Background: Gastric cancer is the 5th most common neoplasm and the 3rd most deadly cancer in the world. Despite the decreasing trend in gastric cancer in most people, the disease remains one of the most common cancers. Incidence of gastric cancer are markedly higher in Eastern Asia, whereas the rates in Northern America and Northern Europe are generally low. The eradication of Helicobacter pylori (H. pylori) infection has been recently suggested as a main primary prevention strategy for gastric cancer. Screening for H. pylori infection is performed in the first stage and positive patients undergo H. pylori eradication in the second stage. In terms of H. pylori infection screening, a recent study has pointed out that the cost of H. pylori stool antigen test (SAT) was lower than 13C urea breath test (UBT) and the sensitivity and specificity of SAT were great. SAT screening was feasible and advisable for wide application in the community. However, the relative cost-effectiveness between SAT and UBT was unknown. Aims: Our thesis was (1) to analyze that SAT or UBT is more cost-effective or not than no intervention. (2) to analyze the relative cost-effectiveness between SAT and UBT. (3) to evaluate the possibility that SAT or UBT is the most cost-effective strategy in different willingness to pay (WTP). Materials and Methods: Obtained parameters of epidemiology and relevant costs through literature review, including prevalence of H. pylori infection, incidence and fatality rate of gastric cancer, H. pylori eradication rate, and relevant costs of screenings and treatments. Three Markov models were established to simulate the processes of three strategies (no intervention, SAT screening and UBT screening) adopted to prevent gastric cancer for residents in the Matsu. Cost-effectiveness was compared between three strategies. The main outcome measure was cost per life-year gained with a 3% annual discount rate. Results: In base-case estimates, adopting SAT screening or UBT screening strategy could gain more life-year with less cost than no intervention so two primary prevention strategies dominated no intervention. The incremental cost-effectiveness ratio (ICER) for UBT screening versus SAT screening was U.S. $10,367 per life-year gained. It is lower than U.S. $25,792 per life-year gained (WTP), so UBT screening was cost-effective compared with SAT screening. This result was sensitive to the sensitivity of SAT screening ≧95%.When WTP was U.S. $25,792 per life-year gained, the possibility that UBT screening and SAT screening were the most cost-effective strategies was 83% and 17% respectively. The threshold of WTP was U.S. $9,500 per life-year gained. When WTP was more than U.S. $9,500 per life-year gained, UBT screening was the most likely cost-effective strategy. However, when WTP was less than U.S. $9,500 per life-year gained, SAT screening was the most likely cost-effective strategy. Conclusion: SAT screening or UBT screening is cost-effective strategy for gastric cancer prevention compared with no intervention. UBT screening is cost-effective compared with SAT screening, but the relative cost-effectiveness was sensitive to the sensitivity of SAT screening. When WTP is higher, UBT screening is more likely the most cost-effective strategy. However, when WTP is lower, SAT screening is more likely the most cost-effective strategy.