Abstract
Alcohols, such as ethanol and propylene glycol, are among the most intensively studied penetration enhancers in the field of topical drug delivery. Much has been written concerning the use of these versatile solvents with generally positive results being produced and alcohols featuring in a number of commercially available products. Much has also been published regarding the mechanisms underpinning penetration enhancement. In the first instance, ethanol is typically used as a co-solvent in order to increase the donor concentrations of poorly soluble drugs in aqueous solutions. This would thus provide increased fluxes by creating a higher chemical potential within the vehicle. At the tissue level, numerous papers have focussed on processes occurring within the stratum corneum as a consequence of the applied alcoholic formulation. A common theme relates to the modulation of skin lipid domains, which become more leaky thus facilitating increased drug partitioning and permeation. Such processes are sometimes claimed to be reversible within a short timescale, which does not fit well with other observations of the leaching of skin lipids, particularly when high levels of alcohols are dosed to the skin. In addition to reviewing the aforementioned, this Chapter seeks to offer some alternative perspectives relating to the mechanisms by which penetration enhancement is achieved by alcohols and probably other chemical permeation enhancers too. It is proposed that interactions and modulations within the stratum corneum are only part of the process and that a fuller picture only emerges when the permeation of the drug is viewed alongside the permeation of enhancer/vehicle. Firstly, dissolution is a thermodynamic process – energy is released as a solute undergoes solvation – and to reverse the process requires input of equal or more energy. Secondly, it is known that alcohols penetrate the skin. Thirdly, studies on the relationship between levels of alcohol and solute penetrating the skin indicate that co-permeation/drag effects are of key importance.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Ahmed-Lecheheb D, Cunat L, Hartemann P, Hautemanière A (2012) Dermal and pulmonary absorption of ethanol from alcohol-based hand rub. J Hosp Infect 81:31–35
Andanson JM, Hadgraft J, Kazarian SG (2009) In situ permeation study of drug through the stratum corneum using attenuated total reflection Fourier transform infrared spectroscopic imaging. J Biomed Opt 14:034011
Andega S, Kanikkannan N, Singh M (2001) Comparison of the effect of fatty alcohols on the permeation of melatonin between porcine and human skin. J Control Release 77:17–25
Bendas B, Schmalfuβ U, Neubert R (1995) Influence of propylene glycol as cosolvent on mechanisms of drug transport from hydrogels. Int J Pharm 116:19–30
Benson H (2005) Transdermal drug delivery: penetration enhancement techniques. Curr Drug Deliv 2:23–33
Berner B, Mazzenga GC, Otte JH, Steffens RJ, Juang RH, Ebert CD (1989) Ethanol: water mutually enhanced transdermal therapeutic system II: skin permeation of ethanol and nitroglycerin. J Pharm Sci 78:402–407
Bommanan D, Potts R, Guy RH (1991) Examination of the effect of ethanol on human stratum corneum in vivo using infrared spectroscopy. J Control Release 16:299–304
Bowen JL, Heard CM (2006) Film drying and complexation effects in the simultaneous skin permeation of ketoprofen and propylene glycol from simple gel formulations. Int J Pharm 307:251–257
Brand RM, Jendrzejewski JL, Charron AR (2007) Potential mechanisms by which a single drink of alcohol can increase transdermal absorption of topically applied chemicals. Toxicology 235:141–149
Chantasart D, Li SK, He N, Warner KS, Prakongpan S, Higuchi WI (2004) Mechanistic studies of branched-chain alkanols as skin permeation enhancers. J Pharm Sci 93:762–779
Dias M, Naik A, Guy RH et al (2008) In vivo infrared spectroscopy studies of alkanol effects on human skin. Eur J Pharm Biopharm 69:1171–1175
Du Plessis J, Pugh WJ, Judefeind A, Hadgraft J (2001) The effect of hydrogen bonding on diffusion across model membranes: consideration of the number of H-bonding groups. Eur J Pharm Sci 13:135–141
Duracher L, Blasco L, Hubaud J-C et al (2009) The influence of alcohol, propylene glycol and 1,2-pentanediol on the permeability of hydrophilic model drug through excised pig skin. Int J Pharm 374:39–45
Fang C, Liu Y, Ye X et al (2008) Synergistically enhanced transdermal permeation and topical analgesia of tetracaine gel containing menthol and ethanol in experimental and clinical studies. Eur J Pharm Biopharm 68:735–740
Farajtabar A, Jaberi F, Gharib F (2011) Preferential solvation and solvation shell composition of free base and protonated 5, 10, 15, 20-tetrakis(4-sulfonatophenyl)porphyrin in aqueous organic mixed solvents. Spectrochim Acta A 83:213–220
Fasano WJ, ten Berge WF, Banton MI et al (2011) Dermal penetration of propylene glycols: measured absorption across human abdominal skin in vitro and comparison with a QSAR model. Toxicol In Vitro 25:1664–1670
Fiume MM, Bergfeld WF, Belsito DV et al (2012) Safety assessment of propylene glycol, tripropylene glycol, and propylene glycols as used in cosmetics. Int J Toxicol 31:245S–260S
Flynn GL, Durrheim H, Higuchi WI (1981) Permeation of hairless mouse skin II: membrane sectioning techniques and influence on alkanol permeabilities. J Pharm Sci 70:52–56
Friend D, Catz P, Heller J, Reid J, Baker R (1988) Transdermal delivery of levonorgestrel I. Alkanols as permeation enhancers. J Control Release 7:243–250
Funke AP, Schiller R, Motzkus HW, Gunther C, Muller RH, Lipp R (2002) Transdermal delivery of highly lipophilic drugs: in vitro fluxes of antiestrogens, permeation enhancers, and solvents from liquid formulations. Pharm Res 19:661–668
Geusens B, Van Gele M, Braat S (2010) Flexible nanosomes (secosomes) enable efficient siRNA delivery in cultured primary skin cells and in the viable epidermis of ex vivo human skin. Adv Funct Mater 20:4077–4090
Guo X, Guo ZY, Wei HJ et al (2010) In vivo quantification of propylene glycol, glucose and glycerol diffusion in human skin with optical coherence tomography. Laser Phys 20:1849–1855
Heard CM, Screen C (2008) Probing the permeation enhancement of mefenamic acid by ethanol across full thickness skin, heat-separated epidermal membrane and heat-separated dermal membrane. Int J Pharm 349:323–325
Heard CM, Gallagher SJ, Harwood JL, Maguire PB (2003) The in vitro delivery of NSAIDs across skin was in proportion to the delivery of essential fatty acids in the vehicle – evidence that solutes permeate skin associated with their solvation cages? Int J Pharm 261:165–169
Heard CM, Congiatu C, Gallagher SJ, Harwood JL, Karia C, McGuigan C, Nemcova M, Nouskova T, Thomas CP (2005) Preferential π-π complexation between tamoxifen and borage oil/γ linolenic acid: transcutaneous delivery and NMR spectral modulation. Int J Pharm 302:47–55
Heard CM, Kung D, Thomas CP (2006) Skin penetration enhancement of mefenamic acid by ethanol and 1,8-cineole can be explained by the pull effect. Int J Pharm 321:167–170
Higuchi WI (1962) Analysis of data on the medicament release from ointments. J Pharm Sci 51:802–804
Ho S, Calder RJ, Heard CM, Thomas CP (2004) In vitro transcutaneous delivery of tamoxifen and γ linolenic acid from a borage oil formulation containing ethanol and 1,8-cineole. J Pharm Pharmacol 56:1–8
Hoelgaard A, Møllgaard B (1985) Dermal drug delivery. Improvement by choice of vehicle or drug derivative. J Control Release 2:111–120
Horita A, Weber LJ (1964) Skin penetrating property of drugs dissolved in dimethylsulfoxide (DMSO) and other vehicles. Life Sci 3:1389–1395
Hostýnek JJ, Dreher F, Nakada T, Schwindt D, Anigbogu A, Maibach HI (2001) Human stratum corneum adsorption of nickel salts. Investigation of depth profiles by tape stripping in vivo. Acta Derm Venereol Suppl 212:11–18
Houston DM, Rogers S, Heard CM. Skin penetration enhancement of caffeine by ethanol and propylene glycol: probing the co-permeation effect. Unpublished date
Ibrahim SA, Li SK (2009) Effects of solvent deposited enhancers on transdermal permeation and their relationship with Emax. J Control Release 136:117–124
Ikeda Y, Higashi K, Moribe K, Yamamoto K (2012) Enhanced skin permeation of piroxicam and pranoprofen induced from nanoparticles dispersed in propylene glycol aqueous solution. J Drug Deliver Sci Technol 22:131–137
Jaimes-Lizcano YA, Lawson LB, Papadopoulos KD (2011) Oil-Frozen W-1/O/W-2 double emulsions for dermal biomacromolecular delivery containing ethanol as chemical penetration enhancer. J Pharm Sci 100:1398–1406
Kadir R, Stempler D, Liron Z, Cohen S (1987) Delivery of theophylline into excised human-skin from alkanoic acid-solutions - a push-pull mechanism. J Pharm Sci 76:774–779
Kim K, Oh S (2011) Calcitonin transport through skin using iontophoresis. J Pharm Invest 41:9–17
Kramer A, Below H, Bieber N et al (2007) Quantity of ethanol absorption after excessive hand disinfection using three commercially available hand rubs is minimal and below toxic levels for humans. BMC Infect Dis 7:117
Kumar R, Keyes T (2012) The relation between the structure of the first solvation shell and the IR spectra of aqueous solutions. J Biol Phys 38:75–83
Kurihara-Bergstrom T, Knutson K, DeNoble LJ, Goates CY (1990) Percutaneous absorption enhancement of an ionic molecule by ethanol-water systems in human skin. Pharm Res 7:762–766
Leichtnam ML, Rolland H, Wüthrich P, Guy RH (2006) Formulation and evaluation of a testosterone transdermal spray. J Pharm Sci 95:1693–1702
Levang AK, Zhao K, Singh J (1999) Effect of ethanol/propylene glycol on the in vitro percutaneous absorption of aspirin, biophysical changes and macroscopic barrier properties of the skin. Int J Pharm 30:255–263
Liu P, Kurighara-Bergstrom T, Good WR (1991) Cotransport of estradiol and ethanol through human skin in vitro: understanding the permeant/enhancer flux relationship. Pharm Res 8:938–944
Liu P, Cettina M, Wong J (2009) Effects of isopropanol-isopropyl myristate binary enhancers on in vitro transport of estradiol in human epidermis: a mechanistic evaluation. J Pharm Sci 98:565–572
Megrab NA, Williams AC, Barry BW (1995) Oestradiol permeation across human skin, silastic and snake skin membranes: the effects of ethanol/water co-solvent systems. Int J Pharm 116:101–112
Morimoto H, Wada Y, Seki T, Sugibayashi K (2002) In vitro skin permeation of morphine hydrochloride during the finite application of penetration-enhancing system containing water, ethanol and L-menthol. Biol Pharm Bull 25:134–136
Moser K, Kriwet K, Froehlich C, Kalia YN, Guy RH (2001) Supersaturation: enhancement of skin penetration and permeation of a lipophilic drug. Pharm Res 18:1006–1011
Ng WC, Ng MH, Lee KS et al (2009) Investigation on ethanol and propylene glycol as enhancers for skin-electrode conductivity in bioelectrical potential measurement. Funct Mater Lett 2:175–177
Oliveira G, Hadgraft J, Lane ME (2012) The role of vehicle interactions on permeation of an active through model membranes and human skin. Int J Cosmetic Sci 34:536–545
Pardo A, Shiri Y, Cohen S (1991) Partial molal volumes and solubilities of physostigmine in isopropanol-isopropyl myristate solvents in relation to skin penetrability. J Pharm Sci 80:567–572
Patel MR, Patel RB, Parikh JR, Solanki AB, Patel BG (2009) Effect of formulation components on the in vitro permeation of microemulsion drug delivery system of fluconazole. AAPS PharmSciTech 10:917–923
Pendlington RU, Whittle E, Robinson JA, Howes D (2001) Fate of ethanol topically applied to skin. Food Chem Toxicol 39:169–174
Perlovich GL, Bauer-Brandl A (2004) Solvation of drugs as a key for understanding partition and passive transport as exemplified by NSAIDs. Curr Drug Deliv 1:213–226
Perlovich P, Kurkov AN, Kinchin A, Bauer-Brandl A (2003) Thermodynamics of solutions IV: solvation of ketoprofen in comparison with other NSAIDS. J Pharm Sci 92:2502–2511
Perlovich GL, Kurkov SV, Kinchin AN, Bauer-Brand A (2004) Solvation and hydration characteristics of ibuprofen and acetyl salicylic acid. AAPS PharmSci 6:3
Pershing LK, Lambert LD, Knutson K (1990) Mechanism of ethanol-enhanced estradiol permeation across human skin in vivo. Pharm Res 7:170–175
Potts RO, Guy RH (1991) Predicting skin permeability. Pharm Res 9:663–669
Priborsky J, Takayama K, Nagai T et al (1987) Combination effect of penetration enhancers and propylene glycol on in vitro transdermal absorption of insulin. Drug Des Deliv 2:91–97
Pugh WJ (1999) Relationship between H-bonding of penetrants to stratum corneum lipids and diffusion. In: Bronaugh RL, Maibach HI (eds) Percutaneous Absorption: drugs, Cosmetics, Mechanisms, Methods, 3rd edn. Marcel Dekker, New York, Chapter 9
Reid ML, Jones SA, Brown M (2009) Transient drug supersaturation kinetics of beclomethasone dipropionate in rapidly drying films. Int J Pharm 371:114–119
Santos P, Watkinson AC, Hadgraft J, Lane ME (2012) Influence of penetration enhancer on drug permeation from volatile formulations. Int J Pharm 439:260–268
Santoyo S, Ygartua P (2000) Effect of skin pre-treatment with fatty acids on percutaneous absorption and skin retention of piroxicam after its topical application. Eur J Pharm Biopharm 50:245–250
Schaefer-Korting M, Mahmoud A, Borgia SL et al (2008) Reconstructed epidermis and full-thickness skin for absorption testing: influence of the vehicles used on steroid permeation. Altern Lab Anim 36:441–452
Squillante E, Needham T, Maniar A, Kislaliogu S, Zia H (1998) Co-diffusion of propylene glycol and dimethyl isosorbide in hairless mouse skin. Eur J Pharm Biopharm 46:265–271
Tanojo H, Bouwstra JA, Junginger HE, Bodde HE (1999) Thermal analysis studies on human skin and skin barrier modulation by fatty acids and propylene glycol. J Therm Anal Calorim 57:313–322
Tfayli A, Emmanuelle G, Michel M, Baillet-Guffroy A (2012) Molecular interactions of penetration enhancers within ceramides organization: a Raman spectroscopy approach. Analyst 137:5002–5010
Thomas CP, Davison Z, Heard CM (2007) Probing the skin permeation of fish oil/EPA and ketoprofen 3. Influence of fish oil/ketoprofen on epidermal COX-2 and LOX. Prostaglandins Leukot Essent Fatty Acids 76:357–362
Twist JN, Zatz JL (1986) Influence of solvents on paraben permeation through idealized skin model membranes. J Soc Cosmet Chem 37:429–444
Vaddi HK, Ho PC, Chan YW, Chan SY (2002) Terpenes in ethanol: haloperidol permeation and partition through human skin and stratum corneum changes. J Control Release 81:121–133
Van der Merwe D, Riviere JE (2005) Comparative studies on the effects of water, ethanol and water/ethanol mixtures on chemical partitioning into porcine stratum corneum and silastic membrane. Toxicol In Vitro 19:69–77
Van Hulst M, van Gompel AHP, Cornwell PA (1998) Percutaneous absorption and skin metabolism: the effects of formulation excipients on metabolism. In: Brain KR, James VJ, Walters KA (eds) Perspectives in percutaneous penetration, vol 5b. STS Publishing, Cardiff, pp 45–49
Verma DD, Fahr A (2004) Synergistic penetration enhancement effect of ethanol and phospholipids on the topical delivery of cyclosporin A. J Control Release 97:55–66
Wang LH, Wang CC, Kuo SC (2008) Vehicle and enhancer effects on human skin penetration of aminophylline from cream formulations: Evaluation in vivo. Int J Cosmet Sci 30:310
Williams AC, Barry BW (2004) Penetration enhancers. Adv Drug Deliv Rev 56:603–618
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Heard, C.M. (2015). Ethanol and Other Alcohols: Old Enhancers, Alternative Perspectives. In: Dragicevic, N., Maibach, H. (eds) Percutaneous Penetration Enhancers Chemical Methods in Penetration Enhancement. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-47039-8_10
Download citation
DOI: https://doi.org/10.1007/978-3-662-47039-8_10
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-662-47038-1
Online ISBN: 978-3-662-47039-8
eBook Packages: MedicineMedicine (R0)