Topic:Sebaceous Glands
Sebaceous glands in horses are microscopic exocrine glands located within the skin. These glands are responsible for secreting sebum, an oily substance that helps to lubricate and protect the skin and hair. Sebum plays a role in maintaining the skin's barrier function and contributes to the overall health of the horse's coat. The activity of sebaceous glands can vary depending on factors such as age, hormonal changes, and environmental conditions. This page compiles peer-reviewed research studies and scholarly articles that explore the structure, function, and regulation of sebaceous glands in horses, as well as their relevance to equine dermatological health.
Seasonal influences on quantitative changes in sweat-associated anatomy in native and thoroughbred horses. Stereological techniques were used to assess seasonal influences on morphometric characteristics of hair follicles, sweat and sebaceous glands in abattoir pelts of ponies (PN), thoroughbred (TB) and non-thoroughbred (NTB) horses. Volume density of sweat glands increased significantly from winter (0.061) to summer (0.098) in TB, and showed no change in NTB and a positive tendency in PN. There might be a body surface area : volume effect for sweat gland parameters as PN had smaller values than either TB or NTB, probably attributable to control of heat loss in winter. In summer, the skin remained...
Aspects of glycoconjugate production and lysozyme- and defensins-expression of the ceruminous glands of the horse (Equus przewalskii f. dom.). The distribution of complex glycoconjugates and antimicrobial substances in the ceruminous glands of the horse (Equus przewalskii f. dom., type: pony) was studied using carbohydrate histochemical and immunohistochemical methods. The epithelial cells and luminal secretion of these glands exhibited considerable amounts of glycoconjugates with various saccharide residues, such as alpha-D-mannose, alpha-L-fucose, beta-D-galactose, beta-N-acetyl-D-glucosamine and sialic acid, including O-acetylated sialic acid. Several sugars (alpha-D-mannose, alpha-L-fucose, and beta-D-galactose) were also detecta...
Comparison of acetate and glucose incorporation into rat and horse skin lipids. The relative efficiency of acetate and glucose as substrates for the biosynthesis of lipids in the skin of the rat and horse was examined using in vivo pulse labelling of skin with [1-14C]acetate and [U-14C]glucose by intradermal injections. The resulting radiolabelled lipids were recovered in the rat by punch biopsy as well as by daily, long-term skin surface lipid collections and in the horse by punch biopsy of the injection sites. The lipids were examined by liquid scintillation and by a combination of thin-layer chromatography and autoradiography. In both species the recovery of radiolabel...
The time-course of lipid biosynthesis in horse skin. To observe the time-course of formation of sebaceous lipids in the horse, skin was pulse-labelled in vivo by intradermal injection of [1-14C]acetate and the injection sites were harvested at intervals for up to 12 days by skin punch biopsy. The distribution of radioactivity among the major neutral lipid classes and the phospholipids from these biopsies showed that, soon after pulse-labelling, the phospholipids were highly labelled followed by a long-term decrease in radioactivity. Over the same period, the low initial labelling of the dominant component, the equolides (giant ring omega-lactone...
Measurement of the time between biosynthesis and surface excretion of sebaceous lipids in the horse. The time between the biosynthesis and excretion of sebum to the skin surface of the horse was examined by in vivo intradermal injection of [1-14C]acetate followed by periodic surface lipid collections. The radiolabelling of the major neutral lipid classes, equolides (giant ring omega-lactones, C32-C36) and cholesteryl esters, was evaluated by thin-layer chromatography and autoradiography. The distribution of radioactivity within the monounsaturated equolides was examined by oxidative fragmentation and evaluation of the products. A peak of radioactivity in the equolides and cholesteryl esters o...
Comparison of the hydroxyacids from the epidermis and from the sebaceous glands of the horse. The acylglucosylceramides were isolated from the polar lipids of horse epidermis and examined to determine whether the component omega-hydroxyacids are straight chained as in the corresponding lipids from pig epidermis or branched as in horse sebum. The hydroxyacids from horse epidermis were found to be almost entirely straight chained compounds. The results indicate that sebaceous glands, although derived from epidermal cells, have evolved independent pathways of lipid metabolism.