Regular Dark Chocolate Consumption’s Reduction of Oxidative Stress and Increase of Free-Fatty-Acid Mobilization in Response to Prolonged Cycling

Allgrove, Judith; Farrell, Emily T.; Gleeson, Michael; Williamson, Gary; Cooper, Karen

doi:10.1123/ijsnem.21.2.113

Cited by 73 publications

(77 citation statements)

References 44 publications

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“…Despite differences in plasma glucose between treatments all measured glucose responses were euglycemic (>4 mmol), and thus it may not be surprising that the current study found no differences in ~11.5 min TT performance, which is consistent with a recent publication showing no change in a time to exhaustion performance test over ~6.5 min after chronic and acute dark chocolate consumption (Allgrove, Farrell et al 2011). Consequently, perhaps a more taxing and prolonged exercise stimulus may have altered the performance outcomes.…”

supporting

confidence: 80%

“…However, very few studies have examined metabolic and anti-fatigue effects of dark chocolate. Recent studies have shown that 100 g of dark chocolate increased the concentration of plasma glucose (Davison et al 2011), and chronic dark chocolate consumption caused a ~21% increase in plasma free-fatty acids (Allgrove et al 2011), during prolonged exercise compared to a iso-fat/calorie/carbohydrate (CHO) control. But, these studies did not examine mechanisms associated with these shifts in metabolism during exercise, nor performance outcomes.…”

Section: Introductionmentioning

confidence: 99%

“…However, whether acute DC consumption as found within this study directly has an LPL inhibitory effect remains to be determined. The recent studies by Allgrove et al (Allgrove, Farrell et al 2011) and Davison et al (Davison, Callister et al 2011) both showed significant increases in plasma FFA throughout moderate intensity exercise that were greater after dark chocolate consumption than control. In contrast, the current study found no differences in FFA concentrations during rest or exercise between groups.…”

mentioning

confidence: 99%

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The effect of acute dark chocolate consumption on carbohydrate metabolism and performance during rest and exercise

Stellingwerff

Godin

Chou

et al. 2014

Appl. Physiol. Nutr. Metab.

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Consumption of cocoa-enriched dark chocolate (DC) has been shown to alter glucose and insulin concentration during rest and exercise compared to an iso-caloric/carbohydrate (CHO) cocoa-depleted control (CON). However, the impact of DC consumption on exercise metabolism and performance is uncertain. Therefore the current aim was to investigate CHO metabolism via stable isotope tracer techniques during exercise after subjects ingested either DC or CON. Sixteen overnight-fasted male cyclists (30 ± 6 yrs; 72.8 ± 6.0 kg, 56.3 ± 5.7 ml/kg/min VO 2 max) performed two trials in a single blinded, randomized, cross-over design, after consuming either DC (561 kcal; 33.3 g CHO; 11.4 g cocoa) or CON (544 kcal; 27.5 g CHO; <0.5 g cocoa) 2 h prior to 2.5 h of steady-state (SS) exercise (~45% VO 2peak ). This Accordingly, after DC there was a ~18% significant decrease in plasma glucose oxidation (trial effect; p=0.032), and a ~15% increase in tracer derived muscle glycogen utilization (p=0.045) late during SS exercise. This was without effect on TT performance. The higher blood glucose concentrations during exercise and recovery after DC consumption coincided with high concentrations of polyphenol and/or methylxanthine compounds but not caffeine.In summary, DC consumption altered muscle CHO partitioning, between muscle glucose uptake and glycogen oxidation, but this was without any effect on cycling TT performance.

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supporting

confidence: 80%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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The effect of acute dark chocolate consumption on carbohydrate metabolism and performance during rest and exercise

Stellingwerff

Godin

Chou

et al. 2014

Appl. Physiol. Nutr. Metab.

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“…Latter studies have mostly supported a protective relationshipe between cocoa or chocolate consumption and a variety of health indicators [14] . The results of these studies have shown that cocoa and DC consumption can reduce stress, stimulate brain function, fight cancerous cells, improve circulation, mood, memory, immune system, and even protect the heart [12] , and liver tissue [10] .…”

Section: Introductionmentioning

confidence: 99%

“…Dark chocolate for management of NAFLD rich in bioflavonoids (flavanols, polyphenols, and theobromine) [12] , which has the highest antioxidant level in comparison with other food sources based on Oxygen Radical Absorbance Capacity measurement [13] . Besides nutrients such as saturated fat (60%), monounsaturated fat (35%), and linoleic acid (3%), chocolate contains important minerals such as potassium and magnesium [14] as well as cocoa, which is the main and the quintessential ingredient in chocolate [10] .…”

Section: Introductionmentioning

confidence: 99%

The Effects of Dark Chocolate Consumption on Lipid Profile, Fasting Blood Sugar, Liver Enzymes, Inflammation, and Antioxidant Status in Patients with Non-Alcoholic Fatty Liver Disease: A Randomized, Placebo-Controlled, Pilot study

Alavinejad

Farsi²,

Rezazadeh³

et al. 2015

Journal of Gastroenterology and Hepatology Research

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BACKGROUND: Nonalcoholic fatty liver disease (NAFLD)is an important health problem worldwide and despite the rising prevalence, there is currently no satisfying therapeutic strategy. Dark chocolate (DC) is a food rich in phenolic antioxidants, which may exert favorable and modifying effects on lipid profile, insulin resistance, oxidative stress, and metabolic effects. This study aims to investigate the possible effects of DC consumption on the lipid profile, fasting blood sugar (FBS), liver transaminases (ALT, and AST), inflammatory, and antioxidant status among NAFLD patients. METHODS: In this double-blind, placebo-controlled trial, 42 patients with NAFLD were randomly allocated to 2 groups: the treatment group (n=21) whom received 30 gr dark chocolate (83%) daily and the control group (n=21), for a 12 weeks period. RESULTS: During the intervention period, taking 30 gr DC (83%) daily resulted in a significant decrease in AST (P=0.012), body weight (P=0.027), and BMI (P=0.042) in the treatment group. In addition, patients who received DC had considerable changes in serum HDL (P=0.044). However, no significant changes occurred in serum levels of ALT, hs-CRP, anthropometric measures (WC, HC, and WHR), and grades of NAFLD in both groups (P>0.05). CONCLUSION: DC consumption can decrease the level of AST in patients with NAFLD and could be a potential therapeutic approach. We recommend more investigation about potential therapeutic effects of dark chocolate to be further clarified.

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The Impact of Cocoa Flavanols on Cardiovascular Health

et al. 2016

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The aim of the study was to review the effect of cocoa flavanols on cardiovascular health, with emphasis on the doses ingested, and to analyze a range of cocoa products for content of these compounds. PubMed was searched from 2010 to locate systematic reviews (SR) on clinical effects of chocolate consumption. Thirteen SRs were identified and reviewed, and provided strong evidence that dark chocolate did not reduce blood pressure. The evidence was however strong for an association with increased flow-mediated vasodilatation (FMD) and moderate for an improvement in blood glucose and lipid metabolism. Our analysis showed that cocoa products with around 100 mg epicatechin can reliably increase FMD, and that cocoa flavanol doses of around 900 mg or above may decrease blood pressure in specific individuals and/or if consumed over longer periods. Out of 32 cocoa product samples analyzed, the two food supplements delivered 900 mg of total flavanols and 100 mg epicatechin in doses of 7 g and 20 g and 3 and 8 g, respectively. To achieve these doses with chocolate, around 100 to 500 g (for 900 mg flavanols) and 50 to 200 g (for 100 mg epicatechin) would need to be consumed. Chocolate products marketed for their purported health benefits should therefore declare the amounts of total flavanols and epicatechin. Copyright © 2016 John Wiley & Sons, Ltd.

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Regular Dark Chocolate Consumption’s Reduction of Oxidative Stress and Increase of Free-Fatty-Acid Mobilization in Response to Prolonged Cycling

Cited by 73 publications

References 44 publications

The effect of acute dark chocolate consumption on carbohydrate metabolism and performance during rest and exercise

The effect of acute dark chocolate consumption on carbohydrate metabolism and performance during rest and exercise

The Effects of Dark Chocolate Consumption on Lipid Profile, Fasting Blood Sugar, Liver Enzymes, Inflammation, and Antioxidant Status in Patients with Non-Alcoholic Fatty Liver Disease: A Randomized, Placebo-Controlled, Pilot study

The Impact of Cocoa Flavanols on Cardiovascular Health

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