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The effectiveness of diet intervention in improving the metabolism of overweight and obese women: a systematic review and meta-analysis.
Chen, M, Chen, Q, Liu, W, Tong, H, Wu, Y
American journal of translational research. 2022;14(5):2926-2938
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At present, the treatment for obesity includes regular physical activity, diet intervention, medication and bariatric surgery. The aim of this study was to summarise the current literature and investigate whether different dietary interventions influence the metabolic indicators of overweight or obesity. This study is a systematic review and meta-analysis of twelve papers, eight of which were of medium quality. The duration of dietary therapy was usually an average of 19 weeks, from 4 weeks to 24 weeks. Dietary interventions included a calorie-restricted diet, a Mediterranean diet, a low-carb diet, a low-fat diet, and a ketogenic diet. Results show that dietary intervention had a significant effect on changes in fasting insulin, fasting glucose and insulin resistance changes in women. Additionally, dietary intervention also had a positive effect on triglycerides, total cholesterol, low-density lipoprotein cholesterol and high-density lipoprotein cholesterol. Authors conclude that obese women should follow dietary interventions to improve their metabolic index. Furthermore, future large-scale randomised controlled trial experiments should be performed on specific diet therapies.
Abstract
OBJECTIVES Dietary therapy may improve glucose and lipid metabolism function in women. However, there is no systematic review to investigate the association between metabolic effects and different dietary interventions in obese women. The main purpose of this study is to summarize the current literature and investigate whether different dietary interventions have an effect on glucose and metabolic indicators of overweight or obese women. METHODS We conducted a scoping review of randomized controlled trial (RCT) studies from 1991 to 2022 by adopting a systematic review and meta-analysis. The database includes Google Scholar, PubMed, Embase and Web of Science. Literature screening, data extraction, and quality assessment were independently completed by 2 researchers. Meta-analysis was performed with RevMan. RESULTS Twelve articles were extracted and the meta-analysis results showed that the mean difference of metabolic indexes of obese women before and after dietary intervention, including fasting glucose, fasting insulin, HOMA-IR (Homeostasis model assessment-insulin resistance), TG (triglyceride), TC (total cholesterol), LDL-C (low-density lipoprotein cholesterol), HDL-C (high-density lipoprotein cholesterol) are -0.13 [-0.15, -0.10], -2.41 [-3.44, -1.38], -0.13 [-0.15, -0.10], -21.71 [-24.19, -19.22], -21.71 [-24.19, -19.22], -13.29 [-17.86, -8.72], 3.31 [2.22, 4.40], respectively. CONCLUSIONS Different dietary interventions benefit glucose and lipid metabolism of overweight or obese women. Further study is needed to determine which specific dietary effects have the greatest effect on improving metabolic indicators.
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The Effect of Ketogenic Diet on Shared Risk Factors of Cardiovascular Disease and Cancer.
Mohammadifard, N, Haghighatdoost, F, Rahimlou, M, Rodrigues, APS, Gaskarei, MK, Okhovat, P, de Oliveira, C, Silveira, EA, Sarrafzadegan, N
Nutrients. 2022;14(17)
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Cardiovascular disease and cancer are major causes of mortality worldwide and share common pathophysiological mechanisms and risk factors. The ketogenic diet, a low-carbohydrate and high-fat diet, may alter metabolic pathways, potentially lowering the risk of developing these diseases. Specifically, the ketogenic diet improves energy metabolism by promoting the use of body ketones for energy production. This review examines the protective effects of the ketogenic diet in reducing cardiovascular disease and cancer risk and explores the underlying mechanisms. The ketogenic diet may suppress oxidative stress and inflammation while improving common risk factors such as obesity, hypertension, diabetes, and dyslipidaemia. It is important to conduct further rigorous studies to assess the long-term effects of the ketogenic diet. However, healthcare professionals can use these findings to understand the short-term benefits of the diet in managing metabolic abnormalities and reducing the risk of developing cardiovascular disease and cancer.
Abstract
Cardiovascular disease (CVD) and cancer are the first and second leading causes of death worldwide, respectively. Epidemiological evidence has demonstrated that the incidence of cancer is elevated in patients with CVD and vice versa. However, these conditions are usually regarded as separate events despite the presence of shared risk factors between both conditions, such as metabolic abnormalities and lifestyle. Cohort studies suggested that controlling for CVD risk factors may have an impact on cancer incidence. Therefore, it could be concluded that interventions that improve CVD and cancer shared risk factors may potentially be effective in preventing and treating both diseases. The ketogenic diet (KD), a low-carbohydrate and high-fat diet, has been widely prescribed in weight loss programs for metabolic abnormalities. Furthermore, recent research has investigated the effects of KD on the treatment of numerous diseases, including CVD and cancer, due to its role in promoting ketolysis, ketogenesis, and modifying many other metabolic pathways with potential favorable health effects. However, there is still great debate regarding prescribing KD in patients either with CVD or cancer. Considering the number of studies on this topic, there is a clear need to summarize potential mechanisms through which KD can improve cardiovascular health and control cell proliferation. In this review, we explained the history of KD, its types, and physiological effects and discussed how it could play a role in CVD and cancer treatment and prevention.
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Efficacy of ketogenic diet on body composition during resistance training in trained men: a randomized controlled trial.
Vargas, S, Romance, R, Petro, JL, Bonilla, DA, Galancho, I, Espinar, S, Kreider, RB, Benítez-Porres, J
Journal of the International Society of Sports Nutrition. 2018;15(1):31
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This randomised controlled trial investigated the effects of a ketogenic diet on body composition in bodybuilders. 24 healthy body-builders were randomised to either a ketogenic diet (KD), non-ketogenic diet (NKD) or to control group (CG). During the trial period, both the KD and the NKD group received a surplus of calories and the same amount of protein, 2g/kg body weight per day to promote anabolic activity. Macronutrient ratios were carbohydrate 55%, protein 20% and fat 25% in the NKD group versus <10% carbohydrate, 20% protein and 70% fat in the KD group. Participants could eat when and how often they wanted to and both groups carried out the same training programme. After eight weeks the KD group showed significantly lower total fat mass and visceral (abdominal) fat, but no gain in either total body weight or lean mass. The NKD group, on the other hand, gained lean mass and body weight, but saw no changes in total or visceral fat mass. No significant changes in body composition were observed in the CG.
Abstract
BACKGROUND Ketogenic diets (KD) have become a popular method of promoting weight loss. More recently, some have recommended that athletes adhere to ketogenic diets in order to optimize changes in body composition during training. This study evaluated the efficacy of an 8-week ketogenic diet (KD) during energy surplus and resistance training (RT) protocol on body composition in trained men. METHODS Twenty-four healthy men (age 30 ± 4.7 years; weight 76.7 ± 8.2 kg; height 174.3 ± 19.7 cm) performed an 8-week RT program. Participants were randomly assigned to a KD group (n = 9), non-KD group (n = 10, NKD), and control group (n = 5, CG) in hyperenergetic condition. Body composition changes were measured by dual energy X-ray absorptiometry (DXA). Compliance with the ketosis state was monitored by measuring urinary ketones weekly. Data were analyzed using a univariate, multivariate and repeated measures general linear model (GLM) statistics. RESULTS There was a significant reduction in fat mass (mean change, 95% CI; p-value; Cohen's d effect size [ES]; - 0.8 [- 1.6, - 0.1] kg; p < 0.05; ES = - 0.46) and visceral adipose tissue (- 96.5 [- 159.0, - 34.0] g; p < 0.05; ES = - 0.84), while no significant changes were observed in the NKD and CG in fat mass (- 0,5 [- 1.2, 0.3] kg; p > 0.05; ES = - 0.17 and - 0,5 [- 2.4, 1.3] kg; p > 0.05; ES = - 0.12, respectively) or visceral adipose tissue (- 33.8 [- 90.4, 22.8]; p > 0.5; ES = - 0.17 and 1.7 [- 133.3, 136.7]; p > 0.05; ES = 0.01, respectively). No significant increases were observed in total body weight (- 0.9 [- 2.3, 0.6]; p > 0.05; ES = [- 0.18]) and muscle mass (- 0.1 [- 1.1,1.0]; p > 0,05; ES = - 0.04) in the KD group, but the NKD group showed increases in these parameters (0.9 [0.3, 1.5] kg; p < 0.05; ES = 0.18 and (1.3[0.5, 2.2] kg; p < 0,05; ES = 0.31, respectively). There were no changes neither in total body weight nor lean body mass (0.3 [- 1.2, 1.9]; p > 0.05; ES = 0.05 and 0.8 [- 0.4, 2.1]; p > 0.05; ES = 0.26, respectively) in the CG. CONCLUSION Our results suggest that a KD might be an alternative dietary approach to decrease fat mass and visceral adipose tissue without decreasing lean body mass; however, it might not be useful to increase muscle mass during positive energy balance in men undergoing RT for 8 weeks.