Joyce, Paul; Meola, Tahlia R.; Schultz, Hayley B.; Prestidge, Clive A. published the artcile< Biomaterials that regulate fat digestion for the treatment of obesity>, Application of C29H53NO5, the main research area is review biomaterial fat digestion obesity.
Obesity is a rapidly growing concern worldwide, with over one-third of the global population classified as overweight or obese. While significant research has focused on developing new and improved nutritional and dietary approaches for regulating energy intake, there has been little success in overcoming the rising obesity statistics. Consequently, increasing attention is being afforded to designing safe, inexpensive and highly efficacious food-based materials that control fat and carbohydrate bioavailability in order to successfully manage the nutritional value of our food and combat chronic diseases associated with obesity, such as heart disease and diabetes. This review focuses on bioactive and nanostructured materials that have been shown to regulate energy intake by (i) manipulating the fat digestion process, and/or (ii) restricting the absorption of fat digestion products into the systemic bloodstream. The mechanistic approach of such technologies will be discussed in detail, with corresponding preclin. and clin. findings highlighted, to provide insights for the design and development of future anti-obesity therapeutics. Bioactive materials that regulate the fat digestion and absorption process have revealed promising preclin. and clin. findings with respects to modulating calorie intake and thus, weight gain. Insights derived from this review suggest materials that adsorb fat/fat digestion products, rather than interfering with enzyme action, are the most promising therapies, due to their ability to overcome the adverse effects associated with orlistat (the only FDA approved anti-obesity therapy with a localized mechanism of action within the gastrointestinal tract).
Trends in Food Science & Technology published new progress about Homo sapiens. 96829-58-2 belongs to class amides-buliding-blocks, and the molecular formula is C29H53NO5, Application of C29H53NO5.
Referemce:
Amide – Wikipedia,
Amide – an overview | ScienceDirect Topics