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Metabolic, hormonal and performance effects of isomaltulose ingestion before prolonged aerobic exercise: a double-blind, randomised, cross-over trial.
Notbohm, HL, Feuerbacher, JF, Papendorf, F, Friese, N, Jacobs, MW, Predel, HG, Zacher, J, Bloch, W, Schumann, M
Journal of the International Society of Sports Nutrition. 2021;18(1):38
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Isomaltulose is a low-glycaemic index carbohydrate that lowers insulin and glucose levels postprandially. The benefits of taking Isomaltulose in an exercise setting are not well studied. This double-blinded, randomised, crossover study evaluated the effects of Isomaltulose intake on metabolic responses, hormonal responses, exercise performance and gastrointestinal disturbances in runners. Twenty-one male recreational endurance runners took part in four separate experimental sessions to compare Isomaltulose to maltodextrin and glucose. Fat and carbohydrate oxidation rates were not different among groups. This might be because the lower dose of Isomaltulose (50g) was used in this trial. Compared to glucose and maltodextrin, isomaltulose lowered metabolic and hormonal responses to exercise. In the study, Isomaltulose, glucose, and maltodextrin did not differ in exercise performance or gastrointestinal disturbances. A higher dose may be needed in order to demonstrate exercise performance, but caution should be exercised since a higher dose may cause gastrointestinal upset. A robust investigation of Isomalulose dose and its effects on glucose, insulin, and glucose-dependent insulinotropic polypeptides is required to determine if exercise leads to hypoglycaemia in the clinical population. Healthcare practitioners can use the findings of this study to understand the advantageous effects of 50g Isomaltulose in regulating glucose, insulin and glucose-dependent insulinotropic polypeptide during aerobic exercise.
Abstract
BACKGROUND Isomaltulose has been discussed as a low glycaemic carbohydrate but evidence concerning performance benefits and physiological responses has produced varying results. Therefore, we primarily aimed to investigate the effects of isomaltulose ingestion compared to glucose and maltodextrin on fat and carbohydrate oxidation rates, blood glucose levels and serum hormone concentrations of insulin and glucose-dependent insulinotropic polypeptide (GIP). As secondary aims, we assessed running performance and gastrointestinal discomfort. METHODS Twenty-one male recreational endurance runners performed a 70-min constant load trial at 70% maximal running speed (Vmax), followed by a time to exhaustion (TTE) test at 85% Vmax after ingesting either 50 g isomaltulose, maltodextrin or glucose. Fat and carbohydrate oxidation rates were calculated from spiroergometric data. Venous blood samples for measurement of GIP and insulin were drawn before, after the constant load trial and after the TTE. Capillary blood samples for glucose concentrations and subjective feeling of gastrointestinal discomfort were collected every 10 min during the constant load trial. RESULTS No between-condition differences were observed in the area under the curve analysis of fat (p = 0.576) and carbohydrate oxidation rates (p = 0.887). Isomaltulose ingestion led to lower baseline postprandial concentrations of blood glucose compared to maltodextrin (percent change [95% confidence interval], - 16.7% [- 21.8,-11.6], p < 0.001) and glucose (- 11.5% [- 17.3,-5.7], p = 0.001). Similarly, insulin and GIP concentrations were also lower following isomaltulose ingestion compared to maltodextrin (- 40.3% [- 50.5,-30.0], p = 0.001 and - 69.1% [- 74.3,-63.8], p < 0.001, respectively) and glucose (- 32.6% [- 43.9,-21.2], p = 0.012 and - 55.8% [- 70.7,-40.9], p < 0.001, respectively). Furthermore, glucose fluctuation was lower after isomaltulose ingestion compared to maltodextrin (- 26.0% [- 34.2,-17.8], p < 0.001) and glucose (- 17.4% [- 29.1,-5.6], p < 0.001). However, during and after exercise, no between-condition differences for glucose (p = 0.872), insulin (p = 0.503) and GIP (p = 0.244) were observed. No between-condition differences were found for TTE (p = 0.876) or gastrointestinal discomfort (p = 0.119). CONCLUSION Isomaltulose ingestion led to lower baseline postprandial concentrations of glucose, insulin and GIP compared to maltodextrin and glucose. Consequently, blood glucose fluctuations were lower during treadmill running after isomaltulose ingestion, while no between-condition differences were observed for CHO and fat oxidation rates, treadmill running performance and gastrointestinal discomfort. Further research is required to provide specific guidelines on supplementing isomaltulose in performance and health settings.
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Dietary Patterns in Secondary Prevention of Heart Failure: A Systematic Review.
Dos Reis Padilha, G, Sanches Machado d'Almeida, K, Ronchi Spillere, S, Corrêa Souza, G
Nutrients. 2018;10(7)
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Diet is recognised as an important factor in the prevention of heart failure, however there is no consensus about which dietary protocol is the most effective. This systematic review aims to clarify links between different dietary measures and markers of heart failure. The review included 12 studies of different types (randomised controlled trials, cross-sectional studies and cohort studies), which examined the DASH diet, Mediterranean diet, high protein diet and low carbohydrate diet. The studies examining the DASH diet demonstrated improvements in various measures of cardiac function and may have benefits for secondary prevention of heart failure. The Mediterranean diet was associated with lower levels of inflammation and improved cardiac function in cross-sectional studies only. High protein and low carbohydrate diets also demonstrated positive effects on markers of heart function however, only one study for each was included. The authors conclude that the current science suggests a positive role for diet in relation to prevention of heart failure and call for further RCTs to be conducted to identify which elements of these different diets are impacting on markers of heart failure.
Abstract
BACKGROUND Diet is an important factor in secondary prevention of heart failure (HF) but there is still no consensus as to which dietary model should be adopted by this population. This systematic review aims to clarify the relationship between dietary patterns and secondary prevention in HF. METHODS We searched the Medline, Embase and Cochrane databases for studies with different dietary patterns and outcomes of secondary prevention in HF. No limitation was used in the search. RESULTS 1119 articles were identified, 12 met the inclusion criteria. Studies with Dietary Approaches to Stop Hypertension (DASH), Mediterranean, Hyperproteic and Low-carb diets were found. The DASH pattern showed improvement in cardiac function, functional capacity, blood pressure, oxidative stress and mortality. The Mediterranean diet had a correlation with inflammation, quality of life and cardiac function but just on cross-sectional studies. Regarding the Hyperproteic and Low-carb diets only one study was found with each pattern and both were able to improve functional capacity in patients with HF. CONCLUSIONS DASH pattern may have benefits in the secondary prevention of HF. The Mediterranean diet demonstrated positive correlation with factors of secondary prevention of HF but need more RCTs and cohort studies to confirm these effects. In addition, the Hyperproteic and Low-carb diets, despite the lack of studies, also demonstrated positive effects on the functional capacity in patients with HF.