Increasing the
intake1 of fatty fish increases the number of large HDL particles, according to a recent study completed at the University of Eastern Finland. People who increased their intake of fish to a minimum of 3-4 weekly meals had more large HDL particles in their blood than people who are less frequent eaters of fish. Large HDL particles are believed to protect against cardiovascular diseases. The results were published in PLOS ONE. The consumption of fish has long been known to be beneficial for health; however, the
mechanisms2 by which fats and other useful
nutrients3 found in fish work in the human body are not
fully4 known. This new study carried out at the UEF provides new information on how the consumption of fish affects the size and lipid concentrations of
lipoproteins(脂蛋白) which transport
lipids(脂肪) in the blood. The study participants increased their intake of fatty fish in particular.
It was observed that a higher intake of fish increased the number of large HDL particles and lipids contained in them. Population-based studies have shown that HDL
cholesterol5 -- also known as good cholesterol -- and large HDL particles are efficient in
sweeping6 extra cholesterol off
artery7 walls. Large HDL particles have been associated with reduced risk of cardiovascular diseases, whereas small HDL particles may even have opposite effects.
Positive changes in lipid
metabolism8 were observed in persons who increased their intake of fish most, i.e. in persons who ate at least 3-4 fish meals per week. The study participants ate fatty fish such as
salmon9, rainbow
trout10, herring and vendace. No added butter or cream was used in the preparation of fish. The study doesn't give answers to whether a similar effect would have been observed had the study participants mainly eaten low-fat fish such as zander and
perch11. Low-fat fish may have other health benefits such as lowering of blood pressure, which was observed in an earlier study carried out at the UEF.
State-of-the-art metabolomics was used in the study, enabling for instance a very
detailed12 analysis of lipoprotein particles. The analyses were carried out by the university's NMR Metabolomics Laboratory. Traditionally, cholesterol is divided into "bad" LDL cholesterol and "good" HDL cholesterol, but this method allows the
investigation13 of a total of 14 different particle classes. "People shouldn't fool themselves into thinking that if their standard lipid levels are OK, there's no need to think about the diet, as things are a lot more complicated than that. Soft vegetable fats and fish are something to prefer in any case," Postdoctoral Researcher Maria Lankinen says.
However, the researchers emphasize that a dietary approach to the treatment of increased overall and LDL cholesterol levels is important. The findings are well in line with the Finnish nutrition recommendations encouraging people to reduce the consumption of red meat and to increase the consumption of fish and other sea foods. Further information on the health effects of fish will become available in the near future as results from the Alfakala project carried out at the UEF Institute of Public Health and Clinical Nutrition become available. The study takes a more detailed approach into the health effects of fish- and plant-derived omega-3 fatty acids, and it studies the health effects of fatty and low-fat fish.