Topical glucocorticoids for dermal application were introduced more than 40 years ago and revolutionised the treatment of inflammatory skin diseases. Today these drugs are frequently administered, although systemic and local adverse drug reactions, especially skin atrophy, are feared complications of their use. This literature review evaluates the present state of topical glucocorticoid therapy for inflammatory skin diseases. Several attempts have been made to increase the safety of topical glucocorticoid treatment. With respect to conventional compounds, new application schedules, as well as new vehicles, have been proposed. New derivatives have also been synthesized, forming the novel group of nonhalogenated double-ester-type glucocorticoids. Among these latter compounds, prednicarbate and 6-methyl-prednisolone aceponate have been characterised most thoroughly. According to in vivo studies, their anti-inflammatory activity is in the order of that of betamethasone valerate (a frequently used medium potency glucocorticoid, which is obtained by halogenation of the pregnane nucleus of the steroid molecule). Furthermore, these new congeners induce less skin atrophy than conventional glucocorticoids, as determined by in vivo and in vitro studies. Qualitative and quantitative assessment of the therapeutic and adverse effects of non-halogenated double-ester-type glucocorticoids suggests an increased benefit-to-risk ratio.
Whereas soap has long been the only cleansing agent, a new generation of cleansers, the so-called synthetic detergents or syndets, has been developed during the last decades. They offer a wide variety of formulations and are therefore becoming more and more important for cleansing of diseased and healthy skin. Among the syndets, especially those with a pH of about 5.5 seem to be relevant. In contrast to alkaline soap, they do not interfere with the cutaneous microflora, whose composition is linked to the skin surface pH. As their irritancy potential might be even lower than that of soap, the benefit-to-risk ratio of syndets appears favorable.
The anti-inflammatory activity of hamamelis distillate has been evaluated with respect to drug concentration (0.64 mg/2.56 mg hamamelis ketone/100 g) and the effect of the vehicle (O/W emulsion with/without phosphatidylcholine (PC) in an experimental study. The effects were compared with those of chamomile cream, hydrocortisone 1% cream and 4 base preparations. Erythema was induced by UV irradiation and cellophane tape stripping of the horny layer in 24 healthy subjects per test. Skin blanching was quantified by visual scoring and chromametry. Drug effects were compared with one another and with an untreated control area, as well as with any action due to the vehicle. UV-induced erythema at 24 h was suppressed by low dose hamamelis PC-cream and hydrocortisone cream. Hydrocortisone appeared superior to both hamamelis vehicles, hamamelis cream (without PC) and chamomile cream. The latter preparation was also less potent than hamamelis PC-cream. Erythema 4 to 8 h after the stripping of the horny layer was suppressed by hydrocortisone (P < or = 0.05). Inflammation was also less pronounced following low dose hamamelis PC-cream and chamomile cream. Hamamelis PC-cream, however, appeared less potent than hydrocortisone. In general, visual scoring was more discriminatory than chromametry. The results have demonstrated an anti-inflammatory activity of hamamelis distillate in a PC-containing vehicle. A fourfold increase of drug concentration, however, did not produce an increase in activity.
Background: Tar and sulfonated shale oil preparations are used in the treatment of a variety of inflammatory skin diseases, including psoriasis vulgaris; due to the high polycyclic aromatic hydrocarbon (PAH) content of tars, a possible relationship with cancer in humans has been postulated. On the other hand, the purity of sulfonated shale oils concerning PAHs guarantees a good tolerability during dermatologic therapy. Aim: In this review, it is attempted to compare activity, efficacy and safety of coal tar, pine tar and sulfonated shale oil preparations which currently play a role in dermatologic treatment. Results and Conclusions: Primary sources of PAHs in the normal human environment are forest fires, cigarette smoke and combustion of fossil fuels for heating and energy. Thermal processing of fossil substances is also required for the production of tars and sulfonated shale oils. Due to individual manufacturing techniques, tars and sulfonated shale oils differ completely in their chemical composition. Still, sulfonated shale oils are often falsely grouped as tars because of their related origin and similar dermatologic indications. There is at least limited evidence of the activity and efficacy of various tars as well as sulfonated shale oil preparations in different frequent inflammatory skin diseases. This includes psoriasis vulgaris and atopic eczema of glabrous as well as hairy skin. There is still some concern about the long-term tolerability of tar preparations at least in some contexts. This, however, does not apply to sulfonated shale oil preparations. Consequently, at least their use should still be considered a rational drug treatment in dermatology.
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