions containing beta-blokers. J Pharm Pharmacol 1991;43:679-84
  • Zhao X, Liu JP, Zhang X, Li Y. Enhancement of transdermal delivery of theophylline using microemulsion vehicle. Int J Pharm 2006;327:58-64
  • Escribano E, Calpena AC, Queralt J, Obach R, Doménech J. Assessment of diclofenac permeation with different formulations: anti-inflammatory study of a selected formula. Eur J Pharm Sci 2003;19:203-10
  • Boinpally RR, Zhou S-L, Devraj G, et al. iontophoresis of lecithin vesicles of cyclosporin A. Int J Pharm 2004;274:185-90
  • Schmalfuß U, Neubert R, Wohlrab W. Modification of drug penetration into human skin using microemulsions. J Control Rel 1997;46:279-85
  • Peltola S, Saarinen-Savolainen P, Kiesvaara J, Suhonen TM, Urtti A. Microemulsions for topical delivery of estradiol. Int J Pharm 2003;254:99-107
  • Formariz TP, Sarmento VHV, Silva-Junior AA, et al. Doxorubicin biocompatible o/w microemulsion stabilized by mixed surfactant containing soya phosphatidylcholine. Coll Surf B Biointerf 2006;51:54-61
  • Sharma A, Shekhar C, Heer M, Minzcorswant M. Comparison of generic cyclosporine microemulsion versus neoral in de novo renal transplant recipients managed by 2-h postdose monitoring. Transplant Proc 2006;38:2051-3
  • Corswant CV, Thoren P, Engstrom S. Triglyceride-based microemulsion for intravenous administration of sparingly soluble substances. J Pharm Sci 1998;87:200-208
  • Kang BK, Chon SK, Kim SH, et al. Controlled release of paclitaxel from miroemulsion containing PLGA and evaluation and anti-tumor activity in vitro and in vivo. Int J Pharm 2004;286:147-56
  • Crosasso P, Cerutti M, Brusa M, et al. Preparation, characterization and properties of sterically stabilized paclitaxel-containing liposomes. J Control Rel 2000;63:19-30
  • Feng SS, Huang G. Effects of emulsifiers on the controlled release of paclitaxel (Taxol) from nanospheres of biodegradable polymers. J Control Rel 2001;71:53-69
  • He L, Wang GL, Zhang Q. An alternative paclitaxel microemulsion formulation: hypersensitivity evaluation and pharmacokinetic profile. Int J Pharm 2003;250:45-50
  • Nomura T, Koreeda N, Yamashita F, Takakura Y, Hashida M. Effect of particle size and charge on the disposition of lipid carriers after intratumoral injection into tissue-isolated tumors. Pharm Res 1998;15:128-32
  • ince i, Kirilmaz L, Ates H, Karasulu E. Development and validation of an acute glaucoma model to measure the ocular hypotensive effects and use of pilocarpine HCL microemulsion in rabbits. PSWC 2007 3rd World Congress of the Board of Pharmacutical Sciences of FIP; 2007 April 22 – 25; Amsterdam, Netherlands
  • Richter T, Keipert S. In vitro permeation studies comparing bovine nasal mucosa, porcine cornea and artificial membrane: androstenedione in microemulsions and their components. Eur J Pharm Biopharm 2004;58:137-43
  • Vandamme THF. Microemulsion as ocular drug delivery systems: recent developments and future challenges. Prog Retin Eye Res 2002;21:15-24

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