Bacterial attachment and growth on material surfaces are considered to be the primary steps leading to the formation of biofilm. Biofilms in hospital and food processing settings can result in bacterial infection and food contamination, respectively. Prevention of bacterial attachment, therefore, is considered to be the best strategy for abating these menaces and therefore the development of antibacterial metals becomes important. In this study, nine pure metals, viz. titanium, cobalt, nickel, copper, zinc, zirconium, molybdenum, tin, and lead have been tested for their antibacterial properties against two bacterial strains, Gram-positive Staphylococcus aureus and Gram-negative Escherichia coli. This was accomplished using two assay methods, the film contact method and the shaking flask method. The results show that the antibacterial properties varied significantly with different metals and the effectiveness of metals to resist bacterial attachment varied with the bacterial strain. Among the metals tested, titanium and tin did not exhibit antibacterial properties. TEM images showed that metal accumulation resulted in the disruption of the bacterial cell wall and other cellular components.
Histamine has been implicated in the pathogenesis of gastroduodenal ulcers. Since mast cells contain a considerable amount of histamine as well as heparin and other biologically active substances, it seems reasonable to speculate that they are involved in this process. In fact, development of gastroduodenal ulcers was reported in dogs with mastocytoma, and an increase in mast-cell number was described in the vicinity of human gastroduodenal ulcers. Y.K. et al. have recently found that the number of mast cells in a unit length of the skin of W/Wv mutant mice is less than 1% of the value for the congeneic +/+ mice and that no mast cells are detected in the intestinal canal of W/Wv mice. Therefore, this mutant mouse was used to investigate the role of mast cells in the induction of gastroduodenal ulcers. As a preliminary experiment, we examined the stomach and duodenum of W/Wv mice without any treatments. Unexpectedly, we found the spontaneous development of perforating stomach ulcers in W/Wv mice, suggesting that mast cells do not necessarily have aggravating effects on the production of stomach ulcers.
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