1.
Lifestyle factors and visceral adipose tissue: Results from the PREDIMED-PLUS study.
Galmes-Panades, AM, Konieczna, J, Abete, I, Colom, A, Rosique-Esteban, N, Zulet, MA, Vázquez, Z, Estruch, R, Vidal, J, Toledo, E, et al
PloS one. 2019;14(1):e0210726
-
-
-
Free full text
Plain language summary
Excess visceral adipose tissue (VAT, abdominal fat) is a risk factor for developing cardiovascular disease, type 2 diabetes mellitus and all cause mortality. Lifestyle factors, including diet and physical activity, are associated with VAT. This cross-sectional study evaluated the association between different levels of physical activity (PA), adherence to an energy-restricted Mediterranean diet and sedentary lifestyle with VAT in older people with overweight/obesity and metabolic syndrome. Data were taken from an ongoing randomised study evaluating the effect of a weight loss programme based on an energy-restricted Mediterranean diet, promotion of physical activity and behavioural support compared to usual care consisting of advice on an energy-unrestricted Mediterranean diet only. Total and moderate-to-vigorous physical activity and muscle strength were inversely, and sedentary behaviour was positively associated with VAT. There was no statistically significant association between VAT and light exercise, adherence to the energy-reduced Mediterranean diet and watching TV.
Abstract
BACKGROUND Visceral adipose tissue (VAT) is a strong predictor of cardiometabolic health, and lifestyle factors may have a positive influence on VAT depot. This study aimed to assess the cross-sectional associations between baseline levels of physical activity (PA), sedentary behaviours (SB) and adherence to the Mediterranean diet (MedDiet) with VAT depot in older individuals with overweight/obesity and metabolic syndrome. METHODS Baseline data of the PREDIMED-Plus study including a sample of 1,231 Caucasian men and women aged 55-75 years were used. Levels of leisure-time PA (total, light, and moderate-to-vigorous, in METs·min/day) and SB (total and TV-viewing, in h/day) were evaluated using validated questionnaires. Adherence to the MedDiet was evaluated using a 17-item energy-restricted MedDiet (erMedDiet) screener. The chair-stand test was used to estimate the muscle strength. VAT depot was assessed with DXA-CoreScan. Multivariable adjusted linear regression models were used to evaluate the association between lifestyle factors and VAT. For the statistics we had used multiadjusted linear regression models. RESULTS Total leisure-time PA (100 METs·min/day: β -24.3g, -36.7;-11.9g), moderate-to-vigorous PA (β -27.8g, 95% CI -40.8;-14.8g), chair-stand test (repeat: β -11.5g, 95% CI -20.1;-2.93g) were inversely associated, and total SB (h/day: β 38.2g, 95% CI 14.7;61.7) positively associated with VAT. Light PA, TV-viewing time and adherence to an erMedDiet were not significantly associated with VAT. CONCLUSIONS In older adults with overweigh/obesity and metabolic syndrome, greater PA, muscle strength, and lower total SB were associated with less VAT depot. In this study, adherence to an erMedDiet was not associated with lower VAT.
2.
A 12-Month Lifestyle Intervention Program Improves Body Composition and Reduces the Prevalence of Prediabetes in Obese Patients.
König, D, Hörmann, J, Predel, HG, Berg, A
Obesity facts. 2018;11(5):393-399
-
-
-
Free full text
Plain language summary
Obesity and its impact on the prevalence of diabetes and subsequent cardiovascular disease is one of the major health burdens in Western societies. Lifestyle intervention studies have shown that weight loss combined with increased physical activity can improve metabolic risk factors. The aim of this study was to evaluate the effect of a comprehensive lifestyle intervention programme on weight and metabolic risk factors in 5884 obese individuals. The programme included 61 sessions over 12 months, including 41 exercise sessions, 12 psychological/self-management sessions and 8 nutritional counselling sessions (based on a low glycaemic index, low fat diet). After 12 months there was a significant reduction in weight (average 6%), waist circumference, physical fitness and all metabolic parameters (including blood sugar and fat metabolism). Overall, in 839 (38%) of the 2,227 participants who were pre-diabetic before intervention, the criteria of pre-diabetes were no longer detectable after 12 months, whilst only 66 (3%) progressed to type 2 diabetes mellitus. 46.7% of the 1,641 participants fulfilling the criteria of metabolic syndrome before the intervention, did not show any signs of this syndrome after the intervention; whilst only 120 participants (+7.3%) newly developed metabolic syndrome. The authors concluded that the intensive lifestyle intervention programme was successful, even in obese people with pre-diabetes.
Abstract
BACKGROUND The present study investigated the effects of a 12-month interdisciplinary standardized lifestyle program addressing physical activity and changes in dietary and lifestyle behavior in 2,227 obese prediabetic participants. METHODS Measures of obesity (BMI, waist circumference), cardiopulmonary fitness, and metabolic parameters were determined before and after the intervention period. RESULTS From the 2,227 participants who were initially prediabetic, 839 participants (-37.7%) did no longer show the criteria of prediabetes after the intervention and had normal HbA1c levels. CONCLUSION The clinical effects are substantial, and it is likely that the applied intense and multidisciplinary lifestyle interventions could reduce the risk of developing diabetes and the prevalence of a full-blown metabolic syndrome in obese and prediabetic patients.
3.
Regaining body weight after weight reduction further increases pulse wave velocity in obese men with metabolic syndrome.
Liang, KW, Lee, WJ, Lee, IT, Lin, SY, Wang, JS, Lee, WL, Sheu, WH
Medicine. 2018;97(40):e12730
-
-
-
Free full text
-
Plain language summary
Atherosclerosis can increase stiffness of the aorta and, therefore, increased pulse wave velocity (PWV), which is a predictor for cardiovascular disease and mortality. Metabolic syndrome (MetS), diabetes and obesity increase the risk of aortic stiffness and higher PWV. Weight loss may reduce arterial stiffness but mechanisms are not known. The aim this study was to investigate changes over time of PWV, ankle-brachial index (ABI, a marker for arterial disease of the leg), insulin resistance and inflammatory markers after weight loss and regained weight in obese non-diabetic men with MetS compared to lean controls. Obese participants followed a three months weight loss programme based on diet and exercise during which they lost an average of 8.6kg and saw statistically significant improvements in blood pressure and many biochemical markers but not in PWV or ABI. At the second follow-up visit, at 60 months, they had regained their weight, blood pressure and most biochemical markers were back to baseline whilst PWV and adiponectin were worse than before weight loss. Increases in blood pressure but not weight, hs-CRP (an inflammatory marker) or insulin resistance correlated with the increase in PWV after weight regain. Although healthy controls also gained weight over the 60 months study duration, their increase in PWV was significantly lower than in obese participants. Their PWV was also lower at baseline.
Abstract
Subjects with metabolic syndrome (MetS) or obesity have worse arterial stiffness. However, there have been no studies addressing time-sequential changes in pulse wave velocity (PWV) after weight loss and then regaining weight in obese non-diabetic men with MetS.We prospectively enrolled 40 obese, non-diabetic men with MetS undergoing a 3-month weight reduction program. Another 26 lean and healthy men were recruited for comparisons. Oral glucose tolerance test and brachial ankle (ba) PWV were assessed in study subjects. Eighteen obese non-diabetic MetS and 15 lean control subjects had follow-ups at the 60th month.The body weight of obese MetS decreased from 94.8 ± 7.6 to 86.1 ± 9.0 (N = 18, P < .001) after a 3-month weight reduction program but regained gradually thereafter to 93.6 ± 11.6 kg at the 60th month (P < .001 versus 3rd month). baPWV decreased after weight loss slightly (P = .240) while weight regain significantly increased the baPWV (from 3rd month, 1358 ± 168 to 60th month 1539 ± 264 cm/sec, P < .001). Systolic and diastolic blood pressure increments correlated with the increment of baPWV after weight regain. At the 60th month, lean controls (N = 15) had increases in body weight while their baPWV increased non-significantly. The increments of baPWV after weight regain in obese MetS were significantly higher than the increment of baPWV in lean controls after weight gain.In conclusion, regaining body weight after weight reduction worsened arterial stiffness with significant increase of baPWV in obese non-diabetic MetS.