Left ventricular geometric patterns and QT dispersion in untreated essential hypertension

The spectrum of left ventricular adaptation to hypertension, different types of hypertrophy patterns, and QT dispersion in different types of hypertrophy was investigated in 107 patients with untreated essential hypertension and 30 age- and gender-matched normal adults studied by 12-derivation electrocardiogram (ECG), two-dimensional, and M-mode echocardiography. Left ventricular mass (LVM), body mass index, total peripheral resistance (TPR), relative wall thickness (RWT), and QT dispersion were found to be statistically significantly higher in the hypertension group (P < .001 for all). Among hypertensive patients, 41.1% had both normal LVM and RWT, here called normal left ventricle in hypertension; 10.3% had concentric hypertrophy with increased LVM and RWT; 14.95% had eccentric hypertrophy with increased LVM and normal RWT; and 32.7% had concentric remodeling with normal LVM and increased RWT. Echocardiographically derived cardiac index was higher in the concentric hypertrophy and eccentric hypertrophy patterns (P = .002 and P < .0001, respectively), whereas TPR was higher in the concentric hypertrophy and concentric remodeling patterns (P = .017 and .02, respectively). QT dispersion values were found to be increased in the hypertensive group (P = .001), whereas similar values were calculated for different types of hypertrophy patterns. We conclude that the more common types of ventricular adaptation to essential hypertension are eccentric hypertrophy and concentric remodeling. Concentric hypertrophy is found to be associated with both volume and pressure overload, whereas eccentric hypertrophy is associated with volume overload only and concentric remodeling is associated with pressure overload. But different left ventricular geometric patterns seem to have similar effects on QT dispersion.     

Symmetric and asymmetric left ventricular hypertrophy in patients with end-stage renal failure on long-term hemodialysis

BACKGROUND: Patients with end-stage renal disease on regular hemodialysis have an increased prevalence of left ventricular (LV) hypertrophy that is associated with morbidity and mortality. Asymmetric septal hypertrophy and impairment of LV outflow can occur in these patients and may contribute to adverse outcomes. More insight into the prevalence, extent, geometry, and promoting factors of LV hypertrophy is important. METHODS: An unselected group of 62 patients (31 women), aged 55 +/- 14 years, on maintenance hemodialysis was investigated by Doppler echocardiography. Eight patients with valvular heart disease were excluded from further analysis. We assessed prevalence of LV hypertrophy and asymmetric septal hypertrophy, as well as parameters of LV geometry and LV filling and outflow dynamics. RESULTS: Prevalence of LV hypertrophy was 65%. Patients were analyzed according to LV mass and geometry. Mean LV mass index was normal (105 +/- 17 g/m2) in Group 1 without LV hypertrophy (n = 19); it was markedly elevated in Group 2 (symmetric hypertrophy, n = 22) and Group 3 (asymmetric hypertrophy with systolic anterior movement of mitral valve, n = 7), and highest (191 +/- 54 g/m2) in Group 4 (asymmetric hypertrophy without systolic anterior movement of mitral valve, n = 6, p < 0.001). Age, body mass index, and duration of hypertension were associated with LV hypertrophy and asymmetric septal hypertrophy (p = 0.01). Group 3 with systolic anterior motion of mitral valve had the smallest end-diastolic LV diameters (p = 0.02); increased heart rates, and increased ejection velocities in the LV outflow tract (p = 0.03, and p = 0.005, respectively, vs. Groups 1, 2, and 4) which pointed to an impairment of LV outflow. CONCLUSIONS: Symmetric LV hypertrophy and asymmetric septal hypertrophy are frequent in patients on maintenance hemodialysis. Predictors for LV hypertrophy were age and body mass index, and, particularly for asymmetric septal hypertrophy, age and hypertension duration. Volume withdrawal during hemodialysis may lead to symptomatic hypotension due to dynamic obstruction in some patients with severe asymmetric septal hypertrophy.     

Relation of endothelium, thrombogenesis, and hemorheology in systemic hypertension to ethnicity and left ventricular hypertrophy

Although the arterial tree is exposed to increased pressure in hypertensive patients, paradoxically, the complications of hypertension (heart attacks, stroke) are mainly thrombotic rather than hemorrhagic. Patients with left ventricular (LV) hypertrophy are at high risk of the complications of hypertension. We performed a cross-sectional study of 178 patients attending a hypertension clinic in a city center teaching hospital, and measured plasma levels of the soluble adhesion molecule P-selectin (associated with platelet activity/function and atherosclerosis), the von Willebrand factor (vWf; a marker of endothelial dysfunction), fibrin D-dimer (an index of thrombogenesis), plasminogen activator inhibitor (PAI, an index of fibrinolysis), lipoprotein(a) (Lp(a), associated with thrombogenesis and atherogenesis) and hemorheological indexes (fibrinogen, hematocrit, plasma viscosity, hemoglobin) in patients with essential hypertension, in whom the LV mass and LV mass index were determined using echocardiography. The 178 patients (86 men, mean age 54 +/- 15 years) were compared with 47 normotensive healthy controls (aged 56 +/- 20 years). Hypertensive patients had higher P-selectin, PAI, vWf, fibrin D-dimer, Lp(a), plasma fibrinogen, and plasma viscosity when compared with controls. Black hypertensive patients had higher Lp(a) levels and LV septal and posterior wall thickness on echocardiography, but lower plasma PAI levels. Patients with LV hypertrophy (defined as a LV mass index > 134 g/m2 in men or > 110 g/m2 in women) had higher plasma fibrinogen compared with those without LV hypertrophy. Systolic blood pressures were significantly correlated to age, plasma viscosity, plasma fibrinogen, and vWf. Diastolic blood pressures were significantly correlated with age and plasma fibrinogen. Fibrinogen levels were correlated with LV mass, LV mass index, left atrial size, plasma viscosity, and vWf. Fibrin D-dimer levels were significantly correlated with vWf and fibrinogen levels. Thus, hypertensive patients have high plasma fibrinogen levels, thrombogenesis, and impaired fibrinolysis (as indicated by high D-dimer and PAI levels, respectively), platelet activation (raised soluble P-selectin), and endothelial dysfunction (high vWF). The high plasma fibrinogen levels were related to blood pressures, LV mass index (and LV hypertrophy), and left atrial size. These abnormalities in hemorheologic factors and markers of thrombogenesis and endothelial function may act synergistically to increase the risk of thrombogenesis and atherosclerosis in hypertensive patients.     

Left ventricular geometry as an independent predictor for extracardiac target organ damage in essential hypertension

Left ventricular hypertrophy (LVH) is an independent cardiovascular risk factor. It has not been established, however, whether left ventricular geometry is an independent predictor of extracardiac target organ damage in essential hypertension. Study groups were classified according to relative wall thickness: 27 patients with concentric LVH and 50 patients with eccentric LVH. Age and left ventricular mass indexes of two groups were matched. As indexes of extracardiac target organ damage, retinal funduscopic grade, and serum creatinine level were measured. The severity of hypertensive retinopathy and the renal involvement were more severe in patients with concentric LVH than in patients with eccentric LVH. Extracardiac target organ damage was consistently higher in patients with concentric LVH than in those with eccentric LVH. Systemic hemodynamics paralleled ventricular geometric patterns, with higher peripheral resistance and lower aortic compliance in patients with concentric LVH, whereas end-diastolic volumes and stroke volumes were higher in patients with eccentric LVH than in patients with concentric LVH. In addition, total peripheral resistance was related to retinal fundoscopic grade (r = 0.41, P < .01), and serum creatinine level (r = 0.28, P < .05). Even in the presence of an identical degree of LVH, echocardiographically determined left ventricular geometry may provide a further independent stratification of extracardiac target organ damage in essential hypertension.     

Left ventricular geometry in presenting untreated hypertension

In order to investigate the spectrum of geometry in our patient population, 63 untreated hypertensives underwent two-dimensional echocardiography. Left ventricular (LV) mass index and relative wall thickness, a measure of wall thickness in relation to cavity size, were calculated from the M-mode strip. In addition, to assess the sphericity of the left ventricle the ratio of LV minor to major hemiaxis was calculated. The subjects comprised 41 men (17 Caucasian, 22 Afro-Caribbean and two Oriental), and 21 women (five Caucasian, 12 Afro-Caribbean and two Oriental). Concentric hypertrophy was present in 46% of subjects, concentric remodelling in 32% of subjects, eccentric hypertrophy in only 6% of subjects and a normal left ventricular shape in 16% of subjects. The degree of sphericity of the left ventricle was similar among the four groups, suggesting that it does not change in uncomplicated hypertension. In contrast to the previously published combined series from Sassari and New York we had a low proportion of patients with either eccentric hypertrophy or normal left ventricular geometry. This is probably due to the high proportion of Afro-Caribbean subjects in our clinic population who are more likely to have left ventricular hypertrophy.     

Parallel increase in carotid, brachial and left ventricular cross-sectional areas in arterial hypertension

Few data have been published about the relation between the vessels geometry and development of left ventricular (LV) hypertrophy in patients with arterial hypertension. The aim of this study is to describe arterial and LV geometry changes due to mild-to-moderate arterial hypertension in an untreated hypertensive population. In 95 untreated patients with mild-to-moderate hypertension and 23 age- and sex-matched healthy normotensives, we measured the end-diastolic diameter and wall thickness of the left ventricle and the internal diameter and intimal-medial thickness (IMT) of carotid and brachial arteries. From these data, the cross-sectional areas (CSAs) of arterial and myocardial walls were calculated. Hypertensive patients were further subdivided on the basis of the presence of LV hypertrophy defined according to Devereux et al as anatomical LV mass >125 g/m. In hypertensive patients with hypertrophy, carotid and brachial CSAs increased, without significant changes in thickness/diameter ratio (arterial 'enlargement'), while the left ventricle developed 'concentric' hypertrophy. Arterial and LV CSAs showed a significant direct correlation with systolic blood pressure (BP). However, when data were corrected for BP, the correlation between the increase in arterial and LV CSAs became much improved than for the raw data. In conclusion patients with untreated mild-to-moderate hypertension, both carotid and brachial arterial walls showed an enlargement that was proportional to the development of LV hypertrophy. These results suggest that the effects of arterial hypertension on carotid, brachial and LV wall geometry have a common modulation.     

Distribution and correlates of creatinine clearance in children and adolescents with blood pressure elevation

The kidney has been implicated as both an etiologic factor and as a target organ in patients with essential hypertension. Renal function has not been studied extensively in children and adolescents with essential hypertension. Eighty-eight subjects, aged 6 to 23 years, with blood pressure persistently above the 90th percentile for age were studied. Creatinine clearance was determined from a single 24-hour urine collection. The mean creatinine clearance was 129.3 +/- 55.3 ml/min per 1.73 m2. Multiple regression analysis was used to investigate potential correlates of creatinine clearance. Because creatinine clearance was not normally distributed, the logarithm of creatinine clearance was used as the dependent variable. Body mass index, resting heart rate, and basal supine plasma renin activity were significant direct independent correlates. Peripheral vascular resistance at maximal exercise was an inverse correlate of the logarithm of creatinine clearance. These findings are consistent with previous studies of adults and may provide the basis for strategies to identify young patients with essential hypertension who are at risk for the development of renal dysfunction.     

Left ventricular hypertrophy precedes other target-organ damage in primary aldosteronism

To elucidate whether there is a difference in the progression of target-organ damage between primary aldosteronism and essential hypertension, we compared left ventricular hypertrophy and extracardiac target-organ damage in 23 patients with primary aldosteronism and 116 patients with essential hypertension. The severity of hypertensive retinopathy and the renal involvement in primary aldosteronism were subclinical and similar to those in essential hypertension without left ventricular hypertrophy but significantly milder than those in essential hypertension with left ventricular hypertrophy. There was a strongly significant correlation between the degree of left ventricular mass index and the severity of hypertensive retinopathy and renal involvement independent of office blood pressure in essential hypertension. In contrast, left ventricular hypertrophy markedly progressed despite the mild extracardiac target-organ damage in primary aldosteronism. Left ventricular end-diastolic dimension index in primary aldosteronism (3.16+/-0.50 cm/m2) was significantly larger than in essential hypertension without (2.87+/-0.23) and with (2.88+/-0.22) left ventricular hypertrophy. On the other hand, there was no difference in extracardiac target-organ damage between 13 primary aldosteronism patients with eccentric left ventricular hypertrophy and the 26 essential hypertensive patients with eccentric left ventricular hypertrophy. The results suggest that predominantly volume load, be it due to aldosteronism or other mechanisms, resulting in eccentric left ventricular hypertrophy is less likely to cause extracardiac target-organ damage than hemodynamic or nonhemodynamic mechanisms resulting in concentric left ventricular hypertrophy.     

Left ventricular morphology in chronic renal failure by echocardiography

M-mode, two-dimensional, and Doppler echocardiography were performed in 38 chronic renal failure (CRD) patients on conservative management, 35 patients on hemodialysis, and 36 matched controls. The controls were matched for age, sex, and comorbidities. The incidence of hypertension, left ventricular (LV) end diastolic volume, LV end systolic volume, and LV mass index were significantly higher in patients on hemodialysis compared to the controls. The LV parameters in the predialysis patients were not significantly different from the controls, except the LV end systolic internal dimensions were significantly higher in the CRF patients. Multiple regression analysis underscored the strong association between increase in LV mass index (LVMI) and hypertension. The diabetic patients with renal failure had large LV internal diameter and end diastolic volume compared to non-diabetics. Systolic function was well preserved even in hypertensive and diabetic patients with uremia. The incidence of diastolic dysfunction and asymmetrical septal hypertrophy were not significantly different in the three groups of patients.     

Relation of electrocardiographic left ventricular hypertrophy with and without T-wave changes to systemic blood pressure, body mass, and serum lipids and blood glucose levels in Japanese men

Left ventricular (LV) hypertrophy, especially combined with an abnormal ST-T, is considered 1 of many coronary risk factors. Seven hundred forty-nine Japanese men were selected according to their electrocardiographic findings, i.e., normal electrocardiogram, LV hypertrophy without an abnormal ST-T segment, LV hypertrophy with a flat T wave, and LV hypertrophy with a negative T wave. Coronary risk factors were compared among these 4 age-matched groups. Groups with LV hypertrophy with negative or flat T waves had larger body mass index (24.9 vs 22.9 kg/m2), higher mean systemic blood pressure (111 vs 95 mm Hg), larger LV mass (265 vs 157 g), higher blood glucose (110 vs 100 mg/dl), higher serum triglyceride (148 vs 122 mg/dl), higher total cholesterol (206 vs 198 mg/dl), and lower high-density lipoprotein cholesterol (47 vs 54 mg/dl) than the normal group or the group with LV hypertrophy without T-wave change. Among these risk factors, blood pressure and glucose remained higher even after the adjustment by body mass index or by body mass index and blood pressure. Electrocardiographic LV hypertrophy with a changed T wave signified higher risk of coronary artery disease in Japanese men.     

Increased left ventricular mass and hypertrophy are associated with increased risk for sudden death

OBJECTIVES: This study examined the relations of echocardiographically determined left ventricular (LV) mass and hypertrophy to the risk of sudden death. BACKGROUND: Echocardiographic LV hypertrophy is associated with increased risk for all-cause mortality and cardiovascular disease morbidity and mortality. However, little is known about the association of echocardiographic LV hypertrophy with sudden death. METHODS: We examined the relations of LV mass and hypertrophy to the incidence of sudden death in 3,661 subjects enrolled in the Framingham Heart Study who were > or =40 years of age. The baseline examination was performed from 1979 to 1983 and LV hypertrophy was defined as LV mass (adjusted for height) > 143 g/m in men and > 102 g/m in women. During up to 14 years of follow-up there were 60 sudden deaths. Cox models examined the relations of LV mass and LV hypertrophy to sudden death risk after adjusting for known risk factors. RESULTS: The prevalence of LV hypertrophy was 21.5%. The risk factor-adjusted hazard ratio (HR) for sudden death was 1.45 (95% confidence interval [CI] 1.10 to 1.92, p=0.008) for each 50-g/m increment in LV mass. For LV hypertrophy, the risk factor-adjusted HR for sudden death was 2.16 (95% CI 1.22 to 3.81, p=0.008). After excluding the first 4 years of follow-up, both increased LV mass and LV hypertrophy conferred long-term risk of sudden death (HR 1.53, 95% CI 1.01 to 2.28, p=0.047 and HR 3.28, 95% CI 1.58 to 6.83, p=0.002, respectively). CONCLUSIONS: Increased LV mass and hypertrophy are associated with increased risk for sudden death after accounting for known risk factors.     

Left ventricular concentric remodelling and carotid structural changes in essential hypertension

AIM: Left ventricular concentric remodelling defines a modified left ventricular geometry in the presence of a normal left ventricular mass; it is an early and frequent adaptation in arterial hypertension. The present study was designed to evaluate the extent of carotid structural changes in essential hypertensives with left ventricular remodelling. PATIENTS AND METHODS: Two groups of hypertensive patients, who had never previously received anti-hypertensive treatment, 14 with left ventricular concentric remodelling (group I, relative wall thickness 0.48 +/- 0.02) and 48 with normal left ventricular geometry (group II, relative wall thickness 0.37 +/- 0.04) underwent clinical and laboratory examination, echocardiography, carotid artery ultrasonography and 24 h ambulatory blood pressure monitoring (ABPM). The left ventricular dimensions and mass were obtained according to the Penn convention. The intima-media thickness (IMT) of the posterior wall of both common carotid arteries was measured 5, 10 and 20 mm caudally to the bulb and the average value was used for analysis. RESULTS: In both groups age (group I 44 +/- 9 years; group II 40 +/- 9 years), body surface area (group I 1.85 +/- 0.2 m2; group II 1.80 +/- 0.2 m2), duration of hypertension (group I 4.4 +/- 4; group II 3.8 +/- 3.9 years), metabolic parameters and smoking habits were similar. Both clinic and 24 h ABPM values were higher in group I (clinic 157 +/- 12/102 +/- 5; 24 h ABPM 145 +/- 10/95 +/- 7 mmHg) than they were in group II (clinic 146 +/- 11/97 +/- 5; 24 h ABPM = 134 +/- 10/87 +/- 8 mmHg, P < 0.01). The left ventricular mass index (LVMI) and IMT were found to be slightly but significantly greater in group I than they were in group II (LVMI 106 +/- 7 versus 98 +/- 12 g/m2, P < 0.05; IMT 0.68 +/- 0.13 versus 0.61 +/- 0.10 mm, P < 0.05). A significant correlation was found between LVMI and common carotid IMT in the whole group of hypertensive patients (r = 0.43, P < 0.01). CONCLUSIONS: Our results indicate that left ventricular concentric remodelling does not represent the only early cardiovascular change in arterial hypertension but rather is associated often with carotid intima-media thickening.     

Reduced left ventricular hypertrophy in type 1 diabetic patients with end-stage renal failure. A comparison between groups investigated 1977-80 and 1991-93

BACKGROUND: During the last decade, control of hypertension, oedema, anaemia, uraemia, and blood glucose has improved in patients with diabetic nephropathy. We have investigated whether this has influenced cardiac function at the time of end-stage renal failure. STUDY DESIGN: Echocardiographic investigations were performed in 26 type 1 diabetic patients evaluated for kidney transplantation and the results compared with those obtained in healthy controls and in a similar group of patients investigated in 1977-1980. RESULTS: Blood pressure was 153 +/- 21/85 +/- 12 mmHg versus 174 +/- 17/91 +/- 9 (recent group versus early group). The left ventricular (LV) diameter index, a measure of volaemia, was increased in systole and diastole in the early but not in the recent group. Both groups had LV hypertrophy, but this was much less pronounced in the recent group; posterior wall thickness was 1.1 +/- 0.16 cm versus 1.3 +/- 0.26 cm (P = 0.0001) and LV mass index 132 +/- 43 g/m2 versus 166 +/- 44 g/m2 (P = 0.009). Blood pressure correlated significantly with indices of LV hypertrophy in the recent group. Systolic function was normal in both groups but diastolic function was disturbed in both and to the same extent, atrial systole contributing by 27 +/- 14% to ventricular filling. CONCLUSION: Better treatment of hypertension, fluid overload, and uraemia has led to less pronounced LV hypertrophy. The remaining correlation with blood pressure suggests that more could be gained by intensified antihypertensive treatment.     

Increased left ventricular mass in salt-sensitive hypertensive patients

Clinical, biochemical and echocardiographic characteristics were evaluated from 50 essential hypertensive patients classified asccording to their salt-sensitivity status. Salt-sensitive hypertension was diagnosed by means of ambulatory blood pressure monitoring (ABPM) in 22 (44%) patients showing a significant increase in mean BP (P < 0.05) from a 7-day period of low salt (20 mmol NaCl/day) intake, to a 7-day period of high salt (260 mmol NaCl/day) intake. The remaining 28 (56%) patients were considered as having salt-resistant hypertension. Compared with salt-resistant patients, salt-sensitive ones showed an increased left ventricular mass index (P = 0.0118), septal (P = 0.0021) and posterior wall thickness (P = 0.0026), without differences in the internal diastolic diameter. Decreased values of HDL-cholesterol (P = 0.0475) and increased total cholesterol/HDL-cholesterol ratio (P = 0.0098) were also observed in the salt-sensitive, compared with the salt-resistant hypertensive patients. Age, gender, body mass index, systolic and diastolic BP, fasting plasma glucose, creatinine and uric acid did not differ between salt-sensitive and salt-resistant patients. We conclude that, at the same level of BP, salt-sensitive patients exhibit an increased prevalence of left ventricular hypertrophy and a worse lipid profile. These two aspects may confer to salt-sensitive patients an increased risk in terms of cardiovascular morbidity and mortality.     

Elderly patients in chronic hemodialysis: risk factors for left ventricular hypertrophy

In the past few years in Western countries, there has been an increasing proportion of elderly patients beginning renal replacement therapy. Left ventricular hypertrophy (LVH) is associated with an increased mortality rate due to cardiovascular disease, the main cause of death in patients on chronic hemodialysis. In this study, we evaluated 67 chronic hemodialysis patients older than 65 years (33 women and 34 men; mean age, 72.6 years; mean time on chronic hemodialysis, 51.3 months). Several biological and laboratory data were analyzed. The left ventricular mass was calculated using the Penn convention criteria. LVH was observed in 49 patients (73%). These 49 patients were divided into two groups (group 1, concentric hypertrophy, n = 22; and group 2, eccentric hypertrophy, n = 27) and compared with a control group (patients without LVH, n = 18). Group 1 (P = 0.06) and group 2 (P = 0.055) showed higher systolic blood pressures and group 2 showed a lower hematocrit (P = 0.024). The echocardiographic parameters were expectedly different: group 1 had higher posterior left ventricular wall thickness (P = 0.0001), interventricular septum thickness (P = 0.0001), and left ventricular wall relative thickness (P = 0.002), and group 2 had higher left ventricular end-diastolic diameter (P = 0.0001), interventricular septum thickness (P = 0.01), and posterior left ventricular wall thickness (P = 0.023). Using the left ventricular mass index as the dependent variable and the evaluated biological and laboratory data as the independent variables, we found in a stepwise multiple regression model that only systolic blood pressure (t = 3.430; P = 0.0011), age (t = 2.059; P = 0.044), interdialytic weight gain (t = 2.236; P = 0.029), and hematocrit (t = -1.961; P = 0.054) independently influenced the left ventricular mass index (R2 = 0.313; P = 0.0001). Further studies are needed to determine whether reduction of the left ventricular mass index, through control of blood pressure and correction of anemia, will decrease the cardiovascular events in this particular population.     

Glucose intolerance exaggerates left ventricular hypertrophy and dysfunction in essential hypertension

The influence of glucose intolerance, the preclinical stage of diabetes mellitus, on the progression of left ventricular hypertrophy and left ventricular dysfunction in essential hypertension, was assessed with two-dimensional M-mode echocardiography in age- and sex-matched essential hypertensive patients with (n = 28) or without (n = 44) glucose intolerance, and normotensive control subjects (n = 29). Left ventricular mass index in hypertensive patients with glucose intolerance was significantly higher than that in hypertensive patients without glucose intolerance (mean +/- SD, 115.6 +/- 28.2 v 102.1 +/- 22.1 g/m2; P < .05). Left ventricular diastolic function as reflected by peak lengthening rate was reduced in glucose-intolerant hypertensive patients than in hypertensive patients without glucose intolerance (2.68 +/- 0.71 v 3.16 +/- 0.82/sec; P < .05). End-systolic wall stress/left ventricular end-systolic volume index, an index of left ventricular contractility, was reduced more in glucose-intolerant hypertensive patients than in hypertensive patients without glucose intolerance (2.75 +/- 0.55 v 3.13 +/- 0.55 10(3) dyn.m2/cm2.mL-1; P < .01). These findings suggest that glucose intolerance accelerates progression of left ventricular hypertrophy and deteriorates left ventricular diastolic function and contractility in essential hypertension.     

The importance of left ventricular hypertrophy in human hypertension

Hemodynamic and non-hemodynamic factors contribute to the development of left ventricular hypertrophy (LVH). The presence of LVH is an important independent risk factor for total mortality and for cardiovascular morbidity and mortality. Direct cardiac effects of LVH include an increased risk of developing of congestive heart failure, an increased risk of arrhythmic events, and a reduced coronary flow reserve, promoting myocardial ischemic episodes. In addition, hypertension may promote the development of coronary artery atherosclerosis. The prognostic implications of LVH underscore the importance of diagnostic procedures. The electrocardiogram has a high specificity to identify patients with LVH but the sensitivity is fairly low. Echocardiography provides higher sensitivity and also gives important information, such as the pattern of left ventricular geometry, which is of prognostic importance, and the presence of diastolic dysfunction, which is an early abnormality in the evolution of hypertensive LVH. Reversal of LVH appears to improve prognosis. Reduction of blood pressure is one important component in the regression of LVH. Important quantitative differences exist between drug classes in the reversal of cardiac hypertrophy despite similar antihypertensive effects, suggesting other factors to be of importance in the regression of left ventricular mass. LVH is reduced more by angiotensin-converting enzyme inhibitors than by other antihypertensive drug classes, suggesting an effect on structural myocardial changes beyond that provided by the reduction of blood pressure. Recent data suggest that angiotensin II receptor antagonists (AIIRAs) have quantitatively similar effects on left ventricular mass as do angiotensin-converting enzyme inhibitors. A comparative trial of the AIIRA irbesartan and the beta-blocker atenolol demonstrated that despite similar reductions in blood pressure, the reductions attained in left ventricular mass with irbesartan were progressive and numerically greater than those attained with atenolol. Taken together, these findings provide circumstantial evidence for an important role of angiotensin II acting on angiotensin type 1 (AT1) receptors in the development or maintenance of cardiac hypertrophy. Confirmation of the favorable effects of angiotensin-converting enzyme inhibitors and AIIRAs on left ventricular mass in larger trials, including those assessing cardiovascular morbidity and mortality, will be of major importance in the future treatment of hypertension.     

Changes in left ventricular structure and function in patients with white coat hypertension: cross sectional survey

OBJECTIVES: To assess the relation between white coat hypertension and alterations of left ventricular structure and function. DESIGN: Cross sectional survey. SETTING: Augsburg, Germany. SUBJECTS: 1677 subjects, aged 25 to 74 years, who participated in an echocardiographic substudy of the monitoring of trends and determinants in cardiovascular disease Augsburg study during 1994-5. OUTCOME MEASURES: Blood pressure measurements and M mode, two dimensional, and Doppler echocardiography. After at least 30 minutes' rest blood pressure was measured three times by a technician, and once by a physician after echocardiography. Subjects were classified as normotensive (technician <140/90 mm Hg, physician <160/95 mm Hg; n=849), white coat hypertensive (technician <140/90 mm Hg, physician >=160/95 mm Hg; n=160), mildly hypertensive (technician >=140/90 mm Hg, physician <160/95 mm Hg; n=129), and sustained hypertensive (taking antihypertensive drugs or blood pressure measured by a technician >=140/90 mm Hg, and physician >=160/95 mm Hg; n=538). RESULTS: White coat hypertension was more common in men than women (10.9% versus 8.2% respectively) and positively related to age and body mass index. After adjustment for these variables, white coat hypertension was associated with an increase in left ventricular mass and an increased prevalence of left ventricular hypertrophy (odds ratio 1.9, 95% confidence interval 1.2 to 3.2; P=0.009) compared with normotensive patients. The increase in left ventricular mass was secondary to significantly increased septal and posterior wall thicknesses whereas end diastolic diameters were similar in both groups with white coat hypertension or normotension. Additionally, the systolic white coat effect (difference between blood pressures recorded by a technician and physician) was associated with increased left ventricular mass and increased prevalence of left ventricular hypertrophy (P<0.05 each). Values for systolic left ventricular function (M mode fractional shortening) were above normal in subjects with white coat hypertension whereas diastolic filling and left atrial size were similar to those in normotension. CONCLUSION: About 10% of the general population show exaggerated inotropic and blood pressure responses when mildly stressed. This is associated with an increased risk of left ventricular hypertrophy.     

Surgical repair of fecal incontinence. Correlation of sonographic anal sphincter integrity with subjective cure

We examined the relationship between left ventricular hypertrophy (LVH) and renal and retinal damage in 174 untreated patients with essential hypertension. As an index of renal and retinal damage, we examined proteinuria and retinal vascular change. LVH was diagnosed according to left ventricular mass obtained from echocardiography. Of the hypertensive patients, 111 patients (64%) had LVH. The incidences of proteinuria and advanced retinal vascular change were higher in patients with LVH than in those without LVH. In a multiple regression model, there was a significant positive correlation between left ventricular mass and proteinuria, as well as diastolic blood pressure, sex, age and body mass index. In conclusion, proteinuria is related to elevated left ventricular mass in patients with essential hypertension.     

The effects of milrinone and its mechanism in the fatigued diaphragm in dogs

The development of the left ventricle parallels body growth. During infancy, the relation between body size and left ventricular (LV) mass is very close. With advancing age, variability of LV mass in relation to body size markedly increases. To test the hypothesis that the age-related increase in variability of LV mass is due to the progressive impact of hemodynamic stimuli on LV growth, quantitative M-mode echocardiograms were obtained in 766 normal-weight, normotensive individuals over a range of ages from 1 day to 85 years (330 female subjects, 373 subjects younger than 18 years). LV mass was linearly related to height2.7 (r2=.69). Prediction of values of LV mass by body size was more accurate at birth and progressively less precise with increasing age. Stroke work (stroke volume times systolic pressure) was closely related to LV mass (r2=.74). The explained variance of LV mass increased from 69% in the univariate regression with height2.7 to 82% in a multivariate model including height2.7, stroke work, and gender. In children and adolescents (younger than 18 years), height2.7 was the main determinant of LV mass, whereas during adulthood stroke work and gender were more important predictors of LV mass than height2.7. Thus (1) the influence of body growth on development of LV mass decreases after early infancy because of both the variability of hemodynamic load and the increasing effect of gender; (2) after adolescence, during adulthood, in normotensive, normal-weight individuals, the impact of hemodynamic load and male gender on LV mass is greater than the one of body size; and (3) an appreciable proportion of variability of LV mass remains unexplained with the studied models. This might be due to genotypic variations and/or measurement error.