Its mechanism of action is oxygen radical scavenging, anti-oxidation, and acceleration of gastrointestinal wound healing. It exhibits ROS-quenching activities. It can remain in the stomach without rapid dissociation and adhere specifically to ulcerous lesions, after which L-carnosine and zinc are released to heal the ulcer. It has been shown to stimulate mucus production and to maintain the integrity of the gastric mucosal barrier. It maintains homeostasis of the gastric mucosa by prostaglandin-independent cytoprotective effects due to anti-oxidative membrane stabilizing actions, and it promotes the repair of damaged tissues by wound healing action. It exerts cytoprotection through regulating heat shock proteins and chemokines, and by stabilizing mast cells. It does so without affecting the secretion of gastric acid. It has a potential to stimulate Hsp70 expression, with overexpression of Hsp70 being found to prevent the development of inflammatory process in the large intestinal mucosa provoked by various damaging factors. It decreases p53, p21 and Bax expression and apoptosis in the intestine after irradiation. It possesses antioxidant, anti-inflammatory, and genomic stability enhancement effects, thereby having potential in preventing gastrointestinal cancer development. It exhibits an inhibitory effect on H. pylori.
Comparisons
Its healing efficacy against ulceration is significantly greater than that of other zinc complexes, free L-carnosine, and zinc D-carnosine. The pharmacological activity of zinc L-carnosine seems attributable mainly to zinc ion, presumably transported effectively into the ulcer by means of L-carnosine together with the action of L-carnosine itself. In contrast, a simple mixture of L-carnosine and zinc had a lesser effect, presumably due to rapid diffusion of L-carnosine and zinc ion in the entire stomach. Per preclinical data, zinc L-carnosine is superior to zinc sulfide for mucositis.
Other
It has a stimulatory effect on bone formation and a restorative effect on bone loss under various pathophysiologic conditions.
Usage
Zinc L-carnosine has been used orally or as an oral rinse, lozenge or suppository. The typical clinical oral dose is 150 mg/day, containing 34 mg zinc and 116 mg L-carnosine. As an oral rinse, it has been used three to four times a day, with or without swallowing, providing a total amount of 150 mg/day. A solution of 5% sodium alginate has been used. Alternatively, it has been used as a lozenge containing 18.75 mg, four times a day. It has also been used as a suppository of 75 mg with Witepsol as a base.
Safety
Good clinical compliance was observed at the typical clinical oral dose of 150 mg/day, with no symptomatic side effect reported. The adverse event rate was higher at high dose zinc L-carnosine without additional benefits, and therefore high dose is not recommended. Side-effects are associated with the amount of zinc intake. According to the Japanese product monograph, safety in children below the age of 12, pregnant women and lactating women are not established ; and the level of use in the elderly population is suggested and recommended at 100 mg zinc L-carnosine per day because of reduced digestive system function in the general elderly population; and those with poor liver functions should be under medical supervision. Those with copper deficiency should also be under medical supervision. Although zinc L-carnosine caused an increase in serum zinc level, the serum copper level and copper:zinc ratio decreased, and a case of preexisting copper deficiency deteriorated. As a mitigative, supplementation of 2 mg/day copper as glycinate chelate safely increases Cu-Zn superoxide dismutase activity. There is no evidence of a reduced tumor response to radiotherapy.
