Left ventricular function in diabetes mellitus. II: Relation between clinical features and left ventricular function

LncRNAs: Proverbial Genomic "Junk" or Key Epigenetic Regulators During Cardiac Fibrosis in Diabetes?

Long non-coding RNAs (lncRNAs) are critical regulators in a multitude of biological processes. Recent evidences demonstrate potential pathogenetic implications of lncRNAs in diabetic cardiomyopathy (DCM); however, the majority of lncRNAs have not been comprehensively characterized. While the precise molecular mechanisms underlying the functions of lncRNAs remain to be deciphered in DCM, emerging data in other pathophysiological conditions suggests that lncRNAs can have versatile features such as genomic imprinting, acting as guides for certain histone-modifying complexes, serving as scaffolds for specific molecules, or acting as molecular sponges. In an effort to better understand these features of lncRNAs in the context of DCM, our review will first summarize some of the key molecular alterations that occur during fibrosis in the diabetic heart (extracellular proteins and endothelial-to-mesenchymal transitioning), followed by a review of the current knowledge on the crosstalk between lncRNAs and major epigenetic mechanisms (histone methylation, histone acetylation, DNA methylation, and microRNAs) within this fibrotic process.

Exercise intolerance in Type 2 diabetes: is there a cardiovascular contribution?

Physical activity is critically important for Type 2 diabetes management, yet adherence levels are poor. This might be partly due to disproportionate exercise intolerance. Submaximal exercise tolerance is highly sensitive to muscle oxygenation; impairments in exercising muscle oxygen delivery may contribute to exercise intolerance in Type 2 diabetes since there is considerable evidence for the existence of both cardiac and peripheral vascular dysfunction. While uncompromised cardiac output during submaximal exercise is consistently observed in Type 2 diabetes, it remains to be determined whether an elevated cardiac sympathetic afferent reflex could sympathetically restrain exercising muscle blood flow. Furthermore, while deficits in endothelial function are common in Type 2 diabetes and are often cited as impairing exercising muscle oxygen delivery, no direct evidence in exercise exists, and there are several other vasoregulatory mechanisms whose dysfunction could contribute. Finally, while there are findings of impaired oxygen delivery, conflicting evidence also exists. A definitive conclusion that Type 2 diabetes compromises exercising muscle oxygen delivery remains premature. We review these potentially dysfunctional mechanisms in terms of how they could impair oxygen delivery in exercise, evaluate the current literature on whether an oxygen delivery deficit is actually manifest, and correspondingly identify key directions for future research.

Diabetes-induced alterations in the extracellular matrix and their impact on myocardial function

Diabetes is an increasing public health problem that is expected to escalate in the future due to the growing incidence of obesity in the western world. While this disease is well known for its devastating effects on the kidneys and vascular system, diabetic individuals can develop cardiac dysfunction, termed diabetic cardiomyopathy, in the absence of other cardiovascular risk factors such as hypertension or atherosclerosis. While much effort has gone into understanding the effects of elevated glucose or altered insulin sensitivity on cellular components within the heart, significant changes in the cardiac extracellular matrix (ECM) have also been noted. In this review article we highlight what is currently known regarding the effects diabetes has on both the expression and chemical modification of proteins within the ECM and how the fibrotic response often observed as a consequence of this disease can contribute to reduced cardiac function.

Left ventricular function in newly diagnosed non-insulin-dependent (type 2) diabetics evaluated by systolic time intervals and echocardiography

Systolic time intervals (STI) and echocardiography were recorded in 133 (70 men, 63 women) newly diagnosed non-insulin-dependent diabetics aged 45-64 years and in 144 (62 men, 82 women) non-diabetic control subjects of the same age. Both male and female diabetics had significantly increased pre-ejection period/left ventricular ejection time ratio (PEP/LVET) in STI as compared with the respective non-diabetic control subjects. Male diabetics showed a reduced ejection fraction (EF) in echocardiography, but no significant difference was found in this respect between female diabetics and controls. A significant negative correlation was found between 2-hour postglucose serum insulin level and EF in male and female diabetics. After adjusting for the effect of age, coronary heart disease, hypertension, obesity and haemoglobin concentration, male diabetics still had a higher PEP/LVET ratio and a lower EF than male controls. In women, no significant differences were found between diabetics and controls in the PEP/LVET ratio or EF adjusted for the above factors. The results of this study are compatible with the view that impaired left ventricular function may be an early phenomenon in the clinical course of non-insulin-dependent diabetes.

Echocardiography in lone atrial fibrillation

Twenty-seven consecutive patients with suspected lone atrial fibrillation were studied by M-mode echocardiography. Echocardiography disclosed structural or functional cardiac abnormalities in only two (12%) of 17 patients without any sign of underlying heart disease by history or physical examination, whereas an accompanying or underlying cardiac disorder was found in 6 (60%) of 10 patients with ambiguous clinical findings. It is concluded that echocardiography is of minor value in patients with lone atrial fibrillation if symptoms and signs of other cardiac disorders are totally absent, but the presence of even minor or ambiguous clinical abnormalities seems to be a clear indication for echocardiography in these patients. It is, however, emphasized that echocardiography appears to guide the clinical management in less than 20% of patients with clinically suspected lone atrial fibrillation.

Effect of correction of hyperglycemia on left ventricular function in non-insulin-dependent (type 2) diabetics

Systolic time intervals (STI) were recorded in 33 newly diagnosed non-insulin-dependent diabetics (19 men, 14 women, aged 44-64 years) before and after 3-8 months' dietary therapy. The mean (+/- SD) fasting blood glucose was 11.1 +/- 2.6 mmol/l before treatment and 7.8 +/- 1.8 at the second examination (p less than 0.001). Concomitantly with the decline in blood glucose concentration, the heart rate corrected pre-ejection period (PEP) decreased from 139 +/- 11.9 to 135 +/- 14.4 msec (mean +/- SD) (p less than 0.05), the heart rate corrected left ventricular ejection time (LVET) increased from 400 +/- 15.1 to 410 +/- 20.7 msec (p less than 0.0025) and the PEP/LVET ratio decreased from 0.39 +/- 0.06 to 0.36 +/- 0.06 (p less than 0.005). When the diabetics were divided into two groups according to the degree of the decline in blood glucose concentration, only those whose fasting blood glucose decreased by greater than or equal to 3 mmol/l showed significant changes in STI. No significant changes were observed in the mean heart rate or systolic blood pressure during the treatment. Cardiac dysfunction occurring in untreated non-insulin-dependent diabetics may be caused by metabolic factors and it may be reversed at least partially by correction of hyperglycemia.

Deep breathing, Valsalva, and tilt table tests in diabetics with and without symptoms of autonomic neuropathy

Autonomic neuropathy (AN) test results (Valsalva manoeuvre, deep breathing, and tilting) are frequently impaired in diabetics without symptoms of AN, particularly in those with peripheral neuropathy (PN). We have investigated 24 asymptomatic diabetics with PN, 17 diabetics with symptoms of AN and 24 healthy controls. The heart rate reactions to the three tests were impaired in both patient groups. The Valsalva manoeuvre could not distinguish between the patient groups. The heart rate reaction to deep breathing, estimated as the expiration/inspiration (E/I) ratio, was slightly more disturbed in patients with AN than those with PN (1.04 vs. 1.09, p less than 0.05) but the frequency of abnormally low E/I ratios was high in both groups (76.5 vs. 54.2%, NS). The immediate heart rate reaction to tilting, estimated as the brake index, clearly separated the patient groups. An abnormally low brake index was shown in 82.3% of AN patients and in 33.3% of PN patients (p less than 0.01). The study shows that the deep breathing test is sensitive for AN but an impaired immediate heart rate reaction to tilting is more specific for symptomatic AN.

Isolated and preclinical impairment of left ventricular filling in insulin-dependent and non-insulin-dependent diabetic patients

BACKGROUND

Diabetes mellitus can induce a pattern of myocardial pathology known as specific diabetic cardiomyopathy, even if this is not clearly specified.

HYPOTHESIS

The aim of our study was to evaluate the presence of preclinical myocardial damage in insulin- and non-insulin-dependent diabetic patients and controls by assessment with Doppler echocardiography.

METHODS

Twenty insulin-dependent diabetic (IDDM) patients, 10 non-insulin-dependent diabetic (NIDDM) patients, and 12 healthy individuals (C) as controls, matched for age, gender, and without overt cardiovascular disease, were assessed in this study.

RESULTS

Systolic function parameters presented normal values in the three groups, with the exception of a slight reduction in ventricular volume indices in the NIDDM group. Diastolic function was clearly impaired in both groups of patients versus that in healthy controls. In particular, ventricular filling was impaired in the NIDDM compared with the IDDM patients, especially the peak early filling rate E (p < 0.001). Moreover, in the IDDM group, the duration of diabetes (p < 0.01) and glycosilated hemoglobin value (HbA1C, p < 0.02) were higher than in the NIDDM group. Multiple regression analysis showed a significant inverse correlation between HbA1C and peak late filling rate A (R2 = 0.28) in both groups of patients and a direct correlation between velocity time integral E and age, duration of diabetes, and HbA1C (R2 = 0.46). The two groups presented a small, homogeneous number of cases with initial microangiopathy and borderline autonomic neuropathy, associated with microalbuminuria. Doppler echocardiography showed an early impairment of left ventricular filling, as well as an early preclinical alteration of myocardial function in diabetic patients, especially in the NIDDM group.

CONCLUSION

These early signs of cardiomyopathy could constitute a predisposing condition toward the high cardiac morbidity and mortality rate in diabetic patients.

Asymptomatic cardiomyopathy in children and adolescents with type 1 diabetes mellitus: association of echocardiographic indicators with duration of diabetes mellitus and metabolic parameters

This study was designed to determine the relationship of dimensions, wall thickness and function of the left ventricle with diabetes duration, fasting blood glucose, lipid profile, beta-OH-butyrate, free fatty acids (FFA) and carnitine levels in children and adolescents with type 1 diabetes mellitus (DM1) who had no cardiovascular complications. Thirty-five patients with DM1 (18 F/17 M, mean age: 12.0 years) and age matched control children (n = 24) were enrolled in the study. Patients with DM1 were subdivided into Group I (mean DM1 duration 3.5 years, n = 14), and Group II (mean DM1 duration 8.2 years, n = 21). Dimensions, wall thickness and systolic functions of the left ventricle were normal in all patients with DM1. Diastolic functions were normal in Group I. In Group II, peak A wave velocity (AVEL) (p = 0.004), velocity-time integral of A wave (AVTI) (p = 0.007) and isovolumetric relaxation time corrected by heart rate (cIVRT) (p = 0.048) were high, and peak E wave velocity (EVEL) and velocity-time integral of E wave (EVTI) were normal. E/A (p < 0.0001) and EVTI/AVTI (p = 0.001) were low in this group. In Group I, systolic and diastolic blood pressure, HDL-cholesterol and FFA values were normal; total cholesterol (p = 0.047), LDL-cholesterol (p = 0.017), beta-OH-butyrate (p = 0.003), and acetyl carnitine (p = 0.006) levels were high. In Group II, diastolic blood pressure (p = 0.008), total cholesterol (p < 0.0001) and LDL-cholesterol (p < 0.0001) were increased; and total carnitine (p = 0.019), free carnitine (p = 0.002) and HDL-cholesterol (p = 0.039) were decreased. Correlations were detected between total carnitine and AVEL and HR; free carnitine and AVEL, E/A and HR; HbA1c and EVTI/AVTI and cIVRT; LDL-cholesterol and E/A, EVTI/AVTI ratios and cIVRT; HDL-cholesterol and AVEL; FFA and LVDD, IVSD, LVPWD, LVmass and CO; metabolic parameters and DM1 duration and echocardiographic findings such as AVEL, EVEL, EVTI, VmaxAV and CO. In conclusion, left ventricular dimensions, wall thickness and systolic functions were normal in children and adolescents with DM1 who had no obvious cardiovascular complications. Left ventricular diastolic functions were abnormal in patients of Group II. Left ventricular diastolic function abnormalities were associated with glycemic control, free and total carnitine, and LDL- and HDL-cholesterol levels.

Left ventricular diastolic dysfunction: an early sign of diabetic cardiomyopathy?

The existence of a diabetic cardiomyopathy has been proposed as evidence has accumulated for the presence of myocardial dysfunction in diabetic patients in the absence of ischemic, valvular or hypertensive heart disease. Diastolic dysfunction has been described as an early sign of this diabetic heart muscle disease preceding the systolic damage. Abnormalities in diastolic performance have been first demonstrated by cardiac catheterisation and subsequently by mainly using echocardiography. The pathogenesis of this left ventricular dysfunction is not clearly understood. Microangiopathy, increased extracellular collagen deposition, or abnormalities in calcium transport alone or in combination are considered to be associated with this dysfunction. The relationship between diastolic dysfunction and glycemic control is still a matter of debate. Some epidemiological and clinical arguments suggest that diastolic abnormalities may contribute to the high morbidity and mortality among diabetic patients. However, the prognostic importance of subclinical diastolic dysfunction and the possibilities for intervention are not fully known. Eventually, despite numerous studies, evidence of an intrinsic diastolic dysfunction in diabetes mellitus remains questionable. Indeed, quite contradictory results have been reported. They have been obtained in small, inhomogeneous populations, with sometimes confounding factors, using various echocardiographic indices with known limitations. Also, further studies using more refined techniques for the evaluation of diastolic function are needed, as a prerequisite, to unequivocally relate diabetes mellitus to a specific cardiomyopathy.

Left ventricular dysfunction in normotensive Type 1 diabetic patients: the impact of autonomic neuropathy

AIMS

The pathophysiological mechanisms responsible for increased cardiovascular mortality in diabetic autonomic neuropathy (AN) are largely unknown. The aim was to determine the relative role of AN in the pathogenesis of cardiac diastolic dysfunction and left ventricular hypertrophy in Type 1 diabetes.

METHODS

Ten Type 1 diabetic patients with AN, defined by cardiovascular tests (AN+) and 10 age- and sex-matched patients without neuropathy (AN-) as well as 10 healthy subjects (C) participated in the study. Left ventricular diastolic function was assessed by Doppler echocardiography, whilst systolic function was evaluated by cine magnetic resonance (MR) imaging.

RESULTS

Doppler echocardiography showed a significant decrease in E/A ratio, i.e. the ratio between peak Early transmitral filling velocity during early diastole (E-wave) and peak transmitral Atrial filling velocity during late diastole (A-wave), in AN+ compared with C (P < 0.01) [0.95 +/- 0.08 (mean +/- sem) (AN+); 1.19 +/- 0.09 (AN-); 1.33 +/- 0.10 (C)]. The E-wave deceleration time was significantly shorter in AN+ compared with AN- and C (P < 0.02) [178 +/- 7 ms (AN+); 203 +/- 9 ms (AN-); 205 +/- 9 ms (C)]. Cine MR imaging showed a significantly greater left ventricular mass index in AN+ compared with C [103 +/- 4 g/m(2) (AN+) vs. 98 +/- 7 (AN-) and 92 +/- 4 g/m(2) (C), P < 0.05].

CONCLUSION

Autonomic neuropathy is associated with left ventricular hypertrophy and diastolic dysfunction in Type 1 diabetic patients.

Cross-linking of glycated collagen in the pathogenesis of arterial and myocardial stiffening of aging and diabetes

The normal aging process is often accompanied by arterial wall stiffening and by a decrease in myocardial compliance. These processes contribute to isolated systolic hypertension and diastolic heart failure, which lead to substantial morbidity and mortality among older individuals. Patients with diabetes manifest arterial stiffening and diastolic dysfunction at a younger age. This leads to the concept that the mechanism that underlies changes in vascular mechanical properties during aging is accelerated in diabetes. The Maillard reaction or advanced glycation of proteins occurs slowly in vivo with normal aging and at an accelerated rate in diabetes. Advanced glycation end-products (AGEs) that form during the Maillard reaction are implicated in the complications of aging and diabetes. The formation of AGEs on vascular wall and myocardial collagen causes cross-linking of collagen molecules to each other. This leads to the loss of collagen elasticity, and subsequently a reduction in arterial and myocardial compliance. Aminoguanidine, an inhibitor of AGE formation, is effective in slowing or preventing arterial stiffening and myocardial diastolic dysfunction in aging and diabetic animals. In aged and diabetic animals, agents that can chemically break pre-existing cross-linking of collagen molecules are capable of reverting indices of vascular and myocardial compliance to levels seen in younger or non-diabetic animals. These studies suggest that collagen cross-linking is a major mechanism that governs aging and diabetes-associated loss of vascular and cardiac compliance. The development of AGEs cross-link breakers may have important role for future therapy of isolated systolic hypertension and diastolic heart failure in these conditions.

Cardiac mass and function, carotid artery intima-media thickness and lipoprotein (a) levels in children and adolescents with type 1 diabetes mellitus of short duration

OBJECTIVE

To evaluate cardiac mass and function, carotid intima-media thickness, and serum lipid and lipoprotein (a) (Lpa) levels in children and adolescents with type 1 diabetes mellitus (DM) of short duration.

BACKGROUND

Diabetes mellitus has been found to be an important risk factor for macrovascular disease in adults. Increased serum lipids and Lpa levels have been reported in adolescents with type 1 DM; atherosclerotic vascular lesions involving a combination of fatty degeneration and vessel stiffening of the arterial wall and myocardial involvement impairing diastolic function may be present in adolescents and young adults with type 1 DM.

DESIGN/METHODS

Twenty children and adolescents (10 males, 10 females) diagnosed with type 1 DM before 3.4 +/- 3.3 years with a mean age of 11.9 +/- 3.6 years were studied; their HbA1c levels were 8.0 +/- 1.9%. Twenty healthy non-diabetic controls, 10 males and 10 females, aged 12.1 +/- 3.4 years, matched for height and weight, participated in the study. Fasting blood samples were obtained for lipid and Lpa analysis. Patients underwent transthoracic M-mode and two-dimensional echocardiographic evaluation for measurement of left atrial and ventricular dimensions and left ventricular (LV) wall thickness and mass. Stroke volume and cardiac output were measured using pulsed Doppler echocardiography; carotid intima-media thickness was measured using high-resolution mode B ultrasound.

RESULTS

Interventricular septal thickness (7.1 +/- 1.8 vs 7.0 +/- 1.5 mm), LV posterior wall thickness (7.1 +/- 1.4 vs 7.5 +/- 2.0 mm) and LV mass after correction for body surface area (70.6 +/- 27.4 vs 70.7 +/- 18.0 g/m2) were similar in patients and controls. Similarly, the LV ejection fraction at rest was similar in patients and controls (69.9 +/- 2.3 vs 70.0 +/- 0.6%), as were pulmonary venous flow velocities (0.56 +/- 0.09 vs 0.55 +/- 0.10 m/s for diastolic peak velocity, 0.54 +/- 0.08 vs 0.50 +/- 0.09 m/s for systolic peak velocity and 0.17 +/- 0.07 vs 0.19 +/- 0.05 m/s for atrial reversal filling). Carotid intima-media thickness (0.60 +/- 0.02 and 0.59 +/- 0.02 mm for the right and left carotid artery) was similar to that of controls (0.60 +/- 0.03 and 0.61 +/- 0.02 mm for the right and left carotid artery). Low density lipoprotein cholesterol and Lpa levels were increased in patients compared to controls (113.2 +/- 26.0 mg/dl and 20.1 +/- 11.7 mg/dl in patients vs 90.4 +/- 14.3 mg/dl and 9.8 +/- 2.9 mg/dl in controls; p <0.01), while total cholesterol, HDL cholesterol and serum triglyceride concentrations were similar to those in controls.

CONCLUSIONS

Although children and adolescents with type 1 DM seem not to show alterations in cardiac mass and function or early atherosclerotic changes in the first few years after diagnosis, their cardiovascular risk is increased as they present with dyslipidemia at an early stage of the disease.

Magnetic resonance imaging analysis of cardiac cycle events in diabetic rats: the effect of angiotensin-converting enzyme inhibition

Non-invasive magnetic resonance imaging (MRI) was used to characterize changes in left and right ventricular cardiac cycles following induction of experimental, streptozotocin (STZ)-induced, diabetes in male Wistar rats at different ages. The effects of the angiotensin-converting enzyme (ACE) inhibitor captopril upon such chronic physiological changes were then evaluated, also for the first time. Diabetes was induced at the age of 7 weeks in two experimental groups, of which one group was subsequently maintained on captopril (2 g l(-1))-containing drinking water, and at 10 and 13 weeks in two further groups. The fifth group provided age-matched controls. All groups (each n = 4 animals) were scanned consistently at 16 weeks, in parallel with timings used in earlier studies that employed this experimental model. Cine magnetic resonance (MR) image acquisition provided transverse sections through both ventricles at twelve time points covering systole and most of diastole. These yielded reconstructions of cardiac anatomy used to derive critical functional indices and their dependence upon time following the triggering electrocardiographic R waves. The left and right ventricular end-diastolic (EDV), end-systolic (ESV) and stroke volumes (SV), and ejection fractions (EF) calculated from each, control and experimental, group showed matching values. This confirmed a necessary condition requiring balanced right and left ventricular outputs and further suggested that STZ-induced diabetes produced physiological changes in both ventricles. Absolute left and right ventricular SVs were significantly altered in all diabetic animals; EDVs and EFs significantly altered in animals diabetic from 7 and 10 but not 13 weeks. When normalized to body weight, left and right ventricular SVs had significantly altered in animals diabetic from 7 and 10 weeks but not 13 weeks. Normalized left ventricular EDVs were also significantly altered in animals diabetic from 7 and 10 weeks. However, normalized right ventricular EDVs were significantly altered only in animals made diabetic from 7 weeks. Diabetic hearts showed major kinetic changes in left and right ventricular contraction (ejection) and relaxation (filling). Both the initial rates of volume change (dV/dt) in both ventricles and the plots of dV/dt values through the cardiac cycle demonstrated more gradual developments of tension during systole and relaxation during diastole. Estimates of the derived left ventricular performance parameters of cardiac output, cardiac power output and stroke work in control animals were comparable with human values when normalized to both body (or cardiac) weight and heart rate. All deteriorated with diabetes. Comparisons of experimental groups diabetic from 7 weeks demonstrated that captopril treatment relieved the alterations in critical volumes, dependence of SV upon EDV, kinetics of systolic contraction and diastolic relaxation and in the derived indicators of ventricular performance. This study represents the first demonstration using non-invasive MRI of early, chronic changes in diastolic filling and systolic ejection in both the left and the right ventricles and of their amelioration by ACE inhibition following STZ-induction of diabetes in intact experimental animals.

Non-invasive magnetic resonance imaging assessment of myocardial changes and the effects of angiotensin-converting enzyme inhibition in diabetic rats

A non-invasive cine magnetic resonance imaging (MRI) technique was developed to allow, for the first time, detection and characterization of chronic changes in myocardial tissue volume and the effects upon these of treatment by the angiotensin-converting enzyme (ACE) inhibitor captopril in streptozotocin (STZ)-diabetic male Wistar rats. Animals that had been made diabetic at the ages of 7, 10 and 13 weeks and a captopril-treated group of animals made diabetic at the age of 7 weeks were scanned. The findings were compared with the results from age-matched controls. All animal groups (n = 4 animals in each) were consistently scanned at 16 weeks. Left and right ventricular myocardial volumes were reconstructed from complete data sets of left and right ventricular transverse sections which covered systole and most of diastole using twelve equally incremented time points through the cardiac cycle. The calculated volumes remained consistent through all twelve time points of the cardiac cycle in all five experimental groups and agreed with the corresponding post-mortem determinations. These gave consistent myocardial densities whose values could additionally be corroborated by previous reports, confirming the validity of the quantitative MRI results and analysis. The myocardial volumes were conserved in animals whose diabetes was induced at 13 weeks but were significantly increased relative to body weight in animals made diabetic at 7 and 10 weeks. Captopril treatment, which was started immediately after induction of diabetes, prevented the development of this relative hypertrophy in both the left and right ventricles. We have thus introduced and validated quantitative MRI methods in a demonstration, for the first time, of chronic myocardial changes in both the right and left ventricles of STZ-diabetic rats and their prevention by the ACE inhibitor captopril.

Cardiovascular outcomes after kidney-pancreas and kidney-alone transplantation

BACKGROUND

This study retrospectively assessed, with an intention-to-treat analysis, the effect of kidney-pancreas transplantation (KP) on survival and cardiovascular outcome in type 1 diabetic uremic patients.

METHODS

A total of 351 uremic type 1 diabetic patients were enrolled on a waiting list for KP: 130 underwent KP transplantation, 25 underwent kidney transplantation alone (KA), whereas 196 patients remained on dialysis (WL). The three populations had similar cardiovascular conditions. Actuarial survival rates and causes of death were recorded over a period of seven years. Finally, 23 KP and 13 KA patients underwent left radionuclide ventriculography, during a follow-up of four years.

RESULTS

In the entire group of 351 patients the seven-year survival rate was 77.4% for KP, 56.0% for KA and 39.6% for WL (KP vs. WL, P = 0.01). Cardiovascular death rate was 7.6% in KP, 20.0% in KA and 16.1% in WL (KP versus WL, P = 0.03; KP vs. KA, P = 0.16). In the subsample studied with radionuclide ventriculography, left ventricular ejection fraction improved in KP, but did not in KA, with significant differences between groups at two and four years. At four years only the KP patients presented normal values of diastolic parameters, including the peak filling rate, time-to-peak filling rate, and peak filling rate/peak ejection rate ratio. Glycated hemoglobin was negatively associated with the ejection fraction, peak filling rate and peak filling rate/peak ejection rate ratio, and positively associated with the time-to-peak filling rate.

CONCLUSIONS

Normalization of blood glucose metabolism and improvement of blood pressure control obtained with KP transplant is associated with positive effects on survival, cardiovascular death rate, and left ventricular function.

Is abnormal iodine-123-MIBG kinetics associated with left ventricular dysfunction in patients with diabetes mellitus?

BACKGROUND

Although autonomic neuropathy is frequently recognized in patients with diabetes mellitus, it is uncertain whether cardiac sympathetic neuropathy may play a role in the development of diabetic cardiomyopathy.

METHODS AND RESULTS

In 10 control subjects and 61 patients with diabetes mellitus who did not have coronary artery disease, cardiac sympathetic function and left ventricular ejection fraction (LVEF) were evaluated by using iodine-123-metaiodobenzylguanidine (MIBG) imaging and echocardiography, respectively. Dynamic acquisitions and planar images obtained 15 and 150 minutes after injection were used as a means of measuring early and late myocardial uptake and clearance rates of MIBG from the heart. Eight patients with an LVEF less than 50% demonstrated a lower late myocardial MIBG uptake (0.0043% +/- 0.0017% vs. 0.0024% +/- 0.0009%/pixel, P = .002) and a higher clearance rate (22.9% +/- 17.7% vs. 49.3% +/- 12.2%, P<.0001) than the 53 patients with an LVEF of 50% or greater, although the age, sex, type of diabetes mellitus, and frequency of neuropathy, retinopathy, and nephropathy were not significantly different between the 2 subgroups. The LVEF correlated weakly but significantly with early and late myocardial uptake and clearance rate (r = 0.277, P = .03; r = 0.421, P = .001; r = 0.382, P = .002; respectively) in patients with diabetes mellitus.

CONCLUSION

Marked MIBG abnormalities are associated with left ventricular dysfunction in patients with diabetes mellitus. However, long-term follow-up of patients with diabetes mellitus who have marked MIBG abnormalities and normal LVEF will be required to determine whether these patients would demonstrate systolic dysfunction earlier than patients without an MIBG abnormality.

Patient survival and cardiovascular events after kidney-pancreas transplantation: comparison with kidney transplantation alone in uremic IDDM patients

In diabetic patients cardiovascular morbidity and mortality is still a major problem. Our aim was to study the effect of kidney-pancreas transplantation on survival, cardiovascular events, and causes of death in diabetic type 1 uremic patients. Three hundred and thirty-three uremic IDDM patients were enrolled in our waiting list for kidney-pancreas transplantation: 107 underwent kidney-pancreas transplantation (KP), 34 underwent kidney transplantation alone (KA), whereas 192 patients remained on dialysis (WL). Actuarial survival and causes of death were recorded over a period of 7 years. Seven-year survival rate was 75% for the KP group, 63% for the KA group, and 37% for the WL group (p = 0.001). Cardiovascular death rate was 9.8% in the KP group, 17.6% in the KA group, and 18.1% in the WL group (KP vs. WL, p = 0.05). Rate of acute myocardial infarction in the KP group was lower than in the KA group (2.4% vs. 17.6%, p = 0.005) as well as rate of acute pulmonary edema (0.8% vs. 23.5%, p = 0.0001) and rate of hypertensive patients at 1 (40.9% vs. 85.0%, p = 0.0001) and at 2 years (57.6% vs. 80%, p = 0.03). Kidney-pancreas transplant helped to obtain euglycemia with positive effects on survival and cardiovascular events.

Role of oxygen derived radicals for vascular dysfunction in the diabetic heart: prevention by alpha-tocopherol?

The evidence that the generation of reactive oxygen intermediates (ROI) plays an important role for the increased cardiovascular risk in diabetes is summarised. In addition to the well known parameters of oxidative stress as lipid hydroperoxides and thiobarbituric acid substances (TBARS), recent observations indicate that isoprostanes which can be taken as a more specific parameter of oxidative stress, are generated in higher amounts by diabetic patients. This increased formation of isoprostanes can be inhibited by an installment of a close metabolic control or the supplementation with tocopherol. The cause for the elevated oxidative stress is not yet fully understood, however the autoxidation of glucose, the formation of advanced glycation endproducts and the activation of NADPH-oxidase seem to be relevant processes. Since ROI are able to quench nitric oxide and to inhibit the synthesis of prostacyclin, the antithrombotic, vasodilating and antiatherosclerotic properties of endothelium are impaired in diabetes. Additionally, the balance of endothelial mediators released by endothelium is shifted to angiotensin II and endothelin, compounds which enhance the proliferation of smooth muscle cells and may limit the coronary reserve of myocardium. The activation of the transcription factor NF-kappa B by glucose and its autoxidative products is regarded as a key event in the transformation of the vasculature in diabetes. Epidemiological observations and very recent clinical studies underlie the impact of ROI for the development of cardiovascular complications in diabetes and suggest that an antioxidative treatment might be helpful to reduce the cardiac risk in diabetes.

Parasympathetic neuropathy associated with left ventricular diastolic dysfunction in patients with insulin-dependent diabetes mellitus

Patients with insulin-dependent diabetes mellitus (IDDM) may develop autonomic neuropathy (AN) and cardiac complications. The association between AN and cardiac dysfunction was assessed in 34 IDDM patients (age 40 years, diabetes duration 21 years, 15 women) by echocardiography/Doppler and autonomic nerve function tests. The expiration/inspiration ratio (E/I) was used to assess parasympathetic damage, and the acceleration and brake indices for assessment of sympathetic impairment. AN was present in 21 patients. Patients with abnormal E/I (n = 11) had lower E/A ratios than patients without AN; early to atrial peak filling ratio (E/Amax) was median 1.1 (inter-quartile range 0.2) vs 1.4 (0.7), p = 0.022; early to atrial integral filling ratio (E/Aintegral) was 1.7 (0.3) vs 2.3 (1.2), p = 0.006. Patients with AN and normal E/I (sympathetic neuropathy, n = 10) and patients without AN had similar E/A ratios. E/Aintegral was also lower in patients with abnormal E/I compared with patients with AN and normal E/I; 1.7 (0.3) vs 2.2 (0.7), p = 0.008. Systolic function and cardiac dimensions were generally unaffected and similar in the three groups. In conclusion, diastolic dysfunction and parasympathetic neuropathy are related in IDDM patients.

Cardiac disease in diabetic end-stage renal disease

Little is known about the epidemiology of cardiac disease in diabetic end-stage renal disease. We therefore prospectively followed a cohort of 433 patients who survived 6 months after the inception of dialysis therapy for an average of 41 months. Clinical and echocardiographic data were collected yearly. At baseline, diabetic patients (n = 116) had more echocardiographic concentric left ventricular hypertrophy (50 vs 38%, p = 0.04), clinically diagnosed ischaemic heart disease (32 vs 18%, p = 0.003) and cardiac failure (48 vs 24%, p < 0.00001) than non-diabetic patients (n = 317). After adjusting for age and sex, diabetic patients had similar rates of progression of echocardiographic disorders, and de novo cardiac failure, but higher rates of de novo clinically diagnosed ischaemic heart disease (RR 3.2, p = 0.0002), overall mortality (RR 2.3, p < 0.0001) and cardiovascular mortality (RR 2.6, p < 0.0001) than non-diabetic patients. Mortality was higher in diabetic patients following admission for clinically diagnosed ischaemic heart disease (RR 1.7, p = 0.05) and cardiac failure (RR 2.2, p = 0.0003). Among diabetic patients older age, left ventricular hypertrophy, smoking, clinically diagnosed ischaemic heart disease, cardiac failure and hypoalbuminaemia were independently associated with mortality. The excessive cardiac morbidity and mortality of diabetic patients seem to be mediated via ischaemic disease, rather than progression of cardiomyopathy while on dialysis therapy. Potentially remediable risk factors include smoking, left ventricular hypertrophy, and hypoalbuminaemia.

Cardiac disease in chronic uremia: clinical outcome and risk factors

Cardiac disease is common and is the major killer in end-stage renal disease (ESRD). Cardiac failure is a highly malignant condition in ESRD patients. Cardiac failure mediates most of the adverse prognostic impact of ischemic heart disease. Left ventricular (LV) abnormalities are already present at initiation of dialysis therapy in approximately 80% of patients. These abnormalities (ie, systolic dysfunction in approximately 15%, LV dilatation with preserved systolic function in 30%, concentric LV hypertrophy [LVH] in 40%) independently predict ischemic heart disease and cardiac failure, and are the largest baseline predictor of mortality after 2 years on dialysis therapy. The associations between classical risk factors (eg, hyperlipidemia, smoking, hypertension) and cardiac outcomes in ESRD are inconsistent. "Uremic" risk factors represent a nascent, but potentially important field. In our prospective 10-year study of 433 patients starting renal replacement therapy, we identified the following as major independent risk factors for cardiac disease: (1) hypertension (concentric LVH, LV dilatation, ischemic heart disease, cardiac failure, inverse relationship with mortality); (2) anemia (LV dilatation, cardiac failure, death); and (3) hypoalbuminemia (ischemic heart disease, cardiac failure, death). Transplantation dramatically improved LV abnormalities, suggesting that a uremic environment is cardiotoxic. Multiple risk factors act in concert to produce cardiac disease in ESRD; many of these are avoidable, suggesting that the enormous burden of disease can be reduced considerably.

Left ventricular performance and autonomic dysfunction in patients with long-term insulin-dependent diabetes mellitus

Cardiac autonomic neuropathy (CAN) is a very frequent complication of insulin-dependent mellitus type 1, affecting the sympathetic or parasympathetic sections or both. The different impairment in the two sections might modify left ventricular function early. To evaluate this relationship, we studied 61 patients (mean age 39.6 +/- 7 years) with type 1 diabetes for more than 10 years, without coronary artery disease (CAD); negative ergometric stress test) and without other pathologies that could interfere with ventricular function. All patients underwent MONO-, 2-dimensional and Doppler echocardiographic examination and radionuclide angiography with 99Tc (RNA). According to the outcome of the Ewing tests, patients were divided into two groups: group A with two or more tests altered (26 patients with CAN) and group B with one or no tests altered (35 patients without CAN). No significant differences between the two groups were found in the systolic function parameters with either technique. In contrast, a pattern of abnormal relaxation was found for the diastolic function parameters: in group A a decrease in E-wave velocity and its time-velocity integral and an increase in A-wave and its time-velocity integral were detected with echocardiography. Moreover, RNA showed a reduced peak filling rate and an increased isovolumic relaxation time. When compared with normal values, an abnormal diastolic filling, defined as two independent echocardiography plus one RNA variable impairment, was found in 15 patients (57.6%) in group A and in only 4 patients (11.4%) in group B (P < 0.001). Our findings suggest an early involvement of diastolic function in patients with CAN.

Mitochondrial respiratory impairment in streptozotocin-induced diabetic rat heart

The purpose of this study was to examine mitochondrial respiratory impairment in the diabetic heart. Diabetes mellitus was induced in male Wistar rats by intravenous injection of streptozotocin (STZ) for 2 to 16 weeks (Group D). In some of the diabetic rats, insulin was injected for 2 or 3 weeks prior to sacrifice (Group I). Fasting blood glucose was markedly elevated to greater than 300 mg/dl in Group D and was similar to normal glucose levels in Group I. At 2 weeks after STZ injection, state 3 was only 59.1% of that in the control. Complex I and complex V activities were also significantly reduced to 43.4% and 71.7% of those in the control, respectively. These reductions recovered with insulin treatment. This phenomenon persisted for 16 weeks. Morphological studies revealed swelling of the mitochondria and an increase in lipid droplets in diabetic cardiomyocytes, and these were also improved with insulin treatment. We conclude that in the diabetic heart, disturbance of energy production in cardiac mitochondria is generated by the impairment of oxidative phosphorylation due to depression of complex I and complex V. These changes may contribute the cardiac dysfunction that is a complication of diabetes mellitus.

Increased echodensity of myocardial wall in the diabetic heart: an ultrasound tissue characterization study

OBJECTIVES

We sought to characterize myocardial echodensity in asymptomatic patients with insulin-dependent diabetes and normal conventional two-dimensional echocardiographic findings to determine whether ultrasound tissue characterization can detect ultrastructural changes in myocardium, such as an increase in collagen content.

BACKGROUND

Fibrosis alters the acoustic properties of the heart in animals and humans, and these changes are detectable by cardiac tissue characterization with ultrasound. Early changes detected in the diabetic heart include increased interstitial collagen deposition.

METHODS

Using two-dimensional echocardiography, we evaluated 26 asymptomatic patients with insulin-dependent diabetes with normal regional and global rest function, and 17 age- and gender-matched control subjects. By selection, all diabetic patients were normotensive and had negative maximal exercise stress test results to avoid the confounding effects of hypertension and coronary artery disease. Using an echocardiographic instrument implemented at the Institute of Clinical Physiology, we performed an on-line radiofrequency analysis to obtain quantitative operator-independent measurements of the integrated back-scatter signal of the ventricular septum and posterior wall. The integrated values of the radiofrequency signal from the myocardial wall were normalized for those from the pericardial interface and were expressed as percentages (integrated backscatter index).

RESULTS

Diabetic patients showed a significant increase in myocardial echodensity both in the septum ([mean +/- SD] 36.6 +/- 8.1 vs. 23.6 +/- 4.4, p < 0.0001) and posterior wall (21.2 +/- 5.3 vs. 18.4 +/- 3.7, p < 0.001). By individual patient analysis, 17 patients exceeded the 95% confidence limits for normal myocardial echocardiographic reflectivity found in normal subjects, and only 3 had a relatively abnormal transmitral Doppler filling pattern (E/A ratio), mainly consisting of an abnormally increased late peak flow velocity (65% vs. 11%, p < 0.001). The increased myocardial intensity was similar in patients with (n = 16) and without (n = 10) noncardiac complications, such as retinopathy or nephropathy (37.5 +/- 7.9% vs. 35.0 +/- 8.3%, p = 0.35).

CONCLUSIONS

Abnormally increased myocardial echodensity, possibly related to collagen deposition, can be detected in asymptomatic diabetic patients with normal rest function. Theoretically, this finding might be considered a very early preclinical alteration potentially related to subsequent development of diabetic cardiomyopathy.

Effects of type 1 diabetes mellitus on cardiac function: a study of monozygotic twins

OBJECTIVE

To investigate left ventricular size and function in type 1 diabetes and their relation with diabetes duration, glycaemic control, autonomic dysfunction, and complications of diabetes.

DESIGN

Cross sectional study using a pulsed wave Doppler echocardiogram to assess left ventricular dimensions, wall thickness, and transmitral blood flow velocity signals.

PATIENTS

40 monozygotic twin pairs (23 male, mean age 26 years) discordant for type 1 diabetes and 40 non-diabetic singleton controls with no clinical evidence of cardiac ischaemia.

RESULTS

For all Doppler echocardiographic measurements there were strong correlations between monozygotic twins but not between twins and control subjects. Left ventricular dimensions, wall thickness and systolic function, peak E velocity, and the velocity integrals of early left ventricular filling were similar in all three groups. Peak A velocity and the velocity integrals of late ventricular filling (mean (SD)) were greater in diabetic twins (45 (12) v 38 (8) cm/s, P = 0.002; and 32 (11) v 26 (6), P = 0.0002). Diabetic twins had lower E/A ratio (1.59 (0.39) v 1.83 (0.39), P < 0.001), greater atrial filling fraction to total diastolic filling (28 (6) v 25 (5)%, P = 0.002), and prolonged isovolumic relaxation time (72 (12) v 63 (9) ms, P < 0.001). The differences in Doppler findings between diabetic and non-diabetic twins were related to disease duration whereas the prolongation of the isovolumic relaxation time was related to cardiac autonomic dysfunction.

CONCLUSIONS

These results show that twins with type 1 diabetes have left ventricular diastolic dysfunction related to diabetes duration and cardiac autonomic dysfunction but not to glycaemic control or microvascular complications. In addition, genetic factors contribute to left ventricular dimension and function.

Comparison of echocardiographic variables between type I diabetics and normal controls

This report compares echocardiographic estimates of systolic and diastolic function and ventricular dimensions in type I diabetics and normal controls. A random sample of 60 diabetics selected from a central hospital diabetic clinic was compared with a sample of 40 nondiabetic controls, and matched to the diabetics by age, gender, and blood pressure. Simple comparisons showed that diabetics had a higher mean resting heart rate (HR) (p < 0.001) and a slower diastolic early filling phase (maximal rate of increase in left ventricular dimension in early diastole [v/dtmax], p = 0.08; time from end-systole until dv/dtmax [ES-dv/dtmax], p = 0.03), which were explained by differences in HR and other factors. Resting HR was significantly associated with several echocardiographic variables, but the slope relating resting HR to ventricular dimension was more negative in diabetics than in controls (end-diastolic diameter, p < 0.008; end-systolic diameter, p < 0.005), and the ratio of systolic to diastolic duration was significantly (p < 0.01) less positive in diabetics. The association of resting HR to duration of isovolumic diastole was positive in diabetics and negative in controls (p < 0.02). Among diabetics, those with higher resting HR had more retinopathy (p < 0.05), microalbuminuria (p < 0.05), smaller ventricles (p < 0.01), and longer isovolumic diastole (p < 0.05). Poorer diabetic control was associated with poorer systolic (fractional shortening, p < 0.05) and diastolic (dv/dtmax, p < 0.05; ES-dv/dtmax, p < 0.05) function.(ABSTRACT TRUNCATED AT 250 WORDS)

Reciprocal changes in left ventricular collagen alpha 1 chain gene expression between types I and IV in spontaneously diabetic rats

The characteristic features of diabetic cardiomyopathy have been reported to be increased collagen formation associated with impairment of ventricular performance, based on experimental models of diabetes. The present study was therefore designed to clarify collagen gene expression in hearts obtained from female spontaneously diabetic BioBreeding Worcester Tokyo (BB/W@Tky) rats. Cardiac hypertrophy was observed as early as 14 weeks in diabetic BB/W@Tky rats, i.e. 4 weeks after the onset of diabetes. Left ventricular gene expression of collagen alpha 1 (I) was decreased to 10.6% of the control level. In 24-week-old diabetic rats, which had more marked cardiac hypertrophy, the level of alpha 1 Type I collagen mRNA was further decreased to 5.7% of the control level, whereas collagen alpha 1 (IV) mRNA demonstrated a 3-fold increase. As a result, a ratio of collagen alpha 1 (IV) to actin mRNA was positively correlated with plasma glucose concentration. These results suggest that hyperglycemia may alter the gene expression of extracellular matrix proteins, resulting in the morphological and functional changes seen in diabetic cardiomyopathy.

Increased alpha 1-adrenergic responsiveness of alloxan diabetic rat atria: effects of insulin therapy and thyroidectomy

1. Experimental models of diabetes are increasingly used for the investigation of cardiovascular complications as well as other complications due to diabetes mellitus. However, animal models have been used in relatively few studies on the myocardial alpha 1-adrenergic responses. Hence, this report describes the effect of alloxan-induced diabetes and insulin-treatment on the alpha 1-adrenergic responses of the isolated rat atria. 2. Alloxan-induced diabetes caused an increase in the alpha 1-adrenergic responses assessed in isolated spontaneously beating rat atria. Both pD2 and alpha E values for phenylephrine, an alpha 1-adrenergic agonist were increased in atria from rats with alloxan diabetes. 3. Insulin treatment (4 IU/kg/day, s.c.) for 10 days normalized the changes in diabetic rat atria. pD2 and alpha E values for phenylephrine were slightly lower than those from control rats. Serum levels of thyroid hormones returned to normal following insulin treatment as well. 4. The effect of insulin on the increased alpha 1-adrenergic responses of rat atria due to alloxan diabetes seems to be related to thyroid hormone metabolism, since thyroidectomy also changed the atrial parameters measured. 5. The finding obtained in this study suggest that experimentally-induced diabetes increases alpha 1-adrenergic sensitivity of the rat atria possibly due to an increased receptor affinity, but these changes can be reversed with insulin treatment.

Left ventricular function and specific diabetic complications in other target organs in young insulin-dependent diabetics: an echocardiographic study

Although the existence of "diabetic cardiopathy" is now undoubted, findings concerning the relationship between the clinical features of diabetes and left ventricular (LV) function are contradictory. The purpose of the present study was to investigate the influence of specific diabetic complications, consisting of retinopathy, nephropathy, and autonomic neuropathy, on LV function in a representative sample of 117 carefully selected young cardiac-asymptomatic type 1 (insulin-dependent) diabetics with duration of disease > 2 years. As a control group, 54 healthy young subjects were studied. The diabetic complications were graded by a diabetic complication index (DCI). The diabetics were divided into three groups: those without complications (n = 46), those with mild complications (n = 39), and those with severe complications (n = 32). The LV function was assessed by M-mode echocardiography. A significant correlation between DCI and isovolumic relaxation time (r = 0.76), left atrium emptying index (r = -0.69), fractional shortening (r = -0.62), and ejection fraction (r = -0.60) was found. Diabetics with mild complications had diastolic abnormalities intermediate between those in patients free of complications and those with severe ones, but all their diastolic parameters were abnormal compared with control values. The systolic function in this mild complications group was normal. Diabetics with severe complications had the most pronounced diastolic dysfunction. All their systolic parameters were abnormal, indicating a contractile dysfunction. Most of them had dilated left atria and restricted left ventricles. Systolic dysfunction was found in 39% of the diabetics with complications and in 6% of those free of complications (chi 2 = 15.5, P < 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)

Diabetic cardiomyopathy

Diabetic cardiomyopathy as a distinct entity was first recognized by Rubler et al. in diabetics with congestive heart failure (CHF), who had no evidence of coronary atherosclerosis. The Framingham study showed a 2.4-fold increased incidence of CHF in diabetic men and a 5.1-fold increase in diabetic women over 18 years. Pathological studies show left ventricular hypertrophy and fibrosis with varying degrees of small vessel disease, the functional significance of which is uncertain. Hypertension was recognized as an important cofactor in the development of fatal congestive heart failure in diabetics. On cardiac catheterization, in patients symptomatic of heart failure, either congestive or restrictive patterns have been observed. In contrast, asymptomatic diabetics had decreased left ventricular compliance but normal systolic function on hemodynamic study. Noninvasive studies show alterations in systolic and especially diastolic function, particularly in diabetics with microvascular complications and/or coexistent hypertension. Using load-independent measures of contractility, however, systolic function was generally found to be normal in asymptomatic normotensive diabetics. Experimental studies have focused on the mildly diabetic dog and the severely diabetic rat. Decreased left ventricular compliance and increased interstitial connective tissue were observed in chronically diabetic dogs. In contrast, ventricular myocardium from diabetic rats exhibits a reversible decrease in the speed of contraction, prolongation of contraction, and a delay in relaxation. These mechanical changes are associated with a decreased myosin ATPase, a shift in myosin isoenzyme distribution, alterations in a variety of Ca2+ fluxes, and changes in responses to alpha- and beta-adrenergic and cholinergic stimulation. These biochemical changes may be secondary to alterations in carbohydrate, lipid, and adenine nucleotide metabolism in the diabetic heart.(ABSTRACT TRUNCATED AT 250 WORDS)

Early changes in left ventricular subendocardial function after successful coronary angioplasty

OBJECTIVE

To study the early effects of coronary angioplasty on resting left ventricular long axis function, reflecting that of the subendocardium.

DESIGN

Prospective echocardiographic and Doppler examination of patients with coronary artery disease, before and after single vessel coronary angioplasty.

SETTING

A tertiary referral centre for cardiac diseases with facilities for invasive and non-invasive investigation.

PATIENTS

23 patients with significant left coronary disease being considered for coronary angioplasty.

RESULTS

Before angioplasty the mean (SD) isovolumic relaxation time was longer than normal (75(19) ms v 55 (10), p < 0.001) with a significant increase in transverse dimension change before mitral valve opening, and peak rate of early diastolic thinning (8(3) v 10.4 (2.6) cm/s (p < 0.001)) was reduced. Long axis motion was frequently abnormal. The interval from the onset of the Q wave to the onset of shortening was prolonged (118 (30) ms v 90 (19) at the left site and 115 (26) ms v 81 (9) at the septal site, p < 0.001) and the onset of early diastolic rapid lengthening delayed with respect to the aortic valve closure sound (A2) by 85 (34) ms v 58 (11) at the left site and 88 (33) ms v 60 (9) at the septal site (p < 0.001). Although overall amplitude was reduced at the septal site only (1.23 (0.3) cm v 1.5 (0.4), p < 0.05), the extent (0.8 (0.2) cm v 1.04 (0.3) at the left site and 0.66 (0.2) cm v 0.9 (0.3) at the septal site, p < 0.001) and peak rate (6.2 (2) cm/s v 10 (2.5) at the left site and 5.4 (2.3) cm/s v 8.5 (2) at the septal site, p < 001) of early diastolic lengthening were both much lower than normal. The E/A ratio on transmitral Doppler was modestly reduced (1.0 (0.7) v 1.4 (0.4), p < 0.05). After angioplasty: isovolumic relaxation time shortened to 64 (18) ms (p < 0.001) and left ventricular incoordination regressed. Long axis shortening with respect to Q (98 (32) ms v 118 (30) at the left site and 94 (23) ms v 115 (26) at the septal site, p < 0.01) and that of lengthening with respect to A2 both normalised. Early diastolic peak lengthening rate increased (7.5 (2.1) cm/s v 6.2 (2) at the left site, and 6.3 (2.4) cm/s v 5.4 (2.3) at the septal site, p < 0.001). The early diastolic peak thinning rate of the posterior wall significantly increased (10 (3.5) cm/s v 8 (3), p < 0.005) as did mitral E/A ratio 1.2 (0.7) v 1.0 (0.7), p < 0.05).

CONCLUSION

Long axis motion, representing the function of longitudinally arranged subendocardial fibres, is consistently abnormal in the resting state in coronary artery disease. These systolic and diastolic abnormalities return towards normal after successful angioplasty, suggesting that they are the direct effect of coronary artery stenosis.

Abnormal myocardial acoustic properties in diabetic patients and their correlation with the severity of disease

Although patients with diabetes mellitus may be afflicted by cardiomyopathy, its prevalence and nature are controversial. Studies have shown that fibrosis alters the acoustic properties of the heart in animals and humans and that the changes are detectable by cardiac tissue characterization with ultrasound. The present study was performed to characterize myocardial acoustic properties in patients with insulin-dependent diabetes to determine whether ultrasound tissue characterization could detect changes potentially indicative of occult cardiomyopathy. The magnitude of cyclic variation of myocardial ultrasound integrated backscatter and its phase delay with respect to the onset of the cardiac cycle in the septum and posterior wall of the left ventricle were measured in 54 patients with diabetes who had no overt cardiac disease. Conventional echocardiography documented normal ventricular systolic function in 96%. As compared with results in age-matched patients without diabetes studied previously, cyclic variation of integrated backscatter was reduced (4.6 +/- 0.8 vs. 3.6 +/- 1.4 dB; p less than 0.001). In addition, delay was significantly increased (0.86 +/- 0.09 vs. 0.99 +/- 0.15). The primary analysis of the data focused on differences among the diabetic patients. Reduction of cyclic variation of backscatter was greatest in patients with diabetes who had neuropathy (3.2 +/- 1.0 dB; p less than 0.001) as was the increase in delay (1.04 +/- 0.16, p less than 0.001 vs. values in patients without neuropathy). Retinopathy and nephropathy were associated with abnormal myocardial acoustic properties as well. Thus, abnormalities that may reflect fibrosis or other occult cardiomyopathic changes in diabetic patients without overt heart disease are readily detectable by myocardial tissue characterization with ultrasound and parallel the severity of noncardiac diabetic complications.

Anatomical and functional cardiac abnormalities in type I diabetes

To analyse the anatomy and systolic and diastolic cardiac function in a group of type I diabetics with no other abnormality and to correlate it with the duration of the disease, the presence of complications, the control of the diabetes and the abnormalities in the autonomous nervous system, 125 type I diabetics and 50 age- and sex-matched healthy controls were studied. In 112 diabetics, an echocardiographic image which enabled us to calculate the thickness, cavity dimensions and systolic function rates was obtained. A Doppler echocardiograph was done in all patients to measure 9 parameters of diastolic function. The autonomic nervous system was evaluated by the response to 4 cardiovascular reflexes. Two control groups and 4 study groups were established, based on duration and on the presence and number of microangiopathic complications. The results showed a significant increase in the septal and posterior wall thickness, although without differences between the study groups. There were no differences in the analysis of systolic function. The abnormalities in diastolic function were significant in all the groups, but greater in the groups with microangiopathy. Overall, for groups 1-4, respectively, the incidence of anatomical abnormalities was 9.6%, 17%, 28% and 57% (average 22%); systolic 0%, 0%, 4% and 4.7% (average 2.2%); and diastolic 15%, 21%, 60% and 80% (average 44%). Only 13 diabetics from group 4 presented with cardiac autonomic neuropathy. No correlation between these alterations and the glycaemic control or the duration of the disease was found, although there was a correlation between the presence or absence of complications and the anatomic and diastolic abnormalities.(ABSTRACT TRUNCATED AT 250 WORDS)

Diastolic ventricular function in type 1 diabetic patients: a study using Doppler echocardiography

The transmitral flow velocity pattern of 28 Type 1 diabetic patients and 39 age-matched healthy control subjects was studied for determination of left ventricular diastolic function. No patient had systemic hypertension, congestive heart failure, or ischaemic heart disease by clinical or electrocardiographic criteria. Echocardiographic measures of systolic ventricular function were within normal range in all subjects. The ratio of early to late transmitral peak flow velocity (ve/va) was significantly decreased in the diabetic patients (1.3 +/- 0.1 (+/- SE) vs 1.6 +/- 0.1, p less than 0.05), while other Doppler derived variables did not show any significant difference. No correlation of ve/va with duration of diabetes was found (r = -0.27), but it correlated with age in both groups (both r = -0.40, p less than 0.05). Furthermore, a significant correlation was found between ve/va and heart rate (r = -0.55 for diabetic patients, p less than 0.01; r = -0.58 for control subjects, p less than 0.01). After matching for heart rate (24 diabetic patients and 24 control subjects) no significant decrease of ve/va was observed in the diabetic group.

Echocardiographic study of left ventricular function in type 1 diabetes mellitus: hypersensitivity of beta-adrenergic stimulation

Systolic left ventricular function was investigated by echocardiography in 23 young, type 1 diabetics and 11 control subjects. A stimulation by isoproterenol was performed in order to study beta-adrenergic cardiac responsiveness. M-mode recordings were digitized and analyzed by computer. Systolic parameters such as left ventricular fractional shortening and mean velocity of circumferential shortening were not different, but maximal velocity of shortening was increased both at rest (P less than 0.01) and with isoproterenol (P less than 0.05) in the diabetics. An abnormal systolic anterior motion of the mitral valve was found during administration of isoproterenol in 65% of the diabetics and in only one control. These findings are suggestive of a hyperkinetic state, associated with a poor metabolic control (high value of HbA1), together with adrenergic hypersensitivity in type 1 diabetes mellitus.

Myocardial metabolism in type 1 diabetic patients without coronary artery disease

Myocardial exchange of metabolic substrates was investigated in eight Type 1 diabetic patients with angiographically normal coronary arteries and seven normal control subjects, after an overnight fast. Simultaneous samples of arterial and coronary sinus blood were collected for analysis of the major metabolic substrates. Myocardial blood flow was measured by the thermodilution technique. Although the Type 1 patients were hyperglycaemic (10.0 +/- 2.0 (+/- SE) mmol I-1) myocardial glucose uptake was lower than in control subjects (27 +/- 6 vs 42 +/- 5 mumol min-1 1.73 m-2, p less than 0.05). The net balance of lactate and pyruvate across the myocardium showed a net release in Type 1 patients (13.4 +/- 2.7 mumol min-1 1.73 m-2 and 1.3 +/- 0.2 mumol min-1 1.73 m-2, respectively) and a net uptake in control subjects (2.2 +/- 0.7 mumol min-1 1.73 m-2 and 3.5 +/- 0.3 mumol min-1 1.73 m-2, both p less than 0.01). Myocardial uptake of ketone bodies was significantly higher in diabetic patients (37.0 +/- 6.3) mumol min-1 1.73 m-2) than in control subjects (10.1 +/- 3.4 mumol min-1 1.73 m-2, p less than 0.01). Non-esterified fatty acid (NEFA) uptake was significantly greater in the diabetic patients than in control subjects (44.1 +/- 7.0) vs 24.1 +/- 5.1 mumol min-1 1.73 m-2, p less than 0.01). Net balance of glucose, lactate, and pyruvate across the myocardium was inversely and significantly related to that of NEFAs and ketone bodies (p less than 0.01). Myocardial carbohydrate uptake is markedly impaired in Type 1 diabetic patients with angiographically intact coronary vessels. Ketones and NEFA represent the major fuel for the diabetic myocardium. Thus, in diabetes, myocardial lactate metabolism may be profoundly altered independently of coronary artery disease.

Cardiac sympathetic tone in anaesthetized diabetics

To assess cardiac sympathetic nervous function in diabetics, the heart rates attained following a pharmacological dose of intravenous atropine, 23 micrograms.kg-1, were studied under N2O, isoflurane anaesthesia in diabetics (n = 21) and nondiabetics (n = 30). Atropine-induced heart rate in diabetics was significantly lower than that in nondiabetics (95 +/- 14 (SD) bpm vs 109 +/- 12 bpm, P less than 0.001) and were closely related to preoperative orthostatic diastolic blood pressure change (r = 0.60, P less than 0.01). There was some correlation between the atropine-induced heart rate and preoperative RR-variation in diabetics (r = 0.50, P less than 0.05). The findings suggest that cardiac sympathetic function may also be impaired in diabetics with orthostatic hypotension.

Diabetic heart muscle disease

Diabetic patients may have various abnormalities in left ventricular systolic and diastolic function not attributable to coronary heart disease, hypertension or other known cardiac disease. Although the exact causes of this diabetic heart muscle disease or "diabetic cardiomyopathy" are still incompletely understood, several mechanisms may contribute to it including disturbed myocardial energy metabolism, microvascular changes, structural changes in collagen, increased myocardial fibrosis, and cardiac autonomic neuropathy. Perhaps the most typical feature of diabetic heart muscle disease is an abnormal filling pattern of the left ventricle, suggesting reduced compliance or prolonged relaxation. Left ventricular systolic function is commonly normal at rest in asymptomatic diabetic patients, but it frequently becomes abnormal during exercise. The abnormalities in left ventricular systolic function may be partly reversible along with an improvement of metabolic control of diabetes. It is not known how frequently subclinical abnormalities in left ventricular function in diabetic patients result in clinically manifest heart failure.

Abnormal diastolic function in patients with type 1 diabetes and early nephropathy

Left ventricular diastolic function was assessed by pulsed Doppler echocardiography in non-diabetic controls (n = 11) and in patients with type 1 diabetes without microvascular disease (n = 16; diabetic controls), with microalbuminuria (n = 9), or with early persistent proteinuria (n = 11). The peak filling velocities during the early and atrial phases of left ventricular diastole and their ratio (E:A ratio) were measured. All patients with diabetes had a normal serum concentration of creatinine and exercise electrocardiogram. The mean E:A ratio was significantly lower in those with proteinuria than in the diabetic controls because of an increase in peak atrial filling velocity; most patients with proteinuria had an abnormal E:A ratio of less than 1.0. Multiple regression analysis showed that systolic blood pressure was the major determinant of both the peak filling velocity during the atrial phase of diastole and also left ventricular mass. Blood pressures were significantly higher in the proteinuria group than in the diabetic controls. Glycaemic control and autonomic function did not influence diastolic filling. The slightly raised blood pressures at the earliest stages of diabetic nephropathy are sufficient to alter left ventricular diastolic compliance--this may reflect early hypertensive heart disease. These data do not preclude a specific heart muscle disease related to diabetes, but suggest that these slightly raised blood pressures contribute significantly to left ventricular dysfunction in these patients, in whom the risk of cardiovascular disease is already greatly increased.

Myocardial mechanics in young adult patients with diabetes mellitus: effects of altered load, inotropic state and dynamic exercise

The disease entity "diabetic cardiomyopathy" has been extensively described in young patients with diabetes in the absence of ischemic, hypertensive or valvular heart disease. The most convincing data have been a 30% to 40% incidence of decreased radionuclide angiographic left ventricular ejection fraction response to dynamic exercise. In the current study, the hypothesis was tested that this abnormal ejection fraction response was due to alterations in ventricular loading conditions or cardiac autonomic innervation (extrinsic factors), or both, rather than to abnormalities in intrinsic ventricular systolic fiber function (contractility). Twenty normotensive patients with diabetes (mean age 30 +/- 5 years, mean duration 15 +/- 6 years) and 20 age-matched normal subjects were studied. All patients with diabetes had a normal treadmill exercise tolerance test without evidence of myocardial ischemia. By radionuclide angiography, all normal subjects increased ejection fraction with exercise (62 +/- 4% to 69 +/- 6%; p less than 0.001). In contrast, 11 (55%) of 20 patients with diabetes maintained or increased ejection fraction with exercise (group 1; 62 +/- 4% to 69 +/- 6%; p less than 0.001) and 9 (45%) of 20 showed an exercise-induced decrease (group 2; 73 +/- 4% to 66 +/- 6%; p less than 0.001). No difference in the incidence of microangiopathy, as noted by funduscopic examination, was present between the diabetic groups. Despite the abnormal ejection fraction response to exercise in the group 2 patients with diabetes, all patients with diabetes had a normal response to afterload manipulation, normal baseline ventricular contractility as assessed by load- and heart rate-independent end-systolic indexes and normal contractile reserve as assessed with dobutamine challenge. Autonomic dysfunction did not explain the disparate results between the group 2 patients' radionuclide angiographic data and their load-independent tests of ventricular contractility and reserve. In addition, the high ejection fraction at rest in group 2 patients (73 +/- 4% versus 62 +/- 4% for normal subjects; p less than 0.001) was not related to the abnormal tests of autonomic function. Thus, when left ventricular systolic performance was assessed by load- and rate-independent indexes, there was no evidence for cardiomyopathy in young adult patients with diabetes who have normal blood pressure and no ischemic heart disease.

Altered functional activity and anoxic tolerance in diabetic rat isolated atria

Functional activities of isolated atria from 4-week diabetic rats and their anoxic tolerance and recovery were compared to those of control rats. The present study showed a two-fold increase in maximum developed contraction force (CF), the rate of force development, and the rate of relaxation in isolated atria from diabetic rat heart over that of the control. The rate of the sinoatrial node was lower in the diabetic. However, this lower rate was not responsible for higher CF of the diabetic isolated atria since the twofold difference was still present when both diabetic and control atria were electrically paced at identical rates. Although the high energy phosphate content of the diabetic isolated atria was lower than that of control (50% lower phosphocreatine and 15% lower ATP), diabetic atria exhibited improved short term anoxic tolerance and recovery compared to that of the control. The recovery from long term anoxia, however, was better in control than in diabetic atria, considering the higher original CF in diabetic atria. The present observations are compatible with better ischemic tolerance and higher basal force development observed by some investigators on diabetic isolated heart preparations but not with impaired contractility reported by others. Possible mechanisms responsible for the observed changes are discussed.