Similar patterns of myocardial metabolism and perfusion in patients with type 2 diabetes and heart disease of ischaemic and non-ischaemic origin.

AIMS/HYPOTHESIS: Type 2 diabetes and insulin resistance are often associated with the co-occurrence of coronary atherosclerosis and cardiac dysfunction. The aim of this study was to define the independent relationships between left ventricular dysfunction or ischaemia and patterns of myocardial perfusion and metabolism in type 2 diabetes. METHODS: Twenty-four type 2 diabetic patients--12 with coronary artery disease (CAD) and preserved left ventricular function and 12 with non-ischaemic heart failure (HF)--were enrolled in a cross-sectional study. Positron emission tomography (PET) was used to assess myocardial blood flow (MBF) at rest, after pharmacological stress and under euglycaemic hyperinsulinaemia. Insulin-mediated myocardial glucose disposal was determined with 2-deoxy-2-[(18)F]fluoroglucose PET. RESULTS: There was no difference in myocardial glucose uptake (MGU) between the healthy myocardium of CAD patients and the dysfunctional myocardium of HF patients. MGU was strongly influenced by levels of systemic insulin resistance in both groups (CAD, r = 0.85, p = 0.005; HF, r = 0.77, p = 0.01). In HF patients, there was an inverse association between MGU and the coronary flow reserve (r = -0.434, p = 0.0115). A similar relationship was observed in non-ischaemic segments of CAD patients. Hyperinsulinaemia increased MBF to a similar extent in the non-ischaemic myocardial of CAD and HF patients. CONCLUSIONS/INTERPRETATION: In type 2 diabetes, similar metabolic and perfusion patterns can be detected in the non-ischaemic regions of CAD patients with normal cardiac function and in the dysfunctional non-ischaemic myocardium of HF patients. This suggests that insulin resistance, rather than diagnosis of ischaemia or left ventricular dysfunction, affects the metabolism and perfusion features of patients with type 2 diabetes.

Contribution of organ blood flow, intrinsic tissue clearance and glycaemia to the regulation of glucose use in obese and type 2 diabetic rats: a PET study.

BACKGROUND AND AIMS: Chronic hyperglycaemia aggravates obesity and diabetes mellitus. The use of glucose by body organs depends on several factors. We sought to investigate the role of blood flow, intrinsic tissue glucose clearance and blood glucose levels in regulating tissue glucose uptake under fasting conditions (FCs) and in response to acute hyperglycaemia (AH) in obese and type 2 diabetic rats. METHODS AND RESULTS: Thirty-six Zucker rats were studied by positron emission tomography to quantify perfusion and glucose uptake during FC and after AH in the liver, myocardium, skeletal muscle and subcutaneous adipose tissue. Progressively higher glucose uptake rates were observed from lean to obese (p < 0.05) and to diabetic rats (p < 0.05) in all tissues during both FC and AH. In FC, they were increased of 7-18 times in obese rats and 11-30 times in diabetic rats versus controls. Tissue glucose uptake was increased by over 10-fold during AH in controls; this response was severely blunted in diseased groups. AH tended to stimulate organ perfusion in control rats. Tissue glucose uptake was a function of intrinsic clearance and glycaemia (mass action) in healthy animals, but the latter component was lost in diseased animals. Differences in perfusion did not account for those in glucose uptake. CONCLUSIONS: Each organ participates actively in the regulation of its glucose uptake, which is dependent on intrinsic tissue substrate extraction and extrinsic blood glucose delivery, but not on perfusion, and it is potently stimulated by AH. Obese and diabetic rats had an elevated organ glucose uptake but a blunted response to acute glucose intake.

The ovarian cycle as a factor of variability in the laboratory screening for primary aldosteronism in women.

Primary aldosteronism is increasingly investigated in hypertension being associated with an elevated cardiovascular risk. Aldosterone has been reported to increase in the luteal phase in normal women but to our knowledge the influence of the ovarian cycle on the first screening for primary aldosteronism (that is, on the levels of plasma aldosterone and its relationship to PRA levels) was never investigated. We measured hormonal levels during one cycle in 26 low-renin mild hypertensive outpatients. LH, FSH, 17 beta-estradiol, progesterone, aldosterone and PRA were assayed at the seventh, fourteenth, twenty-first and twenty-eighth days of the cycle after 30 min of recumbency. Aldosterone and PRA increased from the seventh (follicular phase) to twenty-first day (luteal phase) from 11.2 to 17.8 ng 100 ml(-1) and from 0.23 to 0.35 ng ml(-1) h(-1), respectively (both P=0.004) The proportion of patients with aldosterone >15 ng 100 ml(-1) significantly increased from the follicular to the luteal phase, (8/26 vs 19/25, P=0.018); a similar increase was found for Aldosterone-PRA Ratio >30 combined with either a minimum PRA value of 0.5 ng ml(-1) h(-1) or aldosterone >15 ng 100 ml(-1) (7/26 vs 16/25 and 7/26 vs 17/25 respectively, P<0.05). Aldosterone was positively related to PRA and progesterone. Higher aldosterone levels may be frequently encountered in the second part of the ovarian cycle in low-renin hypertensive women. This variability appears to be an important factor to be taken into account in the first-step laboratory screening for primary aldosteronism and should be considered in the process of standardization of the diagnostic work-up for this disease.

Role of superoxide dismutase in vascular inflammation and in coronary artery disease.

Superoxide dismutase (SOD) is reported to be the major enzymatic defence against free radicals and common oxidants. EC-SOD is the only extracellular form of SOD present at a high concentration in vascular intima. The aims of the present study were to elucidate the role of EC-SOD in patients with coronary artery disease (CAD) and evaluate its association with free radicals, inflammation and with the severity of the disease. The study included 36 consecutive subjects with CAD being treated in the Institute of Clinical Physiology (33 males, 3 females) and 19 controls (16 males, 2 females). Each subject, after cardiac catheterisation and coronariography, was evaluated for serum EC-SOD activity, peroxy radicals, high-sensitive interleukin-6 (hs-IL-6), high-sensitive tumour necrosis factor (hs-TNFa) and high-sensitive C-reactive protein (hs-CRP) serum levels. The analysis of EC-SOD serum activity did not show any particular difference between patients and controls, while the serum levels of peroxy radicals, hs-IL-6 and hs-CRP showed a significant difference between the two groups (respectively: P<0.01, P<0.001, P<0.01). Moreover, enhancement of hs-IL-6 serum levels was also observed in severe disease (involvement of 3, 4 coronary arteries; P<0.05), while EC-SOD activity showed a slight increment in association with the number of arteries involved. hs-IL-6 concentrations were statistically significantly associated with peroxy radicals and CRP levels (respectively: P<0.05, r2=0.1; P<0.05, r2=0.14). The present study suggests a low effectiveness of EC-SOD activity in prevention against CAD and further confirms hs-IL-6 as a useful marker in diagnostic prevention and in clinical characterisation of CAD.

Diagnostic performance of a new highly sensitive thyroglobulin immunoassay.

The determination of serum thyroglobulin (Tg) is commonly used for detecting the presence of residual thyroid tissue or cancer recurrence in patients treated for differentiated thyroid cancer (DTC). The aim of the study was to evaluate the performance characteristics of a recently introduced fully automated chemiluminescent immunoassay, based on four monoclonal antibodies and which produces results in 40 min. Analytical sensitivity (0.01 micro g/l) was computed from 20 replicates of the zero calibrator and of the 'Tg-free' sample pool. Functional sensitivity (0.1 micro g/l at 20 coefficients of variation percent) was determined from the imprecision profile obtained by assaying ten serum pools. The reliability of the measurements in the low concentration range (Tg<1 micro g/l) has been checked by progressive dilution with the 'Tg-free' serum of a sample pool at 5.27 micro g/l; measured values were very close to the expected values (recovery 100-133%).Cut-off at the 99th percentile in DTC stage I 'disease-free' treated patients (n=53) was 0.16 micro g/l. Tg measurement in basal conditions during L-thyroxine suppression therapy and 5 days after recombinant human TSH stimulation was performed in 22 patients with DTC. In 80% of patients with basal Tg<0.1 micro g/l (12/15), Tg remained<0.1 micro g/l after stimulation, and in all of these Tg was<1 micro g/l. Our results have indicated the optimal analytical and clinical performance of this Tg immunoassay and encourage further studies on larger populations of patients with DTC.