Background: Although lifestyle modification is the key treatment of metabolic syndrome (MetS), clinical data on the dynamical relationship between metabolic state and MetS has been limited. This study investigated the mutual correlations between demographic and biochemical variables, and the metabolic state based on the plasma amino acid (AA) concentrations, during a lifestyle modification for MetS.
Methods and Results:Japanese subjects, consisting of 54 patients with MetS [MetS(+)] and 35 persons without MetS [MetS(-)] were included in the study. Before a lifestyle modification program, the levels of glutamate metabolism-related AA (Glu-mAA), aromatic AA metabolism-related AA (Aromatic-mAA) and alanine metabolismrelated AA (Ala-mAA) were significantly higher, while those of glycine-serine-threonine metabolism-related AA (Gly-Ser-Thr-mAA) were significantly lower compared to those in MetS(-). After a lifestyle modification, significant reductions (P<0.05) in the BMI (-1.4 kg/m 2 ), mean blood pressure (-7.9 mmHg), hemoglobin A1c (-0.4%), and triglycerides (-30.6 mg/dl) were observed, and significant differences in the plasma AA levels between MetS(+) and MetS(-) were resolved. In addition, the diagnostic items of MetS were positively correlated with the levels of Glu-mAA, Ala-mAA, branched chain AA (BCAA)-mAA, Aromatic-mAA, and negatively correlated with the levels of Gly-Ser-Thr-mAA.
Conclusions:As MetS subsided, the abnormality of mean plasma AA levels of the MetS(+) group returned to similar values as those in the MetS(-) group, suggesting a novel viewpoint regarding the metabolic mechanism of lifestyle modification. (Circ J 2010; 74: 2434 - 2440
The ES-H55 device is compact and light, with clear algorithms for the determination of BP, and satisfies AAMI criteria, so that it is considered a useful BP-measuring device that could be used instead of a mercury sphygmomanometer by nurses and doctors in hospital wards.
We have previously reported that a high sodium intake increases sleep-time blood pressure (BP) in young men. However, there are cases in which this relation does not apply. To account for them, we investigated the relation between sodium intake and cardiac sympatho-vagal balance (SVB) in young men with high BP.
In the past, cross-sectional studies of small groups have not always shown a significant relation between habitual sodium intake and blood pressure (BP). This study examined the relation between 24-h urinary sodium excretion (Salt24, g/day) and BP during sleep in young subjects. The subjects were 132 medical students (93 males, 39 females) aged 21 to 26 years, with no renal disorder. Urine was collected for 24 h, and sodium (Na), chloride (Cl), and creatinine ( and estimated their sodium intake by 24-h urine-sampling for 1 week. On the final urine-sampling day, we measured their BP for 24 h, and then made a detailed analysis of the correlation between 24-h urinary sodium excretion (Salt24) and 24-h BP.
Methods
SubjectsWe interviewed 142 volunteers who were medical students (99 males and 43 females) and traced their past medical history and family medical history. We excluded subjects with renal or cardiac disease. Subjects with a family history of hypertension (in parents or grandparents) were classified as familial hypertension-positive. Resting mean casual BP by the auscultatory method was as follows: male systolic blood
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