Moderate-to-high-intensity training and a hypocaloric Mediterranean diet enhance endothelial progenitor cells and fitness in subjects with the metabolic syndrome.

A reduction in EPC (endothelial progenitor cell) number could explain the development and progression of atherosclerosis in the MetS (metabolic syndrome). Although much research in recent years has focused on the Mediterranean dietary pattern and the MetS, the effect of this diet with/without moderate-to-high-intensity endurance training on EPCs levels and CrF (cardiorespiratory fitness) remains unclear. In the present study, the objective was to assess the effect of a Mediterranean diet hypocaloric model with and without moderate-to-high-intensity endurance training on EPC number and CrF of MetS patients. Thus 45 MetS patients (50-66 years) were randomized to a 12-week intervention with the hypocaloric MeD (Mediterranean diet) or the MeDE (MeD plus moderate-to-high-intensity endurance training). Training included two weekly supervised sessions [80% MaxHR (maximum heart rate); leg and arm pedalling] and one at-home session (65-75% MaxHR; walking controlled by heart rate monitors). Changes in: (i) EPC number [CD34(+)KDR(+) (kinase insert domain-containing receptor)], (ii) CrF variables and (iii) MetS components and IRH (ischaemic reactive hyperaemia) were determined at the end of the study. A total of 40 subjects completed all 12 weeks of the study, with 20 in each group. The MeDE led to a greater increase in EPC numbers and CrF than did the MeD intervention (P ≤ 0.001). In addition, a positive correlation was observed between the increase in EPCs and fitness in the MeDE group (r=0.72; r(2)=0.52; P ≤ 0.001). Body weight loss, insulin sensitivity, TAGs (triacylglycerols) and blood pressure showed a greater decrease in the MeDE than MeD groups. Furthermore, IRH was only improved after the MeDE intervention. In conclusion, compliance with moderate-to-high-intensity endurance training enhances the positive effects of a model of MeD on the regenerative capacity of endothelium and on the fitness of MetS patients.

Adiponectin gene variants are associated with insulin sensitivity in response to dietary fat consumption in Caucasian men.

Adiponectin (adipoQ) gene variants have been associated with type 2 diabetes mellitus and insulin resistance. Our aim was to examine whether the presence of several polymorphisms at the adipoQ gene locus (-11391 G > A, -11377 C > G, 45 T > G, and 276 G > T) influences the insulin sensitivity to dietary fat. Healthy volunteers (30 men and 29 women) consumed 3 diets for 4 wk each: an initial period during which all subjects consumed a SFA-rich diet (38% total fat, 20% SFA), followed by a carbohydrate-rich diet (CHO) (30% total fat, 55% carbohydrate) or a monounsaturated fatty acid (MUFA)-rich diet (38% total fat, 22% MUFA) following a randomized, crossover design. After participants consumed each diet, we tested peripheral insulin sensitivity with the insulin suppression test and measured plasma adiponectin concentrations. C/C homozygous men for the -11377 C > G single nucleotide polymorphism (SNP) had a significantly greater decrease in the steady-state plasma glucose concentrations when changing from the SFA-rich (8.95 +/- 0.6 mmol/L) to the MUFA-rich (6.04 +/- 0.31 mmol/L) and CHO-rich (6.35 +/- 0.38 mmol/L) diets than did those carrying the minor G allele (SFA, 6.65 +/- 0.4 mmol/L; MUFA, 6.45 +/- 0.4 mmol/L; CHO, 5.83 +/- 0.3 mmol/L) (P sex x gene x diet interaction = 0.016). These differences did not occur in female participants. Furthermore, C/C men had lower plasma adiponectin concentrations than did C/C women (P sex x gene interaction = 0.015), independently of the dietary fat consumed. None of the variables examined were significantly associated with -11426 A > G, 45T > G, or 276 G > T SNP. In conclusion, C/C homozygous men for the -11377 C > G SNP at adipoQ gene were significantly less insulin resistant after consumption of the MUFA- and CHO-rich diets compared with the SFA-rich diet. This information should help in the identification of vulnerable populations or persons who will benefit from more personalized and mechanism-based dietary recommendations.

[Effect of two hypocaloric diets and their combination with physical exercise on basal metabolic rate and body composition]. / Efecto de dos dietas hipocalóricas y su combinación con ejercicio físico sobre la tasa metabólica basal y la composición corporal.

BACKGROUND: Metabolic syndrome (MetS) is diagnosed by the detection of at least three criteria (hypertriglyceridemia, low HDL-C, hypertension, obesity and altered fasting glucose). Visceral fat excess would be the starting point for its development. Scientific evidence supports hypocaloric diets -mediterranean or low fat diet and rich in complex carbohydrates diet included- as the best treatment to reduce fat mass (FM), maximizing its impact by combining them with physical exercise (PE). However, the effects of these treatments on basal metabolic rate (BMR) of patients with MetS, are unknown. OBJECTIVE: To study the effect of the hypocaloric diet - mediterranean or low fat diet- with or without PE on the BMR and body composition (BC) of adults with MetS. METHODS: 36 volunteers, MetS, both sexes, > 50 years, meeting the inclusion criteria. They were randomly assigned to a group of intervention (3 months) of hypocaloric diet: mediterranean diet (MED), low fat and rich in complex carbohydrates diet (CHO) and both combined with PE (MEDE and CHOE respectively). Anthropometric data was taken (weight, muscle mass (MM) and FM) and BMR was determined by indirect calorimetry, before and after intervention. RESULTS: The addition of PE to both hypocaloric treatments produced greater FM loss and weight loss than dieting alone, being this loss in CHOE > MEDE (p < 0.05). These groups decreased the BMR after treatment being MEDE > CHOE (p < 0.05). Mediterranean diet with or without PE lost MM (p < 0.05) being MEDE > MED CONCLUSIONS: CHOE induces less reduction of BMR while supporting a better profile of BC than MEDE.

El Síndrome Metabólico (SMet) se diagnostica por el cumplimiento de al menos tres criterios: hipertrigliceridemia, HDL-C disminuido, hipertensión arterial, glucemia alterada en ayunas y obesidad. Dicha obesidad constituiría el punto inicial para el desarrollo del SMet. Según la evidencia científica, las dietas hipocalóricas, incluyendo la mediterránea y la reducida en grasa con alto contenido en carbohidratos, reducen la masa grasa (MG) de estos pacientes y su efecto se potencia al combinarse con ejercicio físico (EF), pero se desconoce aún su influencia sobre la tasa metabólica basal (TMB). Objetivo: Conocer el efecto de dos dietas hipocalóricas: mediterránea y baja en grasas, combinadas o no con EF, sobre la TMB y la composición corporal (CC) de adultos con SMet. Métodos: 36 voluntarios, > 50 años, ambos sexos, con diagnóstico de SMet. Se asignaron aleatoriamente a uno de los cuatro grupos de intervención: Dieta hipocalórica mediterránea (MED), Dieta hipocalórica baja en grasa (CHO) ó ambas asociadas a EF (MEDE y CHOE respectivamente). Se evaluó CC (antropometría) y TMB (calorimetría indirecta) antes y después de la intervención. Resultados: La adición de EF a los dos tratamientos hipocalóricos produjo mayor pérdida de peso y MG que las dietas por sí solas, siendo esta pérdida en CHOE > MEDE (p < 0,05). Dichos grupos descendieron la TMB siendo MEDE > CHOE (p < 0,05). La Dieta Mediterránea, combinada o no con EF, disminuyó la MM siendo MEDE > MED (p < 0,05). Conclusiones: CHOE fue el tratamiento que mayor pérdida de peso y MG produjo, induciendo menor reducción de TMB y manteniendo un mejor perfil de CC que MEDE.

Respostas metabólicas à suplementação com frutose em exercício de força de membros inferiores / Metabolic responses to fructose supplementation in strength exercise of lower limbs

A frutose, por seu metabolismo independente da insulina, realiza significativas alterações no metabolismo hepático, promovendo um entorno metabólico favorável ao metabolismo tanto da glicose como dos lipídios, durante o exercício. Essa condição tem sido bastante estudada em exercício de endurance; no entanto, nenhum estudo sobre a suplementação com frutose no exercício de força (EF) foi encontrado. O objetivo do presente estudo foi avaliar os efeitos agudos da adição de frutose a um suplemento de glicose sobre o metabolismo de lipídios em EF. Vinte homens treinados ingeriram suplemento de glicose (G) ou glicose mais frutose (G+F), 15 minutos antes de realizar exercício de força (10 séries de 10 repetições). Os sujeitos foram testados em ordem randômica em um desenho cruzado e com uma semana de intervalo em duas condições experimentais: EF+(G) e EF+(G+F). A análise dos resultados mostrou que os valores de triglicérides durante o exercício foram maiores (p < 0,05) quando os sujeitos foram suplementados com G+F do que quando suplementados apenas com G. Ao final do exercício, os valores de ácidos graxos livres foram maiores quando os sujeitos foram suplementados G+F (p < 0,05). A glicemia foi menor durante o exercício e maior na recuperação (p < 0,05) para essa condição. O comportamento da insulina não diferiu entre os experimentos durante o exercício de força (p > 0,05), mas foi maior em G+F que em G (p < 0,05) durante a recuperação. A percepção subjetiva de esforço (PSE) foi menor (p < 0,05) para a suplementação com G+F do que com G. Em conclusão, a suplementação com G+F afeta positivamente o metabolismo de lipídios durante o exercício de força e favorece seu metabolismo imediatamente após o esforço, proporcionando condição metabólica que reflete em uma condição que afeta favoravelmente a PSE.

Due to its insulin-independent metabolism, fructose promotes significant changes in liver metabolism, promoting a metabolic surrounding favorable to the glucose as well as lipids metabolism during the exercise. This condition has been widely studied in endurance exercises; however, none study about fructose supplementation in strength exercise (SE) was found. This study aimed to assess the acute effects of the fructose addition to a glucose supplement on lipid metabolism in strength exercise. Twenty trained male subjects ingested a glucose (G) or glucose plus fuctose (G+F) supplement, 15 minutes before practicing a strength exercise (10 sets of 10 repetitions). The subjects were tested randomly in a crossover design and with a week of pause in two experimental conditions: SE+(G) and SE+(G+F). The analysis of the results showed that values of triglycerides during the exercise were higher (p < 0.05) when the subjects were supplemented with G+F than when they were supplemented only with G. By the end of the exercise the values of free fatty acid were higher when in G+F (p < 0.05). Glycemia was lower during the exercise and higher in the recovery (p < 0.05) in this condition. Insulin values did not differ among the experiments during strength exercises (p > 0.05), but they were higher in G+F than in G (p < 0.05) during recovery. Perceived exertion (PE) was lower (p < 0.05) in G+F than in G. It can be concluded that the G+F supplementation positively affects the lipid metabolism during the strength exercise and favors its metabolism immediately after the effort, promoting a metabolic condition that reflects on a condition that favorably affects the PE.