Company InfoNewsInvestor InformationResearchDevelopmentCareersBusiness DevelopmentResourcesDrugs databaseBack to the home pageSearch  
Drugs database
Drugs A-Z

Brands A-Z

Drugs by categories

Drugs by manufacturer

Drugs by packager

Antibiotics for sale

Online Viagra bestellen in Nederland

Home / Drugs / Starting with X / Xanthophyll
 
Xanthophyll
 

Xanthophylls are yellow pigments from the carotenoid group that are widespread in nature. They are present in egg yolk, algae, and petals of yellow flowers, among other sources. The xanthophylls include lutein, zeaxanthin, neoxanthin, violaxanthin, and α- and β-cryptoxanthin, of which lutein is the primary ingested one.
BrandsBo-Xan
CategoriesDietary supplement
Micronutrient
Synonyms(3R,3'R,6'R)-Lutein
(3R,3'R,6S)-4,5-Didehydro-5,6-Dihydro-Beta,Beta-Carotene-3,3'-Diol
(3R,3'R)-Beta,Beta-Carotene-3,3'-Diol, Lutein
4,5-Didehydro-5,6-dihydro-beta,beta-carotene-3,3'-diol
All-trans-(+)-Xanthophyll
All-trans-Lutein
all-trans-Xanthophyll
beta,epsilon-Carotene-3,3'-diol
Lutein
Lutein ester
Luteine
Phylloxanthin
trans-Lutein
Vegetable lutein
Vegetable luteol

indication

Xanthophylls are taken for nutritional supplementation, and also for treating dietary shortage or imbalance.

pharmacology

Lutein was found to be present in a concentrated area of the macula, a small area of the retina responsible for central vision. The hypothesis for the natural concentration is that lutein helps protect from oxidative stress and high-energy light. Several studies show that an increase in macula pigmentation decreases the risk for eye diseases such as Age-related Macular Degeneration (AMD).

mechanism of action

Xanthophylls have antioxidant activity and react with active oxygen species, producing biologically active degradation products. They also can inhibit peroxidation of membrane phospholipids and reduce lipofuscin formation, both of which contribute to their antioxidant properties. Lutein is naturally present in the macula of the human retina. It filters out potentially phototoxic blue light and near-ultraviolet radiation from the macula. The protective effect is due in part, to the reactive oxygen species quenching ability of these carotenoids. Lutein is more stable to decomposition by pro-oxidants than are other carotenoids such as beta-carotene and lycopene. Lutein is abundant in the region surrounding the fovea, and lutein is the predominant pigment at the outermost periphery of the macula. Zeaxanthin, which is fully conjugated (lutein is not), may offer somewhat better protection than lutein against phototoxic damage caused by blue and near-ultraviolet light radiation. Lutein is one of only two carotenoids that have been identified in the human lens, may be protective against age-related increases in lens density and cataract formation. Again, the possible protection afforded by lutein may be accounted for, in part, by its reactive oxygen species scavenging abilities. Carotenoids also provide protection from cancer. One of the mechanisms of this is by increasing the expression of the protein connexin-43, thereby stimulating gap junctional communication and preventing unrestrained cell proliferation.