In search of safe pain relief: The analgesic and anti-inflammatory activity of phytosteryl ibuprofenates.

ß-Sitosteryl (S)-ibuprofenate (2), stigmasteryl (S)-ibuprofenate (3), ergosteryl (S)-ibuprofenate (4), and cholesteryl (S)-ibuprofenate (5) were prepared in 70-75% yields by Steglich esterification and were characterized by 1D and 2D NMR, as well as by MS. The new esters were evaluated in in vivo pain models of antinociception and anti-inflammation using the writhing, formalin, and carrageenan tests, in mice and rats, and the results were compared with those of (S)-ibuprofen (1). Damage to the gastric mucosa of animals was also assessed. The results indicated that 2-5 have comparable or eventually better activity than 1 at the same mg/kg doses. Since the molecular weight ratio of esters 2-5 to ibuprofen is about 3-1, the amount of truly incorporated ibuprofen was roughly one third to achieve similar effects. This resulted in minimal gastrointestinal damage in the stomach of the animals, in contrast to the large gastric injury caused by (S)-ibuprofen.

Host gender in parasitic infections of mammals: an evaluation of the female host supremacy paradigm.

A review of current literature on mammalian hosts' sexual dimorphism (SD) in parasitic infections revealed that (1) it is a scarcely and superficially studied biological phenomenon of considerable significance for individual health, behavior, and lifestyles and for the evolution of species; (2) there are many notable exceptions to the rule of a favorable female bias in susceptibility to infection; (3) a complex network of molecular and cellular reactions connecting the host's immuno-neuroendocrine systems with those of the parasite is responsible for the host-parasite relationship rather than just an adaptive immune response and sex hormones; (4) a lack of gender-specific immune profiles in response to different infections; (5) the direct effects of the host hormones on parasite physiology may significantly contribute to SD in parasitism; and (6) the need to enrich the reductionist approach to complex biological issues, like SD, with more penetrating approaches to the study of cause-effect relationships, i.e., network theory. The review concludes by advising against generalization regarding SD and parasitism and by pointing to some of the most promising lines of research.