Influence of 16 alpha, 17 alpha-acetal substitution and steroid nucleus fluorination on the topical to systemic activity ratio of glucocorticoids.

The use of topical glucocorticosteroid therapy on large skin areas or in the lung is sometimes restricted by the occurrence of unwanted, general corticoid actions owing to a profound systemic absorption. To decrease this risk potent glucocorticoids with an enhanced ratio between their topical and their systemic glucocorticoid potencies are wanted. Therefore, structure-activity studies were performed in rat models to investigate what influences the type of substitution in the 16 alpha, 17 alpha-acetal group and the introduction of fluorine in the 9 alpha- or the 6 alpha, 9 alpha-positions have on the topical and the systemic activities, respectively. The introduction of an unsymmetrical 16 alpha, 17 alpha-acetal group (named acetal type B) markedly enhanced the topical anti-inflammatory potency compared with that of the conventional 16 alpha, 17 alpha-acetonide group (named acetal type A). Both acetal types had a similar systemic glucocorticoid potency, however, 9 alpha-Fluoro and especially 6 alpha, 9 alpha-difluoro substitution, on the other hand, enhanced the systemic glucocorticoid activity more than they raised the topical anti-inflammatory potency. Optimal topical to systemic activity ratio was obtained with a nonhalogenated corticoid of acetal type B structure. This compound, budesonide, had at least the same high topical anti-inflammatory potency as fluocinolone acetonide but was about 10 times less potent than this reference to induce systemic glucocorticoid actions. Its lower systemic activity is probably due to a more rapid biotransformation in the liver.