Topical Retinoids in the Treatment of Acne Vulgaris Andrea L. Zaenglein, MD Topical retinoids are highly effective in the treatment of both comedonal and inflammatory lesions of acne and are a vital part of almost any acne regimen. A better understanding of the structure and function of this class of medications has led to better outcomes in treatments of patients with acne. In this article, the structure and function of retinoids is first reviewed. Then, the clinical effectiveness and tolerability of each of the available topical retinoid formulations is summarized. Semin Cutan Med Surg 27:177-182 © 2008 Elsevier Inc. All rights reserved. T he effects of topical tretinoin (all-trans retinoic acid) were first realized by the German researchers Stuttgen and Beer in 1962. They were studying the effects that the retinoid had on epidermal differentiation and keratinization, focusing the clinical application toward the treatment of the ichthyoses. By the late 1960s, however, Kligman et al had realized the potential of tretinoin in the treatment of acne.1 As a result of their efforts, the first topical retinoid was introduced for the treatment of acne in 1972. Retinoid Metabolism The retinoids are classically described as a group of compounds with similar chemical structures exerting similar biologic effects. That said, many synthetic retinoids have dissimilar structures but still have retinoid activity. Therefore, function, the ability to bind retinoid receptors and activate the retinoid pathway, truly dictates what a retinoid is. The naturally occurring retinoids all work along the vitamin A pathway. They are considered vitamins in that they are necessary in small amounts for the body to function properly. However, the body does not intrinsically produce these substances; they therefore must be acquired from the diet. The primary dietary source of vitamin A is from foods of animal origin, usually in the form of retinylpalmitate, which is subsequently converted by the small intestine to the alcohol form, retinol (vitamin A). Retinol is the main transport and storage form in the body with cytosolic binding protein (CRBP)-facilitating enzymatic functions. Intracellular transport and functioning is mediated by the cytosolic retinoic Departments of Dermatology and Pediatrics, Penn State/ M.S. Hershey Medical Center, Hershey, PA. Address reprint requests to: Andrea L. Zaenglein, MD, Associate Professor of Dermatology and Pediatrics, Department of Dermatology, HU14, Penn State/ M.S. Hershey Medical Center, 500 University Drive, Hershey, PA 17033. E-mail: azaenglein@psu.edu 1085-5629/08/$-see front matter © 2008 Elsevier Inc. All rights reserved. doi:10.1016/j.sder.2008.06.001 acid binding proteins (CRABP-1, CRABP-2). Once absorbed, retinol is reversibly converted to retinaldehyde (retinal), which then can be irreversibly metabolized to all-trans retinoic acid (tretinoin), the alcohol form (Fig. 1). The carotenoid, -carotene is a highly lipophilic, plant-derived retinoid that is considered a previtamin because it can be converted into retinaldehyde, entering the vitamin A pathway at that step. Inside the cell, all-trans retinoic acid is the primary form seen. However, the isomers, 9-cis retinoic acid (alitretinoin) and to a lesser extent, 13-cis retinoic acid (isotretinoin) are also found. Retinoid Receptors The metabolites of vitamin A work as hormones. They bind to specific receptors, exert their effects, and are subsequently metabolized to inactive forms. There are 2 distinct types of retinoid receptors in the human body: RAR (retinoic acid receptors) and RXR (retinoid X receptors).2,3 RAR is composed of 3 isoforms, RAR␣, RAR, and RAR␥, each encoded by separate genes.4 These receptors are ligand-dependent transcriptional factors that belong to the steroid-thyroid hormone family.5 The concentration and activity of each type of retinoid receptor varies by tissue type throughout the body. RAR␥ is the most abundant type seen in cutaneous epithelium, whereas RAR is not found in the skin.6 Different retinoid isomers also exhibit different binding affinities for these retinoid receptors. 9-cis retinoic acid is a ligand for both RAR and RXR, whereas all-trans retinoic acid (tretinoin) has binding affinity only for RAR.2,7 13-cis retinoic acid (isotretinoin) does not bind retinoid receptors directly, making its mechanism of action still unclear.8 These possible combinations make the effects of retinoids vital and varied throughout the entire body. Retinoid receptors work together in specific pairs to function (Fig. 1). RAR must combine as a heterodimer with RXR 177 A.L. Zaenglein 178 retinyl esters retinol β-carotene retinaldehyde retinaldehyde all trans retinoic acid Coactivators All trans RA 9-cis RA RXR RAR RARE Nucleus DNA Polymerase Gene Transcription Cytoplasm Figure 1 Metabolism and mechanism of action. (RAR–RXR).9 RXR, however, can function as a homodimer (RXR–RXR) or bind with several other members of the steroid–thyroid superfamily, including thyroid hormone, vitamin D3, and peroxisome proliferator-activated receptors.10 Once coupled, the retinoid receptordimers localize to the cell nucleus and bind specific DNA regulatory sites, called retinoic acid response elements (RAREs).11 In doing so, depending on the conformation and ligand pairings, a variety of transcription activators and repressors are induced. Through other mechanisms not involving RAREs, retinoids also exert indirect effects on transcription through antagonism of other transcription factors, such as the proinflammatory and proliferative mediators like AP1.12-14 These mechanisms are thought to contribute to the antiproliferative and antiiflammatory properties of retinoids. sponses; and (4) inflammation.16 Although retinoids have no direct effect on decreasing sebum production, the other three factors are closely linked. Modulation of one will often have a direct or indirect effect on another. The first step in controlling acne is to normalize keratinization. Hyperproliferation of the basal keratinocytes has long been recognized as a major step in the pathogenesis of acne.17 Retinoids, in turn, have been established as the treatment of choice for comedonal lesions. Additionally, they have recently been shown to work preventatively in suppressing new comedone formation through inhibition of the microscopic precursor lesion, the microcomedone.18,19 The effects of retinoids on keratinization at the cellular level are just being identified, including regulation of keratinocyte proliferation through RAR–RXR-mediated gene transcription, increased expression of CRABP1, and through indirect effects on cellular signaling.20,21 Of late, retinoids also have been recognized for their inherent antiinflammatory properties. Inflammation occurs very early in the onset of acne lesions.22 Proinflammatory cytokines, including interleukin (IL)-1␣, leukotriene B4, tumor necrosis factor-␣, IL-, IL-12, and IL-8, are all up-regulated in lesions of acne.23-26 Retinoids work to decrease inflammation by several pathways. One mechanism is through the toll-like receptor pathway. Propionibacterium acnes has recently been recognized to induce toll-like receptors (TLR2, TLR4) as a part of the body’s innate immune function.27,28 These receptors are located on monocytes in the perifollicular region and, on activation by P. acnes, induce proinflammatory mediators such as tumor necrosis factor-␣, IL-, IL-12, and IL-8.27,29 Both all-trans retinoic acid and adapalene have been shown to down-regulate TLR2 through both a direct and indirect means.30,31 Retinoids also regulate AP-1, a controller of several genes that regulate cellular proliferation and inflammation.32 Functions of Retinoids Formulations There are 4 main physiologic functions of retinoids in the body.15 The first is to ensure normal embryonic development, the importance of which is evidenced by the welldescribed effects of an excessive retinoid state during pregnancy, isotretinoin-induced embryopathy. The second role of retinoids in the body is to normalize epithelial differentiation in varying tissue types, including the skin. This effect is used in the treatment of acne as well as the ichthyoses. Third, retinoids maintain healthy vision through the production of rhodopsin, an 11-cis-retinaldehyde-containing eye pigment that enables night vision. Finally, retinoids are required for adequate immune function and lymphocyte survival. The cellular interplay of the retinoids with their receptors and the downstream effects of their transcription regulation are seen clinically in the example of acne. Topical retinoids perform many functions that directly affect the 4 major pathogenic steps in the production of acne: (1) increased sebum production; (2) abnormal keratinization of the follicular infundibulum; (3) Propionibacterium acnes-mediated re- There are 3 generations of retinoids based on their chemical structure. The first generation includes retinol, tretinoin, and isotretinoin. The second-generation retinoids are etretinate and its metabolite acitretin. The synthetically produced tazarotene, adapalene and bexarotene make up the third generation of retinoids (Fig. 2). A list of currently available topical retinoid formulations is listed in Table 1. Tretinoin Tretinoin was the first retinoid used for the treatment of acne. The efficacy of the early preparations of tretinoin were somewhat limited by cutaneous irritation. However, newer formulations afford much greater tolerability than the early prototypes. Advances in drug-delivery systems have also yielded good results with less irritation. Tretinoin is the only topical retinoid available in generic formulations, often making it the drug of choice for patients with limited financial means or highly restrictive formularies. Topical retinoids in the treatment of acne vulgaris 179 Table 2 Comparative Cost of Select Retinoids* Tretinoin Adapalene Tazarotene Tretinoin/ clindamycin Tretinoin 0.025% cream Avita® 0.025% gel Retin-A Micro® 0.1% gel Atralin™ 0.05% gel Differin® 0.1% gel Tazorac® 0.1% cream Ziana™ 0.025%/1.2% gel 45 45 45 45 45 30 30 g g g g g g g $59.80 $85.77 $149.42 $175.89 $168.79 $287.35 $170.44 Average price without insurance from CVS and Walmart (5/3/08). Figure 2 Structure of topical retinoids used in the treatment of acne: the chemical structure of the retinoid determines its ability to bind retinoic acid receptors. Avita®, like Retin-A Micro®, takes advantage of new vehicle technology, making improvements on the original tretinoin formulations. In this product, the tretinoin is enmeshed within a polyoylprepolymer, creating a delayed, controlled release of the medication. Avita is available as a 0.025% cream and gel. Atralin™ is a newer branded retinoid formulated to have less irritation. It is available as a 0.05% aqueous gel containing the moisturizers, soluble collagen and sodium hyaluronate, as well a humectant, glycerin. It should be noted that the collagen in Atralin™ contains soluble fish proteins and should not be used in any patients who have a known fish allergy. Adapalene A list of average prices of topical retinoid formulations is listed in Table 2. Generic tretinoin is available in 0.025%, 0.05% and 0.1% cream, and a 0.01% and 0.025% alcoholbased gel. Generic tretinoin 0.05% liquid is currently the only available topical retinoid in a liquid form. Retin-A Micro® was the first formulation with a modified vehicle developed to combat the inherent irritancy of tretinion. Inert microspheres embedded with tretinoin rest on the cutaneous surface and slowly release the retinoid. It is available in a 0.04% and 0.1% nonalcohol gel formulation. It is also the only retinoid that comes in a pump dispenser. Adapalene (Differin®) was the first synthetic retinoid used in the treatment of acne vulgaris. It is a highly lipophilic compound, derived from naphthoic acid, which is easily taken up by the pilosebaceous unit. Because of its lipophilic nature, systemic absorption is minimal and no evidence of teratogenicity has been reported. Once in the cell, adapalene can directly bind RAR/␥ and exert its effects, but does not bind the CRABPs.33,34 This retinoid has been shown to regulate keratinization and has antiinflammatory properties as well. Adapalene is available as a 0.1% aqueous based non irritating gel formulation. Recently, adapalene has become avail- Table 1 Topical Retinoids Available in the United States Generic Single-agent products Tretinoin Trade Retin-A® Retin-A Micro® Avita® Atralin™ Generic Adapalene Differin® Tazarotene Tazorac® Combination products Tretinoin/clindamycin Ziana™ Vehicle Concentration Size Cream Gel Liquid Gel with microsponge Cream Gel Gel Cream Gel Cream Gel Cream Gel 0.025%, 0.05%, 0.1% 0.01%, 0.025% 0.05% 0.04%, 0.1% 0.025% 0.025% 0.05% 0.025%, 0.05%, 0.1% 0.025%, 0.1% 0.1% 0.1%, 0.3% 0.1% 0.1% 20 g, 45 g 15 g, 45 g 28 mL 20 g, 45 g, 50-g pump 20 g, 45 g 20 g, 45 g 45 g 20 g, 45 g 15 g, 45 g 45 g 45 g 30 g, 60 g 30 g, 100 g Gel 0.025%/1.2% 30 g, 60 g A.L. Zaenglein 180 able in a higher concentration of 0.3% gel as well. In clinical trials, adapalene 0.3% gel has shown greater efficacy than adaplene 0.1% gel and vehicle.35 The mainstay of adapalene’s marketing is its superior tolerability. Numerous studies, including head-to-head comparisons with its competitors, have been performed by the manufacturer. Although the frequency and type of cutaneous adverse events can be fairly high even with adapalene, they are generally milder in severity than with the other retinoids.36 Tazarotene Tazarotene (Tazorac®) is another synthetically produced retinoid commonly used in the treatment of acne. It is quickly hydrolyzed to its active metabolite, tazarotenic acid and is able to bind all 3 RAR␣//␥. Although its affinity is for RAR/␥, its primary effects include regulation of cell differentiation and down-regulation of proinflammatory mediators (IL-6, migration inhibition factor-related protein).12 Taking advantage of its antiproliferative properties through AP1 and the down-regulation of ornithine decarboxylase and keratins 6/16, tazarotene is also used topically in the treatment of psoriasis.12,37 It is formulated as a 0.05% and 0.01% gel and cream. Both concentrations are approved by the Food and Drug Administration for psoriasis, but only the 0.1% gel or cream is approved for acne. Irritation is not uncommon with tazarotene use. Approximately, 10 to 30% of patients experience peeling, dryness, irritation and burning with its use, mostly during the early weeks of therapy. cal antibiotics may increase the risk of bacterial transfer of resistance factors.38 The package insert states that clindamycin also has neuromuscular blocking properties of its own that may enhance the effects of neuromuscular blocking agents. This should be noted in any patients receiving concomitant botulinum toxin injections. Efficacy Comparing efficacies of the 3 major commercially available retinoids is difficult because there are no head-to-head, placebo-controlled trials matching all 3 medications against each other. Each have proven efficacy in treating both comedonal and inflammatory acne. The only 3-way comparison noted was a retrospective, investigator blinded, photographic review documenting the efficacy of tazarotene 0.1% gel, adapalene 0.1% gel, tretinoin 0.1% microsponge, tretinoin 0.025% gel in the treatment of inflammatory acne.39 All retinoid formulations resulted in significant clinical improvement with tazarotene 0.1% gel edging out the others. A prospective study would be needed to fully document relative efficacies of the 4 retinoids. A listing of select clinical trials comparing 2 of the 3 available retinoids is given in Table 3. In general, adapalene 0.1% gel and tretinoin 0.1% microsphere formulations are comparable in efficacy. Tazarotene 0.1% cream was shown most effective but overall was the most irritating. In most studies involving adapalene, it was shown to have the least severity of adverse cutaneous reactions. Other Retinoids Compatibility and Stability Motretinide, isotretinoin and retinoyl -glucuronide are additional topical retinoid formulations used in the treatment of acne. Although used widely in the European Union, they are currently not available in the U.S. market. It is well established that combination therapy works faster and is more effective than monotherapy with any single agent. In patients with mild-to-moderate mixed inflammatory and comedonal acne, a combination of a topical antimicrobial, either benzoyl peroxide or antibiotic, is considered optimal.16 It is important then to consider the compatibility of all the individual agents together when choosing a retinoid. By far, one of the most common combinations is the use of benzoyl peroxide with a retinoid. Tretinoin is significantly degraded, up to 89%, by the coadministration of benzoyl peroxide.40,41 To combat this interaction, prescribers have long recommended using benzoyl peroxide in the morning Combination Products Ziana™ (clindamycin phosphate 1.2% and tretinoin 0.025%) is the first tretinoin-containing combination product available. It is formulated in an aqueous, glycerin-containing gel. This product should not be used with any erythromycin-containing products, and the two have in vitro antagonism of questionable significance. In addition, combining different topi- Table 3 Select Studies Comparing Efficacy of Topical Retinoids Adapalene Tretinoin Study Comparisons n Eff. Tol. Eff. Tol. Adapalene 0.1% gel vs Tretinoin 0.05% cream Adapalene 0.1% gel vs Tretinoin 0.1% microsphere gel Adapalene 0.1% gel vs Tretinoin 0.05% cream Adapalene 0.1% gel vs Tazarotene 0.1% gel Tazarotene 0.1% cream vs Adapalene 0.1% gel Tazarotene 0.1% cream vs Tretinoin 0.1% microsponge gel Tazarotene 0.1% cream vs Tretinoin 0.025% gel 409 40 25 173 145 169 143 ⴝ ⴝ ⴚ ⴚ ⴚ ⴙ ⴙ ⴝ ⴙ ⴙ ⴝ ⴝ ⴙ ⴚ ⴚ ⴝ ⴚ ⴚ ⴝ ⴙ ⴙ, has shown greater tolerability or efficacy; ⴚ, has shown less tolerability or efficacy; ⴝ, no difference noted. Tazarotene Eff. Tol. ⴙ ⴙ ⴙ ⴙ ⴚ ⴝ ⴚ Topical retinoids in the treatment of acne vulgaris and applying tretinon in the evening, easily bypassing the potential for tretinoin degradation. The modified version of tretinoin in microsphere formulation, has been shown to be much more stable in the presence of benzoyl peroxide.40 Studies combining benzoyl peroxide and clindamycin with tretinoin 0.01% microsphere showed some degradation but was stable at 6 hours.42 Adapalene is the first retinoid on the market that a combination formula containing a benzoyl peroxide is currently in trials. The stability of tazarotene in the presence of benzoyl peroxide cannot be accurately measured due to its rapid metabolism to it active metabolite, tazarotenic acid.43 Early formulations of tretinoin also had the problem of degrading when exposed to ultraviolet light. This has led to the almost universal recommendation of nightly retinoid application that still holds as dogma today. The newer formulations of tretinoin as well as adapalene have documented stability in ultraviolet light.44 Side Effects It is important to provide patients with education on how to control irritancy and improve tolerability of all of the retinoids. Physicians should inquire about a patient’s cleansing routine, carefully noting the patient’s preferred cleanser. True soaps should be avoided. Because of their high pH, soaps can increase the innate irritancy of the retinoid. An alkaline soap will strip the natural lipids from the skin’s surface, priming the skin for irritation. Instead a syndet, or synthetic detergent, should be used as they have been formulated with a lower pH to closely mimic the skin’s own pH of 5.5. In general twice daily cleansing is recommended. This establishes good habits and enforces the routine of applying medications twice daily as well. If patients are experiencing erythema and dryness, decreasing the application frequency of the retinoid to every other night or so can give the patient’s skin time to develop tolerance. In general, tolerance of the retinoid is achieved within about 3 weeks. As the irritation subsides, the patient can then slowly increase the frequency of application to nightly. Because retinoids work by increasing the rate of desquamation of the stratum corneum, patients often notice a fine peeling on the surface of the skin not associated with erythema. This side effect can be controlled by gentle exfoliation with a washcloth, followed by application of a bland moisturizer. The peeling is generally temporary or sporadic in nature and is usually self-limited. Another well-described side effect is a flare of acne within the first few weeks of starting a topical retinoid. This flare-up will resolve with continued use of the medicine. By informing patients of this possible flare at the onset of therapy, knowing that it will resolve with continued treatment, goes a long way to ensure continued compliance. Although retinoids are not true photosensitizers, some patients experience increased photosensitivity to the sun while on retinoids. Patients should be warned about this ahead of time as they are sure to read about it in the package insert or 181 pharmacy information sheets. The mechanism of the photosensitivity is 2-fold. Any irritation of the skin will surely alter the skin’s natural photoprotection and enhance ultraviolet damage. Also, because the retinoids work by decreasing the thickness of the stratum corneum, the photobarrier is reduced as well. Patients should be instructed to use a recommended sunblock liberally, especially when prolonged ultraviolet exposure is anticipated. The issue of pregnancy and topical tretinoin use is interesting. Neither animal nor human data have shown a significant risk for tretinoin-induced malformations with topical application.45,46 That said, given the well-known teratogenicity of oral isotretinoin, most dermatologists, erring on the side of caution, do not recommend the use of any retinoids while a woman is pregnant or breastfeeding. Most topical retinoids carry a Food and Drug Administration pregnancy category of C, with the exception of tazarotene. Because tazarotene is also approved for psoriasis, a condition where the total body surface area affected can exceed 35%, the risk of fetal exposure is higher. Thus, it carries a pregnancy category rating of X. All females of child bearing potential should be counseled on adequate birth control and instructed to discontinue using tazarotene if they plan to become pregnant. The manufacturer also recommends confirming a negative pregnancy test 2 weeks before starting tazarotene. Conclusions First introduced to the market more than 30 years ago, the effects of tretinoin in the treatment of acne were only just being elucidated. Now, with advances in our understanding of retinoid metabolism and the pathogenesis of acne, the clinical relevance of these medications has only grown. Topical retinoids have repeatedly been shown to be an effective, first line therapy for both comedonal and inflammatory acne. Combination with antimicrobial agents will enhance their effects and optimize treatment regimens, resulting in better outcomes for patients. References 1. Kligman AM, Fulton JE, Plewig G: Topical vitamin A acid in acne vulgaris. Arch Dermatol 99:469-476, 1969 2. Petkovich M, Brand NJ, Krust A, et al: A human retinoic acid receptor which belongs to the family of nuclear receptors. Nature 330:444-450, 1987 3. Mangelsdorf DJ, Ong ES, Dyck JA, et al: Nuclear receptor that identifies a novel retinoic acid response pathway. Nature 345:224-229, 1990 4. Elder JT, Fisher GJ, Zhang QY, et al: Retinoic acid receptor gene expression in human skin. J Invest Dermatol 96:425-433,1991 5. Mangelsdorf DJ, Thummel C, Beato M, et al: The nuclear receptor superfamily: the second decade. Cell 83:835-839, 1995 6. Fisher GJ, Talwar HS, Xiao JH, et al: Immunological identification and functional quantitation of retinoic acid and retinoid X receptor proteins in human skin. J Biol Chem 269:20629-20635, 1994 7. Heyman RA, Mangelsdorf DJ, Dyck JA, et al: 9-cis retinoic acid is a high affinity ligand for the retinoid X receptor. Cell 68:397-406, 1992 8. Crettaz M, Baron A, Siegenthaler G, et al: Ligand specificities of recombinant retinoic acid receptors RAR alpha and RAR beta. Biochem J 272:391-397, 1990 9. Durand B, Saunders M, Leroy P, et al: All-trans and 9-cis retinoic acid induction of CRABPII transcription is mediated by RAR-RXR het- A.L. Zaenglein 182 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. erodimers bound to DR1 and DR2 repeated motifs. Cell 71:73-85, 1992 Zhang XK, Lehmann J, Hoffmann B, et al: Homodimer formation of retinoid X receptor induced by 9-cis retinoic acid. Nature 358:587-591, 1992 Stunnenberg HG, Stunnenberg HG: Mechanisms of transactivation by retinoic acid receptors. Bioessays 15:309-315, 1993 Nagpal S, Athanikar J, Chandraratna RA, et al: Separation of transactivation and AP1 antagonism functions of retinoic acid receptor alpha. J Biol Chem 270:923-927, 1995 Pfahl M, Pfahl M: Nuclear receptor/AP-1 interaction. Endocr Rev 14: 651-658, 1993 DiSepio D, Malhotra M, Chandraratna RA, et al: Retinoic acid receptornuclear factor-interleukin 6 antagonism. A novel mechanism of retinoid-dependent inhibition of a keratinocyte hyperproliferative differentiation marker. J Biol Chem 272:25555-25559, 1997 Kang S, Kang S: The mechanism of action of topical retinoids. Cutis 75:10-13, 2005 (suppl 2) Gollnick H, Cunliffe W, Berson D, et al: Management of acne: A report from a Global Alliance to Improve Outcomes in Acne. J Am Acad Dermatol 49:S1-S37, 2003 (suppl 1) Plewig G, Fulton JE, Kligman AM, et al: Cellular dynamics of comedo formation in acne vulgaris. Arch Dermatol Forsch 242:12-29, 1971 Lavker RM, Leyden JJ, Thorne EG, et al: An ultrastructural study of the effects of topical tretinoin on microcomedones. Clin Ther 14:773-780, 1992 Thielitz A, Sidou F, Gollnick H, et al: Control of microcomedone formation throughout a maintenance treatment with adapalene gel, 0.1%. J Euro Acad Dermatol Venereol 21:747-753, 2007 Feng X, Peng ZH, Di W, et al: Suprabasal expression of a dominantnegative RXR alpha mutant in transgenic mouse epidermis impairs regulation of gene transcription and basal keratinocyte proliferation by RAR-selective retinoids. Genes Dev 11:59-71, 1997 Tang XH, Vivero M, Gudas LJ, et al: Overexpression of CRABPI in suprabasal keratinocytes enhances the proliferation of epidermal basal keratinocytes in mouse skin topically treated with all-trans retinoic acid. Exp Cell Res 314:38-51, 2008 Jeremy AH, Holland DB, Roberts SG, et al: Inflammatory events are involved in acne lesion initiation. J Invest Dermatol 121:20-27, 2003 Ingham E, Eady EA, Goodwin CE, et al: Pro-inflammatory levels of interleukin-1 alpha-like bioactivity are present in the majority of open comedones in acne vulgaris. J Invest Dermatol 98:895-901, 1992 Guy R, Kealey T, Guy R, et al: Modelling the infundibulum in acne. Dermatology 196:32-37, 1998 Jeremy A, Holland DB, Roberts S, et al: Inflammatory events are involved in acne lesion initiation. J Invest Dermatol 121:20-27, 2003 Eady EA, Goodwin CE, Cove JH, et al: Inflammatory levels of interleukin 1 alpha are present in the majority of open comedones in acne vulgaris. Arch Dermatol 127:1238-1239, 1991 Kim J, Ochoa M, Krutzik S, et al: Activation of toll-like receptor 2 in acne triggers inflammatory cytokine responses. J Immunol 169:15351541, 2002 28. Jugeau S, Tenaud I, Knol AC, et al: Induction of toll-like receptors by Propionibacterium acnes. Brit J Dermatol 153:1105-1113, 2005 29. Vowels B, Yang S, Leyden J: Induction of proinflammatory cytokines by a soluble factor of Propionibactreium acnes: Implications for chronic inflammatory acne. Infect Immun 63:3158-3165, 1995 30. Liu PT, Krutzik SR, Kim J, et al: Cutting edge: All-trans retinoic acid down-regulates TLR2 expression and function. J Immunol 174:24672470, 2005 31. Tenaud I, Khammari A, Dreno B, et al: In vitro modulation of TLR-2, CD1d and IL-10 by adapalene on normal human skin and acne inflammatory lesions. Exp Dermatol 16:500-506, 2007 32. Benkoussa M, Brand C, Delmotte MH, et al: Retinoic acid receptors inhibit AP1 activation by regulating extracellular signal-regulated kinase and CBP recruitment to an AP1-responsive promoter. Mol Cell Biol 22:4522-4534, 2002 33. Griffiths CE, Elder JT, Bernard BA, et al: Comparison of CD271 (adapalene) and all-trans retinoic acid in human skin: Dissociation of epidermal effects and CRABP-II mRNA expression. J Invest Dermatol 101: 325-328, 1993 34. Asselineau D, Cavey MT, Shroot B, et al: Control of epidermal differentiation by a retinoid analogue unable to bind to cytosolic retinoic acid-binding proteins (CRABP). J Invest Dermatol 98:128-134, 1992 35. Thiboutot D, Pariser DM, Egan N, et al: Adapalene gel 0.3% for the treatment of acne vulgaris: a multicenter, randomized, double-blind, controlled, phase III trial. J Am Acad Dermatol 54:242-250, 2006 36. Leyden J, Grove G, Zerweck C, et al: Facial tolerability of topical retinoid therapy. J Drugs Dermatol 3:641-651, 2004 37. Esgleyes-Ribot T, Chandraratna RA, Lew-Kaya DA, et al: Response of psoriasis to a new topical retinoid, AGN 190168. J Am Acad Dermatol 30(4):581-590, 1994 38. Ross JI, Snelling AM, Carnegie E, et al: Antibiotic-resistant acne: Lessons from Europe. Br J Dermatol 148:467-478, 2003 39. Leyden JJ, Shalita A, Thiboutot D, et al: Topical retinoids in inflammatory acne: A retrospective, investigator-blinded, vehicle-controlled, photographic assessment. Clin Ther 27:216-224, 2005 40. Nyirady J, Lucas C, Yusuf M, et al: The stability of tretinoin in tretinoin gel microsphere 0.1%. Cutis 70:295-298, 2002 41. Martin B, Meunier C, Montels D, et al: Chemical stability of adapalene and tretinoin when combined with benzoyl peroxide in presence and in absence of visible light and ultraviolet radiation. Br J Dermatol 139:811, 1998 (suppl 52) 42. Bikowski J, Callender VD, Del Rosso JQ, et al: Combining clindamycin 1%-benzoyl peroxide 5% gel with multiple therapeutic options. Cutis 78:13-20, 2006 (suppl 2) 43. Foster RH, Brogden RN, Benfield P, et al: Tazarotene. Drugs 55:705711, 1998 44. Nighland M, Yusuf M, Wisniewski S, et al: The effect of simulated solar UV irradiation on tretinoin in tretinoin gel microsphere 0.1% and tretinoin gel 0.025%. Cutis 77:313-316, 2006 45. Kochhar DM, Christian MS: Tretinoin: A review of the nonclinical developmental toxicology experience. J Amer Acad Dermatol 36:S47S59, 1997 46. Jick H, Jick H: Retinoids and teratogenicity. J Am Acad Dermatol 39: S118-S122, 1998
© Copyright 2024