Asthma is characterised by chronic inflammation of the airways, but the relevance of high-sensitivity assays for C-reactive protein (hs-CRP), which are known to be a sensitive marker of low-grade systemic inflammation, has not been fully studied in asthma. The objective was to examine serum hs-CRP levels in patients with asthma and their relationship to clinical characteristics and degree of airway inflammation. Serum hs-CRP levels were cross-sectionally examined in steroid-naive (n = 22) and steroid-inhaling (n = 23) adult patients with asthma and healthy controls (n = 14). All were nonsmokers. Serum hs-CRP levels were significantly increased in steroid-naive patients (mean+/-sd 1.33+/-1.48 mg.L(-1)) compared with controls (0.21+/-0.30 mg.L(-1)), but not in patients on inhaled corticosteroid. Among steroid-naive patients, serum hs-CRP levels significantly negatively correlated with indices of pulmonary function (forced expiratory volume in one second/forced vital capacity and forced mid-expiratory flow) and positively with sputum eosinophil count. Among patients on inhaled corticosteroid, hs-CRP levels did not correlate with any indices. In conclusion, an increase in serum C-reactive protein levels measured by high-sensitivity assays may be associated with airflow obstruction and airway inflammation, and may serve as a surrogate marker of airway inflammation in asthma.
Circulating concentrations of adiponectin, an adipocyte-derived protein, are increased by thiazolidinediones and by weight reduction, accompanied with improvement in insulin sensitivity. The effect of exercise training, another therapy to increase insulin sensitivity (SI), on adiponectinemia is currently unclear. The present study was undertaken to clarify whether exercise training-induced increase in SI is related to changes in adiponectinemia in healthy men. Twelve healthy non-obese men underwent ergometer training at lactate threshold (LT) intensity for 60 min/day for 5 days/week for 6 weeks. An insulin-modified intravenous glucose tolerance test was performed before and at 16 h and 1 week after the last training session to determine SI using a minimal-model approach. Serum levels of adiponectin were determined at the same time. After the exercise training, VO2max and LT were significantly increased by 7.2% and 22.3% (P<0.01), while BMI and body fat mass remained unchanged. SI was significantly increased at 16 h after the last training session (from 7.0 +/- 3.1 to 9.6 +/- 3.6 [x 10(-4) x (microU/ml)(-1) x min(-1)], P<0.01), but returned toward the basal levels at 1 week after the cessation of the training. Serum adiponectin concentrations before the training (20.9 +/- 7.4 microg/ml) were positively correlated with SI. The concentrations were slightly but significantly decreased at 16 h (17.2 +/- 6.6 microg/ml, P<0.05), and returned to the basal values at 1 week after the training. From these results, it can be concluded that exercise training-induced increase in SI is not dependent on the increase in adiponectinemia in healthy men.
Insulin sensitivity, glucose effectiveness, and endogenous glucose production (EGP) during stable-labeled, frequently sampled insulin-modified intravenous glucose tolerance test (FSIGT) were evaluated by a single-and two-compartment minimal model combined with nonparametric deconvolution in eleven nonobese Japanese type 2 diabetic patients. Four patients were treated with sulfonylureas, and the remaining seven with diet therapy alone. None had diabetic retinopathy and microalbuminuria. Their fasting glucose level was 117+/-7 mg/dl (mean +/- SE), and HbA1c was 6.6+/-0.3%. Age-, sex-, and BMI-matched subjects with normal glucose tolerance served as control subjects. Plasma insulin response to the stimuli and insulin sensitivity indexes (S(I), S(I)*, and S(I)2* were derived from a minimal model and single- and two-compartment-labeled minimal models) were impaired in the type 2 diabetic patients. The combined ability of glucose, per se, to increase its own uptake and suppress EGP (glucose effectiveness [SG]), which was derived from kinetic analysis of plasma glucose by a minimal model, was significantly lower in the type 2 diabetic patients (0.0132+/-0.0015 vs. 0.0203+/-0.0022; P<0.05). However, the ability of glucose, per se, to stimulate glucose uptake, assessed as S(G)* and S(G)2* from the kinetic analysis of labeled glucose by single- and two-compartment minimal model, was not impaired in those patients. EGP of the type 2 diabetic patients as a whole was suppressed to the level similar to that of the control subjects despite a higher plasma glucose level throughout FSIGT. When EGP in the diabetic subjects was analyzed, considering their recent glycemic control, the initial suppression was blunted in the patients with higher HbA1c levels. In conclusion, glucose mass action to stimulate glucose uptake remains near-normal in the lean Japanese type 2 diabetic patients of this study, whereas ability of glucose to suppress EGP is impaired in the patients with recent hyperglycemia. This blunted suppression of EGP might be one of the conspirators for decreased S(G) in subjects with type 2 diabetes.
Abstract.It has been reported that there is an inverse relationship between serum sodium (Na) and potassium (K) levels in patients with diabetic coma. The present study was undertaken to determine whether such an inverse relation depends upon plasma glucose levels in diabetic patients for their glycemic control. We examined two hundred and fifty-two patients with diabetes mellitus admitted to our hospital during the one-year period to control their plasma glucose levels, except for those having nephropathy or liver dysfunction. Serum Na and K, plasma glucose, and serum and urinary C-peptide levels were determined.There was a negative correlation between serum Na levels and fasting plasma glucose (FPG), and, conversely, a positive correlation between serum K levels and FPG. The changes were more evident in the patients with insulin-dependent diabetes mellitus than those with non-insulindependent diabetes mellitus.There was an inverse relation between serum Na and K levels and it was profoundly dependent upon plasma glucose levels in all the diabetic patients before tight control of their glycemic levels. The disorder may be based on the movement of electrolytes between intra-and extracellular spaces, dependent on the impaired insulin action as well as hyperosmolality.
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