Objective: To test the dose-response effect on low-density lipoprotein cholesterol (LDL-c) of plant sterols (PS) from different sources in a low-fat spread. Methods: Dose responses of soybean oil (BO), tall oil (TO) and a mix of tall oil and rapeseed oil (TO/RP) as fatty acid esters were tested in a parallel design in free-living subjects recruited from the general community who had elevated cholesterol concentrations. Subjects received either control for 6 weeks or 1.6 g PS per day for 3 weeks, then 3.0 g/day for 3 weeks. Results: LDL-c was lowered significantly by consumption of 1.6 g/day of PS (À10.4%, range À7.3 to À11.4%). Increasing the dose to 3.0 g/day modestly reduced LDL-c concentrations further to À14.7%. TO, containing 78% sitosterol, produced an increase in serum sitosterol of 6.5 nmol/ml, while BO, containing only 27% campesterol, produced an increase in serum campesterol of 9.5 nmol/ml in 6 weeks. After PS withdrawal, serum sterols declined by 50% within 2 weeks. Conclusion: Different PS sources were equally effective in lowering serum LDL-c concentrations. The decrease in absolute concentrations of LDL-c was dependent on the baseline concentrations.
IntroductionA large number of human intervention studies have been performed using plant sterols (PS) or stanols incorporated into different food matrices to study their cholesterollowering effects. These studies are based on unesterified (free) or esterified PS or stanols, where the esterification is mostly based on vegetable-oil-derived fatty acids. Since the first publications of Mattson et al. in 1977 and1982, in which the efficacy of the ester format was shown, the interest in enriching foods with PS or stanol esters as an effective means of lowering total cholesterol (TC) and lowdensity lipoprotein-cholesterol (LDL-c) has increased. Quite a number of different food formats are now available, such as spreads, yogurts or milks, which can be taken on a daily basis. These foods formats typically provide between 1.5 and 2.5 g/day of PS or stanols from one or more servings, which have been proven to result in a 10-15% LDL-c lowering.From these studies considered collectively, the effective dose range can be established. It was stated in a recent metaanalysis of 41 studies that increasing the dose of PS or stanols to above 2.5 g/day results in little additional effects on lowering cholesterol (Katan et al., 2003). A few studies using specific PS sources and formats have also shown a dose response in smaller groups (Weststrate and Meijer, 1998;Hendriks et al., 1999). However, these studies were based on parallel groups or random assignment to the order of PS dose. One study has examined using PS the effect of four Correspondence: Dr PM Clifton, CSIRO Human Nutrition, Gate 13 Kintore Ave, Adelaide, SA 5000, Australia. E-mail: peter.clifton@csiro.au Guarantor: PM Clifton. Contributors: PMC and GSMJED designed the study; the intervention part was organized and monitored by PMC. PMC and MM coordinated the serum analysis. HCMvdK performed the data analysis ...
