Amoxicillin is a broad-spectrum antibiotic widely used for treating both human and animal diseases, and it belongs to a group that are excreted unchanged within urine and faeces; therefore, it is possible to find traces of this drug or its degradation products in environmental water bodies. In water, it is rapidly degraded by biotic and abiotic factors, yielding different intermediate products; these are suspected of being more resistant to degradation, and potentially more toxic, than the parent compound. In the water bodies, these compounds may produce toxic effects on the aquatic organisms from different trophic levels and produce an ecological imbalance. Amoxicillin may bioaccumulate in fish muscle tissues, with the possibility of the occurrence of these drugs in food, leading to a passive consumption of this antibiotic resulting in undesirable effects on consumer health such as immunoallergic responses. However, the main problem related with the presence of this antimicrobial compounds in fish tissues is the possibility of inducing bacterial resistance genes. At present, the available scientific knowledge is less than what is needed to fully assess the risks that amoxicillin pose to the environment, and it is still necessary to conduct large amount of research works before a thorough understanding of this severe environmental issue.
Part of the book: Environmental Health Risk
Anthocyanins are the most important group of water-soluble compounds responsible for the red, purple, and blue colors seen in flowers, fruits, and other parts of the plant. For centuries, these compounds have been consumed by man without obvious detrimental effects due to their bright colors and anti-inflammatory and antioxidant properties. Anthocyanins are an important alternative for synthetic food colorings that have been banned in foods, because they have been associated with certain diseases. Anthocyanins can be extracted from different plant tissues; the usual method of obtaining is solid-liquid extraction. However, it is worth mentioning the existence of other methods. Thus, Japanese scientists developed an alternative methodology that consists of extracting anthocyanins by fermenting the matrices that contain them. The stability of anthocyanins in processed products has been studied, and it has been shown that certain acid anthocyanins are stable after extraction. Anthocyanins are antioxidants that play an important role in reducing the risks of several human degenerative diseases.
Part of the book: Flavonoids