Establishing a Minimal Erythema Concentration of Methyl Nicotinate for Optimum Evaluation of Anti-Inflammatories

Topical administration of chemicals such as methyl nicotinate that induce erythema have been employed to measure the effectiveness of formulations containing anti-inflammatory agents. Prior studies have utilized a single concentration of methyl nicotinate, between 36.5 and 100 mM, for all test subje...

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Published in	Skin pharmacology and physiology Vol. 19; no. 3; pp. 147 - 152
Main Authors	Jumbelic, L.C., Liebel, F.T., Southall, M.D.
Format	Journal Article
Language	English
Published	Basel, Switzerland S. Karger AG 01.01.2006
Subjects	Administration, Topical Adult Anti-Inflammatory Agents, Non-Steroidal - administration & dosage Anti-Inflammatory Agents, Non-Steroidal - therapeutic use Dermatitis, Contact - drug therapy Erythema - chemically induced Erythema - drug therapy Female Humans Ibuprofen - administration & dosage Ibuprofen - therapeutic use Male Middle Aged Nicotinic Acids - toxicity Original Paper Skin - drug effects Skin - pathology Anti-inflammatories Diffuse reflectance spectrometry Erythema concentration Methyl nicotinate
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ISSN	1660-5527 1660-5535
DOI	10.1159/000092595

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Abstract	Topical administration of chemicals such as methyl nicotinate that induce erythema have been employed to measure the effectiveness of formulations containing anti-inflammatory agents. Prior studies have utilized a single concentration of methyl nicotinate, between 36.5 and 100 mM, for all test subjects in evaluations of topical formulations. However, individuals have different thresholds of response to methyl nicotinate; thus, a single concentration may not be appropriate for all individuals and could result in the apparent lack of anti-inflammatory activity of the formulation being evaluated. In the current study, we evaluated the use of a minimal erythema concentration (MEC) of methyl nicotinate, defined as the lowest concentration that produces a complete and even erythema at the test site, compared with a 36.5-mM concentration of methyl nicotinate. Hydroalcoholic gels containing the nonsteroidal anti-inflammatory drug ibuprofen were compared with placebo. Diffuse reflectance spectroscopy was employed to measure differences in cutaneous inflammatory response between the control (placebo)-treated group and the ibuprofen-treated group. When chemical erythema was induced using an MEC of methyl nicotinate, greater reductions in erythema were seen in ibuprofen-treated sites compared with sites treated with a 36.5-mM concentration of methyl nicotinate. In conclusion, for an accurate assessment method of erythema induced by methyl nicotinate, consideration should be given to determining the extent of response of an erythema-producing agent on an individual basis. An MEC of methyl nicotinate should be determined and employed for each individual to obtain more consistent and reliable efficacy results of anti-inflammatory activity.
AbstractList	Topical administration of chemicals such as methyl nicotinate that induce erythema have been employed to measure the effectiveness of formulations containing anti-inflammatory agents. Prior studies have utilized a single concentration of methyl nicotinate, between 36.5 and 100 mM, for all test subjects in evaluations of topical formulations. However, individuals have different thresholds of response to methyl nicotinate; thus, a single concentration may not be appropriate for all individuals and could result in the apparent lack of anti-inflammatory activity of the formulation being evaluated. In the current study, we evaluated the use of a minimal erythema concentration (MEC) of methyl nicotinate, defined as the lowest concentration that produces a complete and even erythema at the test site, compared with a 36.5-mM concentration of methyl nicotinate. Hydroalcoholic gels containing the nonsteroidal anti-inflammatory drug ibuprofen were compared with placebo. Diffuse reflectance spectroscopy was employed to measure differences in cutaneous inflammatory response between the control (placebo)-treated group and the ibuprofen-treated group. When chemical erythema was induced using an MEC of methyl nicotinate, greater reductions in erythema were seen in ibuprofen-treated sites compared with sites treated with a 36.5-mM concentration of methyl nicotinate. In conclusion, for an accurate assessment method of erythema induced by methyl nicotinate, consideration should be given to determining the extent of response of an erythema-producing agent on an individual basis. An MEC of methyl nicotinate should be determined and employed for each individual to obtain more consistent and reliable efficacy results of anti-inflammatory activity. Copyright © 2006 S. Karger AG, Basel Topical administration of chemicals such as methyl nicotinate that induce erythema have been employed to measure the effectiveness of formulations containing anti-inflammatory agents. Prior studies have utilized a single concentration of methyl nicotinate, between 36.5 and 100 mM, for all test subjects in evaluations of topical formulations. However, individuals have different thresholds of response to methyl nicotinate; thus, a single concentration may not be appropriate for all individuals and could result in the apparent lack of anti-inflammatory activity of the formulation being evaluated. In the current study, we evaluated the use of a minimal erythema concentration (MEC) of methyl nicotinate, defined as the lowest concentration that produces a complete and even erythema at the test site, compared with a 36.5-mM concentration of methyl nicotinate. Hydroalcoholic gels containing the nonsteroidal anti-inflammatory drug ibuprofen were compared with placebo. Diffuse reflectance spectroscopy was employed to measure differences in cutaneous inflammatory response between the control (placebo)-treated group and the ibuprofen-treated group. When chemical erythema was induced using an MEC of methyl nicotinate, greater reductions in erythema were seen in ibuprofen-treated sites compared with sites treated with a 36.5-mM concentration of methyl nicotinate. In conclusion, for an accurate assessment method of erythema induced by methyl nicotinate, consideration should be given to determining the extent of response of an erythema-producing agent on an individual basis. An MEC of methyl nicotinate should be determined and employed for each individual to obtain more consistent and reliable efficacy results of anti-inflammatory activity. Topical administration of chemicals such as methyl nicotinate that induce erythema have been employed to measure the effectiveness of formulations containing anti-inflammatory agents. Prior studies have utilized a single concentration of methyl nicotinate, between 36.5 and 100 mM, for all test subjects in evaluations of topical formulations. However, individuals have different thresholds of response to methyl nicotinate; thus, a single concentration may not be appropriate for all individuals and could result in the apparent lack of anti-inflammatory activity of the formulation being evaluated. In the current study, we evaluated the use of a minimal erythema concentration (MEC) of methyl nicotinate, defined as the lowest concentration that produces a complete and even erythema at the test site, compared with a 36.5-mM concentration of methyl nicotinate. Hydroalcoholic gels containing the nonsteroidal anti-inflammatory drug ibuprofen were compared with placebo. Diffuse reflectance spectroscopy was employed to measure differences in cutaneous inflammatory response between the control (placebo)-treated group and the ibuprofen-treated group. When chemical erythema was induced using an MEC of methyl nicotinate, greater reductions in erythema were seen in ibuprofen-treated sites compared with sites treated with a 36.5-mM concentration of methyl nicotinate. In conclusion, for an accurate assessment method of erythema induced by methyl nicotinate, consideration should be given to determining the extent of response of an erythema-producing agent on an individual basis. An MEC of methyl nicotinate should be determined and employed for each individual to obtain more consistent and reliable efficacy results of anti-inflammatory activity.Topical administration of chemicals such as methyl nicotinate that induce erythema have been employed to measure the effectiveness of formulations containing anti-inflammatory agents. Prior studies have utilized a single concentration of methyl nicotinate, between 36.5 and 100 mM, for all test subjects in evaluations of topical formulations. However, individuals have different thresholds of response to methyl nicotinate; thus, a single concentration may not be appropriate for all individuals and could result in the apparent lack of anti-inflammatory activity of the formulation being evaluated. In the current study, we evaluated the use of a minimal erythema concentration (MEC) of methyl nicotinate, defined as the lowest concentration that produces a complete and even erythema at the test site, compared with a 36.5-mM concentration of methyl nicotinate. Hydroalcoholic gels containing the nonsteroidal anti-inflammatory drug ibuprofen were compared with placebo. Diffuse reflectance spectroscopy was employed to measure differences in cutaneous inflammatory response between the control (placebo)-treated group and the ibuprofen-treated group. When chemical erythema was induced using an MEC of methyl nicotinate, greater reductions in erythema were seen in ibuprofen-treated sites compared with sites treated with a 36.5-mM concentration of methyl nicotinate. In conclusion, for an accurate assessment method of erythema induced by methyl nicotinate, consideration should be given to determining the extent of response of an erythema-producing agent on an individual basis. An MEC of methyl nicotinate should be determined and employed for each individual to obtain more consistent and reliable efficacy results of anti-inflammatory activity.
Author	Jumbelic, L.C. Liebel, F.T. Southall, M.D.
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Cites_doi	10.1034%2Fj.1600-0536.2000.042002085.x 10.1038%2Fsj.npp.1300227 10.1038%2Fclpt.1985.170 10.1562%2F0031-8655%282001%29074%3C0471%3ASOUICE%3E2.0.CO%3B2 10.1016%2FS0378-5173%2897%2904884-9 10.1159%2F000211149 10.1111%2Fj.1600-0749.2004.00204.x 10.1111%2F1523-1747.ep12666001 10.1117%2F1.1647545 10.1001%2Farchderm.105.3.387 10.1159%2F000066432 10.1159%2F000069026 10.1159%2F000049399 10.1007%2Fs002280000132 10.1007%2FBF00509031 10.1067%2Fmjd.2001.112919 10.1111%2F1523-1747.ep12499963 10.1016%2FS0928-0987%2801%2900163-4 10.1159%2F000211475 10.1111%2Fj.1365-2133.1972.tb05094.x 10.1046%2Fj.1464-5491.2000.00248.x 10.1016%2F0024-3205%2895%2902123-Z 10.1016%2F0923-1811%2891%2990027-U
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Keywords	Anti-inflammatories Diffuse reflectance spectrometry Erythema concentration Methyl nicotinate
Language	English
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References_xml	– reference: Kikuchi K, Tagami H: Comparison of the effects of daily applications between topical corticosteroid and tacrolimus ointments on normal skin: evaluation with noninvasive methods. Dermatology 2002;205:378-382.1244433510.1159%2F000066432 – reference: Stamatas G, Zmudzka BZ, Kollias N, Beer JZ: Non-invasive measurements of skin pigmentation in situ. Pigment Cell Res 2004;17:618-626.1554101910.1111%2Fj.1600-0749.2004.00204.x – reference: Kollias N, Gillies R, Mucini JA, Uyeyama RK, Phillips SB, Drake LA: A single parameter, oxygenated hemoglobin, can be used to quantify irritant-induced inflammation. J Invest Dermatol 1995;104:421-424.786101210.1111%2F1523-1747.ep12666001 – reference: Johansson J, Lahti A: Topical non-steroidal anti-inflammatory drugs inhibit non-immunologic immediate contact reactions. Contact Dermatitis 1988;19:161-165.3191676 – reference: Elmets CA, Singh D, Tubesing K, Matsui M, Katiyar S, Mukhtar H: Cutaneous photoprotection from ultraviolet injury by green tea polyphenols. J Am Acad Dermatol 2001;44:425-432.1120911010.1067%2Fmjd.2001.112919 – reference: Agache P: Assessment of erythema and pallor; in Agache P, Humbert P (eds): Measuring the Skin. Berlin, Springer, 2004, pp 591-601. – reference: Vie K, Cours-Darne S, Vienne MP, Boyer F, Fabre B, Dupuy P: Modulating effects of oatmeal in the sodium lauryl sulfate skin irritancy model. Skin Pharmacol Appl Skin Physiol 2002;15:120-124.1186796910.1159%2F000049399 – reference: Stamatas G, Kollias N: Blood stasis contributions to the perception of skin pigmentation. J Biomed Opt 2004;9:315-322.1506589710.1117%2F1.1647545 – reference: Reinberg AE, Soudant E, Koulbanis C, Bazin R, Nicolai A, Mechkouri M, Touitou Y: Circadian dosing time dependency in the forearm skin penetration of methyl and hexyl nicotinate. 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Snippet	Topical administration of chemicals such as methyl nicotinate that induce erythema have been employed to measure the effectiveness of formulations containing...
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SubjectTerms	Administration, Topical Adult Anti-Inflammatory Agents, Non-Steroidal - administration & dosage Anti-Inflammatory Agents, Non-Steroidal - therapeutic use Dermatitis, Contact - drug therapy Erythema - chemically induced Erythema - drug therapy Female Humans Ibuprofen - administration & dosage Ibuprofen - therapeutic use Male Middle Aged Nicotinic Acids - toxicity Original Paper Skin - drug effects Skin - pathology
Title	Establishing a Minimal Erythema Concentration of Methyl Nicotinate for Optimum Evaluation of Anti-Inflammatories
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