The prevalence of asthma is increasing in Taiwan and worldwide. This could be related to interactions among dietary factors, environment and genetic factors. Ample evidence from cross-sectional and case-control observational studies suggested that consumption levels of fruits, vegetables, and potentially vitamins A, C, E from foods are negatively associated with asthma risk, and positively with lung function. However, single nutrient supplementation did not consistenly improved asthma symptoms. Some studies had shown probiotics could modulate human immunity. A number of trials have suggested that fish oil supplement improves lung function and reduces inflammatory mediator. The potential interactions and synergism among multiple components in foods have been neglected in the past. Recently, observational studies on dietary pattern analyses or intervention trials modifying the overall dietary composition have caught tremendous scientific attentions. Therefore, we designed an intervention trial with food-based principle to investigate the joint effect of several beneficial dietary components on asthma symptoms and medications. For practicality and efficiency, concentrates of vegetable plus fruit, fish oil, and probiotics were provided as supplements to asthmatic children. Total of 192 asthmatic children aged 10-12 yrs were recruited into a 16-week parallel, double-blind, randomized, and placebo-controlled trial. During the intervention, supplement group received multiple capsules of vegetable plus fruit, fish oil, and probiotics; while control group received placebos. Food frequency questionnaire, pulmonary functions (FVC, FEV1), medicine usage, pediatric asthma quality of life questionnaire score (PAQLQ score), plasma total antioxidant capacity, RBC fatty acid composition, urinary isoprostances, eosinophil, IgE and eotaxin were evaluated at baseline and after 8 and 16 weeks of intervention. Children asthma control test (CACT ) score was evaluated wvwry 4 week and weekly diary was kept. Peak expiratory flow rate was measured every day. Supplement group had significantly greater improvement in pulmonary function than placebo group (FVC: 178 ml vs. 91 ml, P = 0.01 and FEV1: 107 ml vs. 40 ml, P = 0.01), and the proportion of children using bronchodilator (P < 0.01), inhaled steroids (P < 0.001) and antihistamine (P < 0.05) over 16 weeks were also significantly decreased in the supplement group. CACT score, PAQLQ score and asthma symptoms were not significantly different between the two groups. Compared to controls, the supplement group has higher proportion of eicosapentaenoic acid (EPA) and docosahexaenoic acid (P < 0.05); but lower ratio of ∑n-6/∑n-3 polyunsaturated fatty acid (P < 0.05), and arachidonic acid and EPA (P < 0.05). Plasma total antioxidant capacity, urinary isoprostances, eosinophil, IgE and eotaxin were not significantly different between two groups. Future, clinical trials should be carried out to understand the specific roles of vegetable and fruit, fish oil, and probiotics. Our study results provide a direction for dietary modification in asthma children.