Some

studies have been published on GC in the last years, although more comprehensive studies are required. In a large cohort in China [17], three miRNAs (miR-221; miR-744, and miR-376c) were identified as being capable of distinguishing GC cases from controls with 82.4% sensitivity and 58.8% specificity. Another study [18] showed that the has-miR-335 had the potential to recognize the recurrence risk and could be related to the prognosis of GC patients. Genetic polymorphisms in several microRNA genes, such as miR-27a, miR-181a and miR-196a2, have also been found associated with GC and its prognosis [19-21] during the last year. Furthermore, polymorphisms in the miRNA-binding site of specific target genes have also been found associated with GC [22, 23]. Other genetic variants that have been associated with noncardia selleck screening library GC through GWAS and further replication analyses are rs2494938 at 6p21 and rs2285947 at 7p15.3, which also have a role in the susceptibility to other cancers [24]. Similarly, potentially functional variants at PLCE1 have been

confirmed to be associated with cardia GC [25]. It is well known that dietary factors play a role in gastric carcinogenesis. High consumption of fruit and vegetables has been associated with a reduction in GC risk, but mainly from case–control studies, while the effect from cohort Cisplatin chemical structure studies seems to be weaker. In a reanalysis in the EPIC cohort [26], based on 683 gastric adenocarcinomas, an inverse and significant association between the total vegetable and fruit intake and the GC risk was observed, between fresh fruit intake and the risk of diffuse type GC, and between citrus fruit intake and the risk of cardia GC. In the same study, a negative association was also found with dietary total antioxidant capacity [27] for both cardia and noncardia GC. In another study on the same selleck products EPIC cohort, a significant inverse association between

total flavonoid intake and GC risk was found in women but not in men [28]. In a systematic review of cohort and case–control studies among the Japanese population [29], a decrease in GC was associated with the consumption of green tea in women but not in men. Green tea is one of the sources of flavonoid intake. It is believed that salt and salt-rich foods probably increase the risk of GC. A meta-analysis of prospective studies [30] found a positive and significant association between the amount of habitual salt intake and GC risk, with a progressively increasing risk across consumption levels. The effect was stronger in Japanese studies. There is some evidence that high intake of pickled foods in Far East Asia increases the risk of GC. A systematic review and meta-analysis [31] confirmed this association, suggesting a potential 50% higher risk of GC associated with intake of pickled vegetables/foods and perhaps stronger associations in Korea and China.