UMLS:C0152030 - FACTA Search

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Query: UMLS:C0152030 (skin irritation)
2,146 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A transdermal patch for the OTC antihistamine, triprolidine (TP), might provide benefits in terms of increased efficacy and reduced sedative side effects. However, concerns over potential irritant or allergic contact sensitization (ACS) skin reactions necessitated through skin toxicity testing before and during initial clinical development. Initial effort was expended on development of a binary vehicle delivery system comprised of TP in 0.5% oleic acid (OA) in propylene glycol (PG). Rabbit skin irritation and Buehler guinea pig skin sensitization testing indicated that this TP/OA/PG formula had both skin irritation and ACS potential. Both tests underestimated, to some degree, the skin toxicities observed in later clinical testing. In clinical tests, skin irritation was due mainly to the OA/PG vehicle, but was enhanced in the presence of high TP concentrations. Of 26 subjects enrolled in a rising dose clinical pharmacokinetics study, one subject exposed twice to TP/OA/PG presented with delayed skin reactions suggestive of ACS. Positive diagnostic patch test results for this subject and four out of five other twice-exposed study subjects suggested that the TP/OA/PG formula had a very high ACS potential. Subsequent predictive clinical patch testing was conducted with a buffered aqueous TP formula which provided in vitro skin penetration of the drug equivalent to the TP/OA/PG formula. These clinical studies demonstrated that TP itself had no significant irritation potential but still induced ACS reactions in a high proportion of test subjects. The incidence of adverse skin reactions to TP was considered to be too high relative to the degree of improved therapeutic benefit of this delivery form. On this basis, all technology development effort was discontinued.
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PMID:Evaluation of the primary skin irritation and allergic contact sensitization potential of transdermal triprolidine. 191 69

Comparisons were made of branched vs unbranched saturated fatty acids and cis vs trans unsaturated fatty acids as skin penetration enhancers and primary skin irritants. Skin penetration studies used naloxone base as the diffusant, propylene glycol as the vehicle, and human skin. Maximum naloxone flux was with C9-12-branched and unbranched fatty acids. For C5-14 fatty acids, branched and unbranched isomers had similar effects. One branched C18 fatty acid isomer (C16-branched isostearic acid) was more effective in enhancing skin penetration than a differently branched (C2-branched isostearic acid) or unbranched C18 isomer (stearic acid). There was no significant difference between cis and trans unsaturated C16-18 fatty acid isomers in their effects on naloxone flux, and all unsaturated fatty acids were more effective enhancers than the corresponding saturated isomers. Several of these fatty acid/propylene glycol vehicles were evaluated in a rabbit primary skin irritation test. Irritation indices were poorly correlated with the effectiveness of the vehicles in enhancing naloxone flux. It was possible to enhance naloxone skin penetration greatly with a vehicle with only minimal skin irritation potential.
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PMID:Structure/effect studies of fatty acid isomers as skin penetration enhancers and skin irritants. 272 82

The lack of a first-pass effect for locally-applied substances is often not considered. This is especially true for such central nervous system agents as salicylic acid, hexachlorophene or caffeine which have a relatively low toxicity when applied orally. Manifestation of dermal irritation, such as a beginning rash or inflammation, are often tolerated because the beneficial effects of some topically applied substances outweight the damage (Dithranol, 5-Fluorouracil). This applies to some anti-phlogistics as well, which may also cause skin irritation. Some substances, such as benzoyl peroxide, vitamin-A acid and beta-estradiol have direct or indirect desiccative effects so that skin irritations may occur. Other substances, such as tar, for example, are applied locally although they may have a carcinogenic potential when misused, or when contraindications for its use are disregarded. Local risks can be recognized in clinical-experimental and clinical testing of dermatological products. One must, however, look carefully for an intensification of possible risks related to the method of application, the condition of the skin, the site of application, supporting therapeutic measures or changes in the composition of the vehicle. Lanolin, cetyl alcohol and myristyl alcohol, sorbitol, isopropyl-myristate as well as polyethylene glycols (PEG) penetrate the skin like active substances. Some have been connected with skin allergies. In addition, some preservatives have mutagenic properties. Many vehicles cause dehydration of the horny layer and thus result in chronic surface damage. This is true for hygroscopic substances such as PEG as well as for liquid paraffins, lipid solvents (alcohol, acetone), solvents such as propylene glycol and for some O/W emulsifiers.
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PMID:Adverse reactions of externally applied drugs and inert substances. 297 21

In order to develop topical drugs aside from galenic problems, there should be considerations how the skin could be made permeable. For the purpose of receiving an topical basis which favours penetration, ingredients known as auxiliary agents are used, which themselves have an effect on the horny layer and therefore impair the barrier function. The horny layer is irritated to a varying extent due to the chemical and physical properties of such substances. While the concentration of the active ingredients in the epidermis is improved, the irritation of the horny layer must be accepted. When using corticoids this fact may be misconstrued for lacking efficacy. Although auxiliary agents like polyethylene glycol, propylene glycol, o/w emulsifiers, alcohols or acetone show various effects on the horny layer, they all cause dehydration. Experimental data show that for propylene glycol this is clearly concentration related. Other only rarely used solvents like DMSO or dimethyl acetamide have properties directly altering the structure of the horny layer. Even topically applied ingredients only partially show the desired direct or indirect irritative effect on the horny layer. This is true for substances reacting directly with keratin as well as for substances which exhibit cytostatic or cytotoxic effects on the epidermis and for substances that lead to skin irritation. A risk/benefit evaluation is under discussion.
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PMID:Skin irritation by topical drugs. 687 67

The use of etomidate as an anaesthetic induction agent has been hampered significantly by unwanted side effects such as pain on injection and thrombophlebitis. Investigations by Doenicke et al. have shown that the solubilizer propylene glycol is responsible for these side effects and that they can be avoided by the use of a lipid emulsion formulation. It was the goal of the present study to quantitate the reduction of thrombophlebitis and pain on injection following both formulations under double-blind study conditions. METHODS. In 100 patients anaesthesia was induced either with a new galenic formulation of etomidate--etomidate in lipid emulsion formulation (Lipofundin MCT 20%; eto-lip)--or with etomidate in propylene glycol 35% (eto-pg). Both groups received 0.3 mg kg-1 etomidate in double-blind randomized fashion. After the injection of etomidate the venous cannula was removed. The observing anaesthetist was unaware of the study drug used, to guarantee blinded investigation conditions. Discomfort and pain during and following injection were recorded, as was local skin irritation. Venous sequelae were assessed for 7 days following injection to register the occurrence of thrombophlebitis. RESULTS. Demographic data were not different between the two groups. For induction of anaesthesia the same dose of both preparations was necessary, and no difference in heart rate and blood pressure before, during or after anaesthesia induction was observed. Pain on injection (78% vs 14%), myoclonus (24% vs 8%) and local skin reaction (50% vs 6%) were present significantly more often in the eto-pg group (P < 0.01; P < 0.05 respectively, chi-square test) than in the eto-lip group. On the 1st and 2nd postoperative days, examination of the injected vein revealed a significantly higher incidence of symptoms of thrombophlebitis in the group treated with eto-pg (25% vs 3%). CONCLUSION. From these results it is concluded that in terms of vein compatibility the new galenic formulation of etomidate with lipofundin MCT 20% is superior to the propylene glycol preparation while pharmacodynamic properties seem not to be affected.
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PMID:[Anesthesia induction using etomidate in a lipid emulsion]. 848 91

Topical application of a skin permeation enhancer such as oleic acid (OA) can result in: (i) higher skin permeability for many exogenous substances (ii) an irritation reaction. Laser Doppler velocimetry (LDV) is one of few techniques which can assess both effects using appropriate protocols. Direct LDV measurement, measuring cutaneous blood flow, has been preferred as a tool to evaluate skin irritation. By comparing the LDV value of an irritant-treated site with an untreated site, an irritation index for the irritant can be obtained. Occlusive application of 0.16 M OA in propylene glycol (PG) for either 3 or 24 h produced irritation in form of redness and slight swelling. Using LDV, we obtained an irritation index of 2 and 4, respectively. The vehicle, PG alone, produced an index of around 1, which corresponded well to the slight to almost no irritation observed visually. The duration of the high irritation index assessed by LDV after OA-PG application is comparable to the duration of the increase in transepidermal water loss following the same application. This indicates a correlation between skin irritation and barrier perturbation caused by OA. LDV can also be used to elucidate the effect of enhancers on skin using hexyl nicotinate (HN) as a model drug, since its vasodilative effect can be clearly assessed by LDV. Pre-treatment of PG for 3 h significantly reduced the t0 and tmax of HN. No further reduction could be observed when OA was added into PG, suggesting that OA-PG is not more effective than PG alone in enhancing the permeation of HN.
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PMID:In vivo human skin permeability enhancement by oleic acid: a laser Doppler velocimetry study. 1002 93

Calendula Officinalis Extract is an extract of the flowers of Calendula officinalis, the common marigold, whereas Calendula Officinalis is described as plant material derived from the flowers of C. officinalis. Techniques for preparing Calendula Officinalis Extract include gentle disintegration in soybean oil. Propylene glycol and butylene glycol extractions were also reported. Components of these ingredients are variously reported to include sugars, carotenoids, phenolic acids, sterols, saponins, flavonoids, resins, sterins, quinones, mucilages, vitamins, polyprenylquinones, and essential oils. Calendula Officinalis Extract is reported to be used in almost 200 cosmetic formulations, over a wide range of product categories. There are no reported uses of Calendula Officinalis. Acute toxicity studies in rats and mice indicate that the extract is relatively nontoxic. Animal tests showed at most minimal skin irritation, and no sensitization or phototoxicity. Minimal ocular irritation was seen with one formulation and no irritation with others. Six saponins isolated from C. officinalis flowers were not mutagenic in an Ames test, and a tea derived from C. officinalis was not genotoxic in Drosophila melanogaster. No carcinogenicity or reproductive and developmental toxicity data were available. Clinical testing of cosmetic formulations containing the extract elicited little irritation or sensitization. Absent any basis for concluding that data on one member of a botanical ingredient group can be extrapolated to another in a group, or to the same ingredient extracted differently, these data were not considered sufficient to assess the safety of these ingredients. Additional data needs include current concentration of use data; function in cosmetics; ultraviolet (UV) absorption data; if absorption occurs in the UVA or UVB range, photosensitization data are needed; gross pathology and histopathology in skin and other major organ systems associated with repeated dermal exposures; dermal reproductive/developmental toxicity data; inhalation toxicity data, especially addressing the concentration, amount delivered, and particle size; and genotoxicity testing in a mammalian system; if positive, a 2-year dermal carcinogenicity assay performed using National Toxicology Program (NTP) methods is needed. Until these data are available, it is concluded that the available data are insufficient to support the safety of these ingredients in cosmetic formulations.
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PMID:Final report on the safety assessment of Calendula officinalis extract and Calendula officinalis. 1155 37

Adipic acid has very low acute toxicity in rats with an LD50 > 5000 mg/kg. Adipic acid produced mild to no skin irritation on intact guinea pig skin as a 50% concentration in propylene glycol; it was not a skin sensitizer. Adipic acid caused mild conjunctival irritation in washed rabbit eyes; in unwashed rabbit eyes, there was mild conjunctival irritation, minimal iritis, but no corneal effects. Adipic acid dust may irritate the mucous membranes of the lungs and nose. In a 2-year feeding study, rats fed adipic acid at concentrations up to 5% in the diet exhibited only weight loss. Adipic acid is not genetically active in a wide variety of assay systems. Adipic acid caused no developmental toxicity in mice, rats, rabbits, or hamsters when administered orally. Adipic acid is partially metabolized in humans; the balance is eliminated unchanged in the urine. Adipic acid is slightly to moderately toxic to fish, daphnia, and algae in acute tests.
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PMID:Toxicity of adipic acid. 1202 2

Triptolide possesses immunosuppressive, anti-fertility and anti-cancer activities. Due to its severe toxicity, microemulsions with controlled, sustained and prolonged delivery of triptolide via a transdermal route are expected to reduce its adverse side effects. The purpose of the present study was to investigate the microemulsions for transdermal delivery of triptolide. The pseudo-ternary phase diagrams were developed and various microemulsion formulations were prepared using oleic acid as an oil, Tween 80 as a surfactant and propylene glycol as a cosurfactant. The droplet size of microemulsions was characterized by photocorrelation spectroscopy. The transdermal ability of triptolide from microemulsions was evaluated in vitro using Franz diffusion cells fitted with mouse skins and triptolide was analyzed by high-performance liquid chromatography. The effect of menthol as a permeation enhancer, and the loading dose of triptolide in microemulsions on the permeation rate were also evaluated. The triptolide-loaded microemulsions showed an enhanced in vitro permeation through mouse skins compared to an aqueous solution of 20% propylene glycol containing 0.025% triptolide. The permeation of microemulsions accorded with the Fick's first diffusion law. No obvious skin irritation was observed for the studied microemulsion ME6, but the aqueous solution of 20% propylene glycol containing 0.025% triptolide revealed the significant skin irritation. The results indicate that the studied microemulsion systems, especially ME6, may be promising vehicles for the transdermal delivery of triptolide.
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PMID:A study of microemulsion systems for transdermal delivery of triptolide. 1531 98

The skin of patients with rosacea is extremely sensitive and hyper-reactive to dietary, environmental, and topical factors. Accordingly, the management of rosacea involves not only choosing appropriate medication and treatment for daily skin care, but also avoiding known trigger factors. Recently, 1% metronidazole, a mainstay of topical rosacea therapy, was reformulated in a gel vehicle that contains hydrosolubilizing agents (HSA) niacinamide, beta cyclodextrin, and a low concentration of propylene glycol. It is designed to solubilize greater concentrations of metronidazole than is possible in water alone while reducing the potential for irritation and barrier disruption. A 2-week study was undertaken by the author to evaluate the effect of the new 1% metronidazole gel on the skin barrier in 25 women with mild to moderate rosacea. Statistically significant improvement in disease severity, erythema, desquamation, and skin irritation was noted by the investigator by the end of week 1, which continued throughout the study. After 2 weeks, subjects noted improvements in skin condition and rosacea. Results of noninvasive assessments showed no disruption of the skin barrier. Furthermore, there was an increasing trend in skin hydration that approached statistical significance.
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PMID:Assessment of skin barrier function in rosacea patients with a novel 1% metronidazole gel. 1616 13

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