RESUMO
Dendrobium represents one of the most important orchid genera, ornamentally and medicinally. Dendrobiums are sympodial epiphytic plants, which is a name they are worthy of, the name coming from Greek origin: "dendros", tree, and "bios", life. Dendrobium species have been used for a thousand years as first-rate herbs in traditional Chinese medicine (TCM). They are source of tonic, astringent, analgesic, antipyretic, and anti-inflammatory substances, and have been traditionally used as medicinal herbs in the treatment of a variety of disorders, such as, nourishing the stomach, enhancing production of body fluids or nourishing Yin. The Chinese consider Dendrobium as one of the fifty fundamental herbs used to treat all kinds of ailments and use Dendrobium tonic for longevity. This review is focused on main research conducted during the last decade (2006-2016) on Dendrobium plants and their constituents, which have been subjected to investigations of their pharmacological effects involving anticancer, anti-diabetic, neuroprotective and immunomodulating activities, to report their undeniable potential for treating age-related pathologies.
RESUMO
Vandaterosides are polar glucosyloxybenzyl eucomate derivatives found in Vanda teres (Orchidaceae), which display biological activities that slow the skin ageing process. In order to obtain larger quantities to allow us to go further in the bioassays, the hydroalcoholic extract of aerial parts (leaves and stems) of V. teres were fractionated by centrifugal partition chromatography, combining isocratic, gradient, and dual elution modes. The first fractionation was performed on the extract maintained in the stationary phase as water saturated in butanol, while increasing the polarity of the mobile phase by changing the proportions of ethyl acetate/1-butanol/water, in order to obtain two enriched fractions. Vandateroside I was then purified by isocratic mode with ethyl acetate/ethanol/water (46:14:40), while vandateroside II was obtained by combining isocratic elution with ethyl acetate/isopropanol/water (30:20:50) followed by a multiple dual mode with ethyl acetate/ethanol/water (46:14:40). In this manner, hundreds of milligrams of vandateroside I and II were recovered from 10 g of V. teres extract.