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There are many health benefits associated with the consumption of omega-3 dietary fats. Omega-3 fats, specifically eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), can be found in marine food products such as fatty fish, in fortified products such as eggs and milk, or in dietary supplements such as fish oil. Despite numerous health benefits, it is well documented that most people in Western society are not meeting the recommended daily amounts of EPA and DHA omega-3 fats.
The overall objective of this study is to examine whether providing young adults (18-25 years) with personal genetic information changes behavior with regards to omega-3 fat consumption. In order to achieve this objective, study participants will be divided into two groups: 1. Genetic and 2. Non-Genetic. The Genetic Group will be provided with their personalized information regarding a common gene variant in addition to general information regarding the health benefits of omega-3 fats, while the Non-Genetic Group will only receive the general information. Primary outcomes studied will include dietary habits and secondary outcomes include blood markers of cardiometabolic health.
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There are many health benefits associated with the consumption of omega-3 dietary fats. Omega-3 fats, specifically eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), can be found in marine food products such as fatty fish, in fortified products such as eggs and milk, or in dietary supplements such as fish oil. Despite numerous health benefits, it is well documented that most people in Western society are not meeting the recommended daily amounts of EPA and DHA omega-3 fats.
The numerous health benefits associated with omega-3 fats are well documented in scientific literature; however, there are a limited number of studies focused on the health effects of omega-3 fats in emerging adults (18-25 years). Indeed, most research to date has been conducted in older adults, with or without hyperlipidemia. In addition, it is important to consider interventions in emerging adults given that behaviours learned in this life stage can persist later in life. It has also been reported that the diet quality (i.e., amount of fruits, vegetables, whole grains, etc.) is reduced for individuals within this age range; thus highlighting another important reason for targeting this demographic.
The combination of genetic and dietary information (i.e., nutrigenetics) has the potential to not only benefit basic research, but also the general population. Therefore, more research is needed to determine if providing individuals with their genetic information has the potential to encourage behaviour changes. So far, several studies have investigated how people may change their behaviour in response to genetic risk information, but none have conducted a nutrigenetic intervention examining if providing personal genetic information alters diet behaviours.
The overall objective of this study is to examine whether providing emerging adults with personal genetic information changes their behavior with regards to omega-3 consumption. In order to achieve this objective, study participants will be divided into two groups: 1. Genetic and 2. Non-genetic. The Genetic group will be provided with their personal information for a common gene variant in addition to general information regarding the health benefits of omega-3 fats, while the Non-genetic group will only receive the general information. Primary outcomes studied will include dietary habits and secondary outcomes include blood markers of cardiometabolic health.
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57 participants in 2 patient groups, including a placebo group
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Data sourced from clinicaltrials.gov
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