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Nordic dietary patterns and cardiometabolic outcomes: a systematic review and meta-analysis of prospective cohort studies and randomised controlled trials.
Massara, P, Zurbau, A, Glenn, AJ, Chiavaroli, L, Khan, TA, Viguiliouk, E, Mejia, SB, Comelli, EM, Chen, V, Schwab, U, et al
Diabetologia. 2022;65(12):2011-2031
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Dietary patterns high in plant foods such as the Mediterranean diet, Dietary Approaches for Stopping Hypertension (DASH), Portfolio and healthy vegetarian are associated with a lower risk of cardio vascular disease (CVD) and certain cardiometabolic risk factors in adults with and without diabetes. In Northern European countries it may be more difficult to apply these dietary principals due to availability and cost of specific foods. Nordic dietary patterns include foods such as rye, oats and barley, berries and temperate fruits like apples and pears, vegetables (especially root and cruciferous vegetables), legumes, fish/shellfish, nuts and canola oil/rapeseed oil and low-fat dairy foods. The benefits of Nordic dietary patterns have been recognised but to update the clinical practice guidelines for the European Association for the Study of Diabetes (EASD), a systematic review and meta-analysis was commissioned. 15 cohort studies and 6 RCTs were included. Adopting Nordic dietary patterns is associated with small important reductions in the risk of major CVD outcomes and diabetes. These are supported by similar reductions in LDL-cholesterol and other cardiometabolic risk factors. The available evidence provides a generally good indication of the likely benefits of Nordic dietary patterns in people with or at risk for diabetes.
Abstract
AIMS/HYPOTHESIS Nordic dietary patterns that are high in healthy traditional Nordic foods may have a role in the prevention and management of diabetes. To inform the update of the EASD clinical practice guidelines for nutrition therapy, we conducted a systematic review and meta-analysis of Nordic dietary patterns and cardiometabolic outcomes. METHODS We searched MEDLINE, EMBASE and The Cochrane Library from inception to 9 March 2021. We included prospective cohort studies and RCTs with a follow-up of ≥1 year and ≥3 weeks, respectively. Two independent reviewers extracted relevant data and assessed the risk of bias (Newcastle-Ottawa Scale and Cochrane risk of bias tool). The primary outcome was total CVD incidence in the prospective cohort studies and LDL-cholesterol in the RCTs. Secondary outcomes in the prospective cohort studies were CVD mortality, CHD incidence and mortality, stroke incidence and mortality, and type 2 diabetes incidence; in the RCTs, secondary outcomes were other established lipid targets (non-HDL-cholesterol, apolipoprotein B, HDL-cholesterol, triglycerides), markers of glycaemic control (HbA1c, fasting glucose, fasting insulin), adiposity (body weight, BMI, waist circumference) and inflammation (C-reactive protein), and blood pressure (systolic and diastolic blood pressure). The Grading of Recommendations, Assessment, Development and Evaluation (GRADE) approach was used to assess the certainty of the evidence. RESULTS We included 15 unique prospective cohort studies (n=1,057,176, with 41,708 cardiovascular events and 13,121 diabetes cases) of people with diabetes for the assessment of cardiovascular outcomes or people without diabetes for the assessment of diabetes incidence, and six RCTs (n=717) in people with one or more risk factor for diabetes. In the prospective cohort studies, higher adherence to Nordic dietary patterns was associated with 'small important' reductions in the primary outcome, total CVD incidence (RR for highest vs lowest adherence: 0.93 [95% CI 0.88, 0.99], p=0.01; substantial heterogeneity: I2=88%, pQ<0.001), and similar or greater reductions in the secondary outcomes of CVD mortality and incidence of CHD, stroke and type 2 diabetes (p<0.05). Inverse dose-response gradients were seen for total CVD incidence, CVD mortality and incidence of CHD, stroke and type 2 diabetes (p<0.05). No studies assessed CHD or stroke mortality. In the RCTs, there were small important reductions in LDL-cholesterol (mean difference [MD] -0.26 mmol/l [95% CI -0.52, -0.00], pMD=0.05; substantial heterogeneity: I2=89%, pQ<0.01), and 'small important' or greater reductions in the secondary outcomes of non-HDL-cholesterol, apolipoprotein B, insulin, body weight, BMI and systolic blood pressure (p<0.05). For the other outcomes there were 'trivial' reductions or no effect. The certainty of the evidence was low for total CVD incidence and LDL-cholesterol; moderate to high for CVD mortality, established lipid targets, adiposity markers, glycaemic control, blood pressure and inflammation; and low for all other outcomes, with evidence being downgraded mainly because of imprecision and inconsistency. CONCLUSIONS/INTERPRETATION Adherence to Nordic dietary patterns is associated with generally small important reductions in the risk of major CVD outcomes and diabetes, which are supported by similar reductions in LDL-cholesterol and other intermediate cardiometabolic risk factors. The available evidence provides a generally good indication of the likely benefits of Nordic dietary patterns in people with or at risk for diabetes. REGISTRATION ClinicalTrials.gov NCT04094194. FUNDING Diabetes and Nutrition Study Group of the EASD Clinical Practice.
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Effect of dried fruit on postprandial glycemia: a randomized acute-feeding trial.
Viguiliouk, E, Jenkins, AL, Blanco Mejia, S, Sievenpiper, JL, Kendall, CWC
Nutrition & diabetes. 2018;8(1):59
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Dried fruits show promising potential for blood glucose management. However, the effect of combining dried fruits with high glycaemic index (GI) foods has not been adequately addressed. The main objectives of this study were to: a) quantify the GI of 4 different types of dried fruit (dates, apricots, raisins, sultanas); and b) assess the ability of these 4 dried fruits to decrease the postprandial glycaemic response to white bread by partially displacing available carbohydrate and by providing a ‘catalytic’ dose of fructose. This study is a randomised multiple - crossover acute feeding trial which enrolled 10 participants of which 7 were males. Each participant underwent a total of 15 separate study meals consisting of 3 white bread control meals and 12 dried fruit test meals. Results demonstrate that dried fruit have a lower GI than white bread and can lower the glycaemic response of white bread through displacement of half of the available carbohydrate. None of the dried fruits showed a beneficial ‘catalytic’ fructose effect. Authors conclude that their findings may help to stimulate important industry innovation and improve the design of future clinical investigations that will potentially lead to the use of dried fruits as an effective tool to modify the glycaemic response of high carbohydrate foods.
Abstract
BACKGROUND/OBJECTIVES To investigate the effect of dried fruit in modifying postprandial glycemia, we assessed the ability of 4 dried fruits (dates, apricots, raisins, sultanas) to decrease postprandial glycemia through three mechanisms: a glycemic index (GI) effect, displacement effect, or 'catalytic' fructose effect. SUBJECTS/METHODS We conducted an acute randomized, multiple-crossover trial in an outpatient setting in 10 healthy adults. Participants received 3 white bread control meals and 12 dried fruit test meals in random order. The test meals included each of 4 dried fruits (dates, apricots, raisins, sultanas) alone (GI effect), 4 of the dried fruits displacing half the available carbohydrate in white bread (displacement effect), or 4 of the dried fruits providing a small 'catalytic' dose (7.5 g) of fructose added to white bread ('catalytic' fructose effect). The protocol followed the ISO method for the determination of GI (ISO 26642:2010). The primary outcome was mean ± SEM GI (glucose scale) for ease of comparison across the three mechanisms. RESULTS Ten healthy participants (7 men, 3 women; mean ± SD age and BMI: 39 ± 12 years and 25 ± 2 kg/m2) were recruited and completed the trial. All dried fruit had a GI below that of white bread (GI = 71); however, only dried apricots (GI = 42 ± 5), raisins (GI = 55 ± 5), and sultanas (51 ± 4) showed a significant GI effect (P < 0.05). When displacing half the available carbohydrate in white bread, all dried fruit lowered the GI; however, only dried apricots (GI = 57 ± 5) showed a significant displacement effect (P = 0.025). None of the dried fruits showed a beneficial 'catalytic' fructose effect. CONCLUSIONS In conclusion, dried fruits have a lower GI and reduce the glycemic response of white bread through displacement of half of the available carbohydrate. Longer-term randomized trials are needed to confirm whether dried fruit can contribute to sustainable improvements in glycemic control. TRIAL REGISTRATION ClinicalTrials.gov identifier, NCT02960373.