The association of brain natriuretic peptide and insulin resistance in obesity-related hypertension

Hypertension is frequently associated with obesity and natriuretic peptide levels are reported to decrease in obese subjects. Both the lower brain natriuretic peptide (BNP) concentration and insulin resistance are suggested to be associated with hypertension. However, their involvement in obesity-related hypertension has not been clearly defined. Forty-four obese women (21 normotensive and 23 hypertensive) and 25 healthy women matched for age were included in the study. Anthropometrical parameters were determined. Serum BNP, fasting insulin and glucose concentrations, and lipid parameters were evaluated. Insulin resistance was calculated using Homeostasis Model Assessment (HOMA) and Quantative Insulin Sensitivity Check Index (QUICKI) formulations. Within the obese groups, HOMA and QUICKI reflected the increased insulin resistance in hypertensive obese subjects with a significant correlation to blood pressure. The decrease in BNP in the obese groups was in favour of the hypertensive obese subjects (31.43+/-6.43; 26.36+/-4.29; and 17.51+/-3.08 pg/ml, respectively) with a fractional statistical significance between the hypertensive obese group and the controls (P=0.047). Only for the obese hypertensive group, fasting glucose, HOMA and QUICKI were significantly correlated with BNP. Moreover, fasting plasma glucose (R(2)=0.22, P=0.007) and fasting plasma insulin (R(2)=0.39, P=0.03) were independently correlated with BNP only for the obese hypertensive group. It can be concluded that the decrease in BNP concentrations in the obese hypertensive subjects seem to be well correlated with the insulin resistance.     

Correlation between the glucose clamp technique and the homeostasis model assessment in hypertension

The homeostasis model assessment (HOMA) has been extensively used as a reliable surrogate marker for measuring insulin resistance in patients with diabetes mellitus and in normal subjects. Comparative data in another insulin resistance state, hypertension, is lacking. The goal of the present study was to obtain that information by testing the correlation of HOMA with the euglycemic hyperinsulinemic clamp in 36 hypertensive and 27 normotensive subjects. Clamp-derived insulin sensitivity was calculated as the glucose disposal rate over steady-state plasma insulin concentration. Homeostasis model assessment was computed using the formula (fasting glucose x fasting insulin)/22.5. There was significant correlation between the clamp and HOMA for both the hypertensive (r = -0.64, P < .0001) and normotensive subjects (r = -0.58, P = .002). The HOMA can be used reliably as a less expensive and less cumbersome alternative for measuring insulin resistance in hypertension.     

Tumor necrosis factor [alpha ] -238 and -308 polymorphisms do not associate with insulin resistance in hypertensive subjects

It is well established that, as a group, patients with essential hypertension are characterized by insulin resistance. Previous studies have shown that a biallelic polymorphism in the tumor necrosis factor (TNF)alpha promoter position -308 and -238 might be involved in the insulin resistance state in diabetic and/or nondiabetic subjects. We determined these polymorphisms in 235 nondiabetic hypertensive subjects and 246 unrelated normotensive controls. Fasting plasma glucose, insulin, lipoprotein, leptin, and TNFalpha concentrations were measured, in addition to plasma glucose and insulin responses to a 75-g oral glucose tolerance test (OGTT). Insulin sensitivity was also determined by an insulin suppression test in 69 hypertensive and 76 normotensive individuals. The results showed no association of these genotypic distributions between hypertensive and normotensive individuals both at -308 (GG, GA, and AA were 80.9%, 17.9%, and 1.3% in hypertensives, 84.2%, 15.4%, and 0.4% in normotensives, chi(2) = 1.68, P =.432) and at -238 (GG, GA, and AA were 98.3%, 1.7%, and 0% in hypertensives, 96.7%, 3.3%, and 0% in normotensives, chi(2) = 1.19, P =.276) sites. These results did not change even after adjustment for values of age and body mass index (BMI). Anthropometric measurements, fasting plasma glucose, insulin, lipoprotein concentrations, glucose, and insulin responses to OGTT, TNFalpha, and leptin concentrations were similar between the genotype at the -308 site both in hypertensive and normotensive groups. Insulin sensitivity, either measured by an insulin suppression test or homeostasis model assessment (HOMA) index, did not differ between the genotype at the -308 site in subjects with hypertension or normotension. Fasting plasma TNFalpha (10.2 alpha 0.5 pg/mL v 10.1 +/- 0.5 pg/mL, P =.928) concentrations did not differ between hypertensive and normotensive subjects even after adjustment for body fat and BMI values. We conclude that TNFalpha promoter gene polymorphisms at position -238 and -308 do not play a major role in the pathogenesis of insulin resistance in Chinese subjects with or without hypertension.     

吡格列酮对胰岛素抵抗大鼠血浆同型半胱氨酸水平的影响

目的　研究吡格列酮对高脂饮食诱导的胰岛素抵抗大鼠血浆同型半胱氨酸 (Hcy)水平的影响。方法　将 2 4只Wistar大鼠随机分为 3组 :对照组给予普通饲料喂养 ;高脂组喂高脂饲料诱导胰岛素抵抗动物模型 ;盐酸吡格列酮组在喂饲高脂饲料的同时 ,灌胃给盐酸吡格列酮 10mg·kg-1·d-1。各组喂食 11周时 ,分别做空腹血糖、葡萄糖耐量试验和胰岛素耐量试验后处死动物。测定血糖和胰岛素水平 ,用HOMA模型公式计算胰岛素抵抗指数 (HOMAIR)。喂食 11周后测定血浆Hcy水平。结果　试验后 3组间体重变化、空腹胰岛素、空腹血糖、HOMAIR均有显著差异 (P <0 0 5 )。其中吡格列酮组空腹胰岛素、空腹血糖、HOMAIR均显著低于高脂组 (P <0 0 1)。试验后 3组间血浆Hcy也有显著差异 ,高脂组 (35 7± 14 1) μmol/L高于对照组 (9 95± 2 4 0 ) μmol/L和吡格列酮组 (8 8± 1 39) μmol/L。相关分析显示血糖曲线下面积、空腹胰岛素、空腹血糖、HOMAIR、内脏脂肪含量均与血浆Hcy水平显著相关 (P <0 0 5 )。进一步多元逐步回归分析显示仅空腹血糖 (r =0 5 0 4 ,P =0 0 31)和HOMAIR与血浆Hcy相关 (r=0 30 2 ,P =0 0 4 6 )。结论　高脂诱导的胰岛素抵抗与大鼠血浆Hcy水平升高有关 ,吡格列酮可能通过减轻胰岛素抵抗降低血浆H     

Preeclampsia and future cardiovascular disease: potential role of altered angiogenesis and insulin resistance

Altered angiogenesis and insulin resistance are associated with preeclampsia and cardiovascular disease (CVD), and women with preeclampsia appear to be at increased risk of future CVD. We hypothesized that these factors are detectable in asymptomatic postpartum women with a history of preeclampsia and may represent pathophysiological mechanisms bridging preeclampsia and future CVD. We measured fasting insulin, glucose, vascular endothelial growth factor, and its circulating inhibitor, soluble fms-like tyrosine kinase (sFlt-1) in 29 normotensive women with a history of preeclampsia and 32 women with prior normotensive pregnancies at 18.0 +/- 9.7 months postpartum. The homeostasis model of insulin resistance (HOMA(IR)) [(insulin [microunits per milliliter] x glucose [millimoles per liter])/22.5] was calculated. Compared with women with normal pregnancies, women with prior preeclampsia had significantly increased levels of sFlt-1 (41.6 +/- 6.7 vs. 30.4 +/- 10.2; P < 0.01) and median HOMA(IR) (2.8 vs. 1.9; P = 0.04). Membership in the upper quartile of either sFlt-1 or HOMA(IR) was associated with prior preeclampsia (odds ratio 5.7; 95% confidence interval 1.7, 20.0; P < 0.01), and all five women in the upper quartiles of both sFlt-1 and HOMA(IR) had a history of preeclampsia. Women with a history of preeclampsia demonstrate altered expression of angiogenesis-related proteins and increased HOMA(IR) more than 1 yr postpartum. These factors may contribute to their risk of future CVD.     

Reduced insulin secretion in normoglycaemic patients with beta-thalassaemia major.

AIMS: To assess insulin sensitivity and secretion in the fasting state in regularly transfused patients with beta-thalassaemia major with normal glucose response during an oral glucose tolerance test and to estimate its possible relation to iron overload. METHODS: We measured fasting glucose, insulin and C-peptide levels in 24 patients with beta-thalassaemia major and 18 control subjects matched for age and body mass index. Insulin sensitivity and insulin release index were calculated according to the homeostasis model assessment (HOMA). Correlations with age, body mass index and serum ferritin were also calculated. RESULTS: Fasting glucose levels in patients were increased compared with control subjects (5.5 +/- 0.12 vs. 4.7 +/- 0.13 mmol/l, mean +/- SEM, P < 0.001). Pancreatic B-cell insulin secretion in the fasting state (estimated by SC(HOMA)) was lower in thalassaemic patients (SC(HOMA) 88.5 +/- 11.11 vs. 184.3 +/- 23.72 in control subjects, P < 0.001). Patients were then divided into those with impaired (IFG) and normal (NFG) fasting glucose. SC(HOMA) was higher in the patients with NFG compared with those with IFG patients (110.6 +/- 17.63 vs. 66.3 +/- 10.88, respectively, P < 0.05) but estimated insulin sensitivity (ISI(HOMA)) was similar. Plasma values of C-peptide correlated positively with ferritin (r = 0.42, P = 0.04) and SC(HOMA) (r = 0.45, P = 0.02) and negatively with ISI(HOMA) (r = -0.43, P = 0.03). CONCLUSIONS: These results support the concept that impaired B-cell function, as reflected by a reduction in the insulin secretion index, is present in beta-thalassaemic patients with normoglycaemia before changes in oral glucose tolerance tests are apparent.     

Increased insulin sensitivity in the high sodium one-kidney, one figure-8 hypertensive rat.

This study examines the relation between sympathetic activity and in vivo insulin-mediated glucose metabolism in a rat model of acquired hypertension. Two groups of conscious, unrestrained rats were studied in the postabsorptive state: sham-operated normotensive rats (n = 10) and renal-wrapped hypertensive rats (n = 10). Mean arterial pressure was increased in the hypertensive compared with the normotensive group in the fed (184 +/- 9 versus 144 +/- 6 mm Hg; p less than 0.01) and in the fasting (147 +/- 8 versus 112 +/- 7 mm Hg; p less than 0.01) state. After a 24-hour fast, hepatic glucose production, plasma glucose, insulin, and norepinephrine concentrations were similar in the two groups. Blood pressure did not change in either group during the 3-milliunits/kg.min euglycemic insulin clamp study; however, plasma norepinephrine concentration rose significantly in hypertensive (207 +/- 24 versus 329 +/- 11 pg/ml; p less than 0.05) but not in normotensive rats (229 +/- 23 versus 267 +/- 27 pg/ml; p = NS). During the insulin clamp study, the hepatic glucose production was similar in the hypertensive (3.8 +/- 0.8 mg/kg.min) compared with the normotensive (4.0 +/- 0.3 mg/kg.min) rats. Insulin-mediated glucose uptake was significantly higher in hypertensive than in normotensive rats (33.0 +/- 0.7 versus 25.8 +/- 0.8; p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of insulin resistance on left ventricular structural changes in hypertensive patients

Both left ventricular (LV) hypertrophy and insulin resistance (IR) have often been demonstrated in patients with essential hypertension (EH). Insulin may exert a direct growth promoting effect on cardiomyocytes rather than affecting the LV internal diameter. The purpose of this study was to examine the effect of IR on LV geometry. We enrolled 105 patients (71 females, mean age, 49.2 +/- 13.6 years) with recently diagnosed and untreated hypertension (blood pressure > 140 and/or 90 mmHg, fasting glucose < 110 mg/dL), and grouped them as normal (N) (39 patients, 26 females, mean age, 48.5 +/- 14.7 years) if all M-mode echocardiographic measurements were within normal limits, concentric remodeling (CR) (22 patients, 15 females, mean age, 50.5 +/- 14.8 years) if relative wall thickness was increased but left ventricular mass index (LVMI) was normal, concentric hypertrophy (CH) (13 patients, 9 females, mean age, 50.3 +/- 10.8 years) if both ventricular thicknesses and the LVMI were increased, and eccentric hypertrophy (EH) (31 patients, 21 females, mean age, 48.6 +/- 12.9 years) if ventricular thicknesses were normal, but LVMI was increased. Transthoracic echocardiography was performed in all subjects, and interventricular septal thickness (IVS), posterior wall thickness (PWT), sum of wall thickness (SWT), left ventricular end-diastolic internal diameter (LVED), relative wall thickness (RWT), and LVMI were recorded. Blood samples for routine biochemical examination and fasting insulin levels were obtained and then the homeostasis model assessment (HOMA) index was calculated by the formula: HOMA Index = Fasting Blood Glucose (mg/dL) x Immunoreactive Insulin (microU/mL)/405, for the assessment of IR. There were no significant differences among the groups with respect to age, blood pressure (BP) levels, fasting blood glucose (FBG), LDL-cholesterol (LDL-C), HDL-cholesterol (HDL-C), total cholesterol (TC), or triglyceride (TG) levels. Insulin levels were significantly higher in the CR and CH groups in comparison with the N group (P = 0.004), and the HOMA index was higher in the CH group compared to the N group (P = 0.024). In Pearson's correlation analysis, insulin was found to be directly correlated with IVS (r = 0.29, P = 0.002), SWT (r = 0.25, P = 0.009), and RWT (r = 0.33, P = 0.0001). The HOMA index was also directly correlated with IVS (r = 0.33, P = 0.001), SWT (r = 0.29, P = 0.002), and RWT (r = 0.29, P = 0.003). Cardiac changes in hypertensive patients include increased LVMI and altered LV geometry. The concentric LV geometry seen in hypertensive patients might be mediated, at least in part, by increased insulin levels and the HOMA index.     

Neither homeostasis model assessment nor quantitative insulin sensitivity check index can predict insulin resistance in elderly patients with poorly controlled type 2 diabetes mellitus

To clarify whether homeostasis model assessment (HOMA IR) and quantitative insulin sensitivity check index (QUICKI) may be indicators of insulin resistance in elderly patients with type 2 diabetes mellitus, their relationship with the glucose infusion rate during the euglycemic hyperinsulinemic clamp study (clamp IR) was assessed. This study comprised 56 Japanese patients with type 2 diabetes mellitus; of these, 28 were 70 yr of age or older (group 1) and 28 were less than 70 yr of age (group 2). Their blood sugars were in poor control (fasting plasma glucose levels: group 1, 9.0 +/- 2.6 mmol/liter; group 2, 8.9 +/- 2.3 mmol/liter; hemoglobin A1c: group 1, 9.5 +/- 2.0%; group 2, 9.2 +/- 1.7%). Log-transformed HOMA IR was significantly correlated with the clamp IR in group 2 patients (r = -0.51, P < 0.01), but not in group 1 patients (r = -0.28, P = 0.15). There was a significant positive correlation between QUICKI and clamp IR in group 2 patients (r = 0.50, P < 0.01). However, no significant correlation was observed between QUICKI and clamp IR in group 1 patients (r = 0.31, P = 0.12). There was a significant correlation between log-transformed HOMA IR (r = -0.37, P < 0.01) or QUICKI (r = 0.37, P < 0.01) and clamp IR when both groups were combined. In conclusion, neither HOMA IR nor QUICKI should be used as an index of insulin resistance in elderly patients with poorly controlled type 2 diabetes mellitus. The results of this study suggest the need for developing a new noninvasive method for evaluating insulin resistance in those patients.     

Insulin resistance in hypertensives: effect of salt sensitivity, renin status and sodium intake

OBJECTIVE: Homeostasis Model Assessment (HOMA index) is predictive of insulin sensitivity in normal and diabetic patients. This study was designed to see if insulin resistance in hypertensives, measured using the HOMA index, differs, based on salt sensitivity, renin status and sodium intake. METHODS: Fasting insulin and glucose were determined in subsets of 426 essential hypertensives, and normotensives. HOMA was calculated as fasting glucose (mmol) x fasting insulin (muU/ml)/22.5. RESULTS: Four hundred and twenty-six essential hypertensives and normotensives from four HERMES centers form the basis of this report. There was no difference in the HOMA index between hypertensives and normotensives (P= 0.291) or between hypertensives grouped according to blood pressure salt sensitivity (P = 0.153). However, when essential hypertensives were subgrouped by renin status, the low-renin group had significantly lower (P< 0.01) HOMA index than the normal/high-renin group. When normal/high-renin group was divided into modulators and non-modulators, the nonmodulators had significantly higher HOMA index (P< 0.001) than other hypertensive subsets. The effect of sodium intake on the HOMA index was significant only for non-modulators (P< 0.002), with salt restriction increasing insulin resistance. CONCLUSION: Insulin sensitivity differs among subsets of essential hypertension, non-modulators being most insulin resistant and the low-renin subset insulin sensitive. Salt restriction might have an adverse effect on insulin sensitivity in non-modulators. The reduction in cardiovascular risk seen in low-renin hypertensives may be related to their increased insulin sensitivity; in contrast, the clustering of cardiovascular risk factors seen in nonmodulators may be due to increased insulin resistance.     

I/D polymorphism of angiotensin I converting enzyme gene and insulin resistance and some parameters of metabolic syndrome in patients with type 2 diabetes

Insulinresistance is a component of the metabolic syndrome and important pathogenetic factor of type 2 diabetes mellitus. There are evidences that activation of the renin-angiotensin system (RAS) can decrease insulin sensitivity of tissues. As I/D polymorphism of angiotensin converting enzyme (ACE) gene can influence the activity of RAS, it may also influence insulin resistance. Aim. To assess the relationship between the I/D polymorphism of ACE gene and degree of insulin resistance and intensity of metabolic syndrome in type 2 diabetic patients. Study group and methods. Examined group: 108 type 2 diabetic patients (38 women and 70 men), with mean duration of disease 9.07 +/- 6.68 years, mean age 59.98 +/- 9.10 years. Assessed parameters: body mass index (BMI), waist/hip ratio (WHR), arterial blood pressure. Laboratory tests: concentration of the glycosylated hemoglobin (HbA 1c), glucose, insulin, total cholesterol, HDL and LDL cholesterol, triglycerides, creatinine, uric acid. Insulin resistance was calculated by the HOMA rate. Criterion of insulin resistance was rate > or = 2.5. The diagnosis and assessment of intensity of metabolic syndrome was performed according to criteria of National Education Cholesterol Adult Treatment Program the Panel III. I/D ACE gene polymorphism was evaluated by polymerase chain reaction (PCR). Results. Groups with 11, ID and DD genotype were not different in age, BMI, WHR, duration of diabetes, the prevalence and duration of arterial hypertension, degree of metabolic control and insulinresistance assessed by HOMA rate and intensity of metabolic syndrome. DD genotype carriers had significant higher systolic and diastolic blood pressure (147.8 +/- 19.8 mmHg vs 138.2 +/- 16.5 mmHg, p = 0,02; 89.2 +/- 9.6 mmHg vs 81.7 +/- 8.6, p = 0,003, respectively) than II patients. Conclusion. In type 2 diabetic patients the I/D genotype of ACE gene is not associated with the increased insulin resistance assessed by HOMA rate and intensity of metabolic syndrome.     

Hypertriglyceridemia is associated with increased insulin resistance in subjects with normal glucose tolerance: evaluation in a large cohort of subjects assessed with the 1999 World Health Organization criteria for the classification of diabetes

The current study retrospectively examined the association between insulin resistance and plasma triglycerides (TG) in a group of subjects with normal glucose tolerance. Among 1,434 subjects consecutively undergoing a standard oral glucose tolerance test (OGTT) between 1993 and 1998, 567 (age, 15 to 78 years) were classified as having a normal glucose tolerance according to the 1999 World Health Organization (WHO) criteria and were selected for the study. Serum insulin was measured by radioimmunoassay (INSI-CTK, Dia Sorin, Saluggia, Italy). Intra-assay and interassay coefficients of variation for the method were less than 4% and less than 8.5%, respectively. Insulin resistance was calculated by a homeostasis model assessment (HOMA(IR) = fasting serum insulin [mU/mL] x fasting blood glucose [mmol/L]/22.5). A very significant correlation was found between HOMA(IR) and plasma TG (r = 0.27, P < 1.02E(-10)). Multiple regression analyses confirmed plasma TG as independent variables explicative of HOMA(IR). When subjects were evaluated according to tertiles of TG, those in the upper two tertiles were older (P <.001) and presented higher body mass index (BMI) values (P <.0001) in comparison to subjects in the lower tertile. A positive trend (analysis of variance [ANOVA]) was found in regard to systolic (P <.05) and diastolic blood pressure (P <.0001), fasting blood glucose (P <.01), fasting serum insulin (P <.0001), and total cholesterol (P <.0001), while a negative trend was found in regard to high-density lipoprotein cholesterol (HDL-C) (P <.0001). Insulin resistance, calculated as HOMA(IR), was higher in the upper two tertiles of TG in comparison to the lower tertile (P <.001 and P <.0001, respectively), with a statistically significant trend for the entire group (first tertile, 1.85 +/- 0.94; second tertile, 2.28 +/- 1.10; third tertile, 2.65 +/- 1.71; ANOVA: P <.0001). In conclusion, this study shows an association between high levels of circulating TG and insulin resistance in patients with normal glucose tolerance seen in an atherosclerosis prevention clinic. This association is also present at levels of plasma TG considered to be normal and is associated with a cluster of cardiovascular risk factors.     

Relation of insulin resistance and left ventricular function and structure in non-diabetic patients with essential hypertension

OBJECTIVE: Both left ventricular hypertrophy and insulin resistance (IR) have often been demonstrated in patients with essential hypertension (EH). Insulin may exert a direct growth-promoting effect on cardiomyocytes. The purpose of this study was to examine the relationship between left ventricular structure, function and IR in patients with EH. METHODS: We enrolled 73 patients (21 men, mean age 51.7 +/- 9.2 years) with untreated hypertension (BP > 140 and/or 90 mm Hg, fasting glycaemia < 110 mg/dl) and 64 healthy subjects without diabetes mellitus and hypertension (21 men, mean age 48.9 +/- 10.6 years) constituted the control group. In all subjects, transthoracic echocardiography was performed and blood samples were taken. Homeostasis model assessment (HOMA) was calculated by the formula: HOMA-index = fasting blood glucose (mg/dl) * immunoreactive insulin (microU/ml)/405 for the assessment of IR. Hypertensive patients were divided in two groups by mean HOMA index values. Each subject was examined for LV end-diastolic diameter, septal and posterior wall thickness, LV mass index (LVMI), fractional shortening (FS), mitral inflow velocity pattern, atrial filling fraction (AFF), left ventricular outflow velocity pattern and the total ejection isovolume index (TEI index). RESULTS: The HOMA index (p < 0.001), LVMI (p < 0.001), AFF (p < 0.0001), peak A velocity (p < 0.028), septal (p < 0.0001) and posterior (p < 0.0001) wall thickness were significantly higher and FS (p < 0.001), E/A ratio (p < 0.0001) were significantly lower in hypertensive patients than healthy controls. LVMI (p < 0.01) and septal wall thickness (p < 0.001) were significantly higher in those hypertensive patients with a higher HOMA index. The HOMA-index was univariately related to the TEI index (r = 0.27, p = 0.01) and septal wall thickness (IVS) (r = 0.29, p = 0.01) by Pearson correlation analysis in hypertensive patients. LVMI, FS and mitral inflow velocity pattern were not related to the HOMA index. The TEI index (R2 = 0.20, p = 0.0001) and IVS (R2 = 0.12, p = 0.002) were significantly related to the HOMA-index as an independent variable by stepwise regression analysis. CONCLUSIONS: These results demonstrated that hypertensive patients had both abnormal cardiac structure and function and higher IR index. In our study group, the effect of hypertension on cardiac structure and function was correlated with IR. Our results suggested that IR might be an important factor causing left ventricular dysfunction and wall thickness in non-diabetic patients with EH.     

Does carvedilol impair insulin sensitivity in heart failure patients without diabetes?

BACKGROUND: An increased risk for impaired glucose tolerance or diabetes was shown in patients on beta-blockers, whereas alpha1 blockers seem to have favorable effects on glycemic profile. In this study, the metabolic effect of carvedilol in nondiabetic patients with chronic heart failure (CHF) was evaluated. METHODS AND RESULTS: Twenty-eight nondiabetic CHF patients were enrolled. Before being started on carvedilol and on the highest tolerated dose, each patient underwent an oral glucose tolerance test and fasting insulin, glycohemoglobin, lipid concentrations were measured and insulin sensitivity indices (HOMA, ISI-gly, and ISI-composite) were calculated. An impaired glucose tolerance was found (2-hour glycemia 144 +/- 42 mg/dL), with a fasting glycemia at upper limits of normal (108 +/- 13 mg/dL) and no significant differences between basal and carvedilol treatment measurements. Fasting insulinemia significantly decreased during carvedilol treatment (13.6 +/- 7.3 versus 9.8 +/- 5.1 muU/mL; P = .022), with a reduction of the HOMA index (3.75 +/- 1.95 versus 2.73 +/- 1.47; P = 034) and an increase of the ISI-gly index (0.85 +/- 0.22 versus 1.03 +/- 0.31; P = .025). The lipoprotein profile did not significantly change. CONCLUSION: Carvedilol might have some positive metabolic effects on increasing insulin sensitivity that would make it suitable for diabetic patients that have a worse prognosis than non diabetic patients with CHF.     

High plasma leptin concentrations in hypertensive men but not in hypertensive women.

OBJECTIVE: Previous studies on humans have reported higher leptin levels in women than in men, independent of body fat, and leptin has been correlated with insulin resistance in men but not in women. Since insulin resistance is thought to play a role in raising blood pressure, we investigated sex differences in leptin concentrations between hypertensive and normotensive individuals. METHODS: Ninety-two nondiabetic hypertensive patients (48 men and 44 women) and 92 age, body mass index (BMI)-matched normotensive control individuals were studied. Fasting plasma glucose, insulin, leptin and lipoprotein concentrations, glucose and insulin responses to 75 g oral glucose tolerance test (OGTT) and insulin suppression tests were determined. RESULTS: Fasting plasma leptin concentrations were higher in hypertensive men than in normotensive men (5.1 +/- 0.5 versus 3.9 +/- 0.4 ng/ml, P = 0.015). However, fasting plasma leptin concentrations were not significantly different between hypertensive and normotensive women (11.8 +/- 1.0 versus 10.9 +/- 1.0 ng/ml, P = 0.440). Fasting plasma leptin concentrations showed good correlation with BMI, body fat, fasting plasma insulin concentrations, and insulin area to OGTT in both men and women (all P < 0.001). However, fasting plasma leptin concentrations were related to steady-state plasma glucose (SSPG) concentrations, a measure of insulin sensitivity by insulin suppression test, in men only (P < 0.001). After adjustment for body fat amount, age and duration of hypertension, fasting plasma leptin levels still correlated significantly with SSPG concentrations in men. These four variables together accounted for a 67.9% variation in fasting plasma leptin levels in men. In women, body fat amount was the only significant determinant for plasma leptin levels. These four variables accounted for a 78.2% variation in plasma leptin levels in women. CONCLUSIONS: Our study confirmed a sex difference in leptin levels both in hypertensive and normotensive subjects. Higher plasma leptin concentrations in hypertensive men but not in hypertensive women when compared with normotensive control individuals was also demonstrated. These observations are consistent with the findings that plasma leptin is correlated with insulin sensitivity in men but not in women. Further studies are needed to understand the causes and consequences of sex effects on leptin in blood pressure regulation.     

Effects of growth hormone and insulin-like growth factor-1 on cardiac hypertrophy of hypertensive patients

OBJECTIVES: Growth hormone (GH) and insulin-like growth factor-1 (IGF-1) interfere with cardiac mass (left ventricular mass; LVM) development. We investigated the role of the GH/IGF-1 axis on LVM and ventricular geometry in a group of 230 never-treated hypertensive patients. METHODS: Partition values for left ventricular hypertrophy (LVH) were 125 g/m2 for both women and men. Insulin resistance was estimated by the homeostasis model assessment (HOMA) index. RESULTS: A significant inverse correlation was observed between IGF-1 and both fasting insulin (r = -0.249; P < 0.0001) and GH (r = -0.218; P < 0.0001). Systolic blood pressure (157.3 +/- 13.6 versus 149.4 +/- 12.8 mmHg; P < 0.001), fasting insulin (17.4 +/- 8.5 versus 11.4 +/- 6.0 microU/l; P < 0.0001), HOMA (4.4 +/- 2.3 versus 2.9 +/- 1.6; P < 0.0001) and GH (1.0 +/- 1.0 versus 0.4 +/- 0.5 ng/ml; P < 0.0001) were significantly higher in patients with LVH; on the contrary, IGF-1 values (119.1 +/- 47.8 versus 160.1 +/- 75.5 ng/ml; P < 0.0001) were higher in patients without LVH. In a logistic regression analysis, the strongest independent predictors of LVH were GH [relative risk (RR) = 2.078; 95% confidence interval (CI) = 1.364-3.163], HOMA (RR = 1.345; 95% CI = 1.133-1.596), IGF-1 (RR = 0.993; 95% CI = 0.998-0.999) and systolic blood pressure (RR = 1.036; 95% CI = 1.013-1.060). IGF-1 showed an opposite trend in patients with eccentric and concentric hypertrophy. CONCLUSIONS: Present data demonstrate that the increase in LVM prevalent in human essential hypertension is directly associated with serum GH levels and inversely related to circulating IGF-1.     

Neutral endopeptidase and angiotensin I converting enzyme insertion/deletion gene polymorphism in humans

Neutral endopeptidase (NEP) hydrolyses angiotensins (Ang) I and II and generates angiotensin-(1-7) [Ang-(1-7)]. In humans, the insertion/deletion (I/D) angiotensin-I converting enzyme (ACE) gene polymorphism determined plasma ACE levels by 40%. In rats, a similar polymorphism determines ACE levels which are inversely associated to NEP activity. The objective of this study is to evaluate the relationship between ACE expression and plasma NEP activity in normotensive subjects and in hypertensive patients. In total, 58 consecutive patients with hypertension, evaluated in our Hypertension Clinic, were compared according to their ACE I/D genotypes with 54 control subjects in terms of both plasma ACE activity and NEP activities. Plasma ACE activity was elevated 51 and 70% in both DD ACE groups (normotensives and hypertensives) compared with their respective ID and II ACE groups (P<0.001). A significant effect of the ACE polymorphism and of the hypertensive status on ACE activity was observed (P<0.001). In normotensive DD ACE subjects, NEP activity was 0.30+/-0.02 U/ml, whereas in the normotensive II ACE and in the normotensive ID ACE subjects NEP activity was increased 65 and 48%, respectively (P<0.001). In the hypertensive DD ACE patients, NEP activity was 0.47+/-0.03 U/mg. An effect of the I/D ACE genotypes on NEP activity (P<0.04) and an interaction effect between the I/D ACE genotype and the hypertensive status were also observed (P<0.001). These results are consistent with a normal and inverse relationship between the ACE polymorphism and NEP activity in normotensive humans (as is also observed in rats). This normal relationship is not observed in hypertensive patients.     

Association of nonalcoholic fatty liver disease with abnormal aminotransferase and postprandial hyperglycemia

GOALS: This study was conducted to explore the association between nonalcoholic fatty liver disease and glucose metabolism as well as insulin resistance using the homeostasis model assessment method (HOMA). STUDY: From July 2003 to June 2004, 23 patients with ultrasound-proved fatty liver and either normal (10 patients) or abnormal (13 patients) serum aminotransferase levels were enrolled. Blood tests included a routine biochemistry, a 75-g glucose oral glucose tolerance test (OGTT) with blood sampled at 30-minute intervals during a 120-minute period. Fasting and 120-minute serum leptin, insulin, and C-peptide concentrations were also measured. RESULTS: Using the Mann-Whitney U test, significant differences were found in gamma glutamyl transpeptidase (28.6+/-7.9 vs. 65.1+/-65.9 U/L, P=0.008), fasting insulin (FI) (13.11+/-7.53 vs. 31.76+/-42.95 muU/mL, P=0.02), fasting C-peptide (3.82+/-3.00 vs. 2.17+/-0.43 ng/mL, P=0.01), fasting leptin (10.34+/-4.05 vs. 24.27+/-24.97 ng/mL, P=0.01), HOMA-IR (3.34+/-1.06 vs. 8.81+/-13.18, P=0.02), and HOMA beta-cell function (120.32+/-52.50 vs. 242.20+/-247.29, P=0.02) between normal and abnormal ALT/AST function groups. From the 75-g OGTT, no significant difference of plasma glucose was noted at 0, 30, 60, and 90 minutes but significant change was noted in 120-minute plasma glucose (99.3+/-21.5 vs. 131.4+/-27.3 mg/dL, P=0.004) of 2 groups. CONCLUSIONS: In conclusion, patients with fatty liver proved by ultrasound sonography might be at high risk of developing type 2 diabetes, especially when they had elevated liver enzymes. OGTT is warranted for the early diagnosis of these high risk patients.     

Insulin action and hepatic glucose cycling in essential hypertension.

Peripheral insulin resistance is a feature of essential hypertension, but there is little information about hepatic insulin sensitivity. To investigate peripheral and hepatic insulin sensitivity and activity of the hepatic glucose/glucose 6-phosphate (G/G6P) substrate cycle in essential hypertension, euglycemic glucose clamps were performed in eight untreated patients and eight matched controls at insulin infusion rates of 0.2 and 1.0 mU.kg-1.min-1. A simultaneous infusion of (2(3)H)- and (6(3)H)glucose, combined with a selective detritiation procedure, was used to determine glucose turnover, the difference being G/G6P cycle activity. Endogenous hepatic glucose production (EGP) determined with (6(3)H)glucose was similar in hypertensive and control groups in the postabsorptive state (11.0 +/- 0.3 v 10.9 +/- 0.3 mumol.kg-1.min-1) and with the 0.2 mU insulin infusion (4.9 +/- 0.5 v 4.0 +/- 0.8 mumol.kg-1.min-1). With the 1.0 mU insulin infusion, glucose disappearance determined with (6(3)H)glucose was lower in the hypertensive group (21.8 +/- 2.4 v 29.9 +/- 2.4 mumol.kg-1.min-1, P less than .001). G/G6P cycle activity was similar both in the postabsorptive state (2.2 +/- 0.4 v 2.7 +/- 0.4 mumol.kg-1.min-1) and during insulin infusion (0.2 mU, 2.5 +/- 0.3 v 2.9 +/- 0.4; 1.0 mU, 4.7 +/- 0.3 v 5.3 +/- 1.1 mumol.kg-1.min-1 for hypertensive and control groups, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)     

Angiotensin converting enzyme insertion/deletion polymorphism and the risk of heart failure in hypertensive subjects.

AIMS: Cardiac angiotensin-I converting enzyme (ACE) activity is influenced by the ACE I/D polymorphism. Evidence suggests that the DD-genotype may be a risk factor for cardiac hypertrophy and heart failure, especially in hypertensive subjects. We assessed the relation between the ACE I/D polymorphism and the risk of incident heart failure in normotensive and hypertensive subjects. METHODS AND RESULTS: We investigated 4264 normotensive and 2174 hypertensive participants of the Rotterdam Study, a population based prospective cohort study. All subjects were available for follow-up from 1990 until 2000. Incidence rates (IR) of heart failure in normotensive subjects were the same over all genotype strata (10 per 1000 person-years). In hypertensive subjects, the IR increased with the number of D-alleles present (II: IR=13, ID: IR=18 and DD: IR=20 per 1000 person-years). Hypertensive subjects carrying the II-genotype did not have an increased risk of heart failure compared to normotensive II subjects. However, hypertensive subjects carrying one or two copies of the D-allele did have a significantly increased risk of heart failure (ID: RR: 1.4 (1.1-1.9) and DD: RR: 1.5 (1.2-2.1)). CONCLUSION: Our findings suggest that the ACE I/D polymorphism may play a modifying role in the development of heart failure in hypertensive subjects.