Prevalent influence of systolic over pulse pressure on left ventricular mass in essential hypertension.

BACKGROUND: Elevated pulse pressure, an index of increased large artery stiffness, has been associated with increased left ventricular mass. It is unknown whether this relation is independent or mediated by other blood pressure components. METHODS AND RESULTS: We examined data in 2545 untreated hypertensive subjects (45% women) who underwent echocardiography and 24-h ambulatory blood pressure monitoring. Left ventricular mass increased with all blood pressure components and all associations were closer with ambulatory than with office blood pressure. In a multiple regression analysis, after adjustment for the significant association with age, gender, body weight and duration of hypertension, the proportion of variability of left ventricular mass explained by systolic blood pressure was greater than that explained by other blood pressure components. When different blood pressure components were forced into the same model, the same degree of left ventricular mass variability was accounted for by models including 24-h systolic blood pressure alone, or 24-h mean blood pressure plus 24-h pulse pressure, or 24-h diastolic blood pressure plus 24-h pulse pressure. When 24-h systolic blood pressure and 24-h pulse pressure were forced into the same model, 24-h pulse pressure lost statistical significance. CONCLUSIONS: The association between pulse pressure and left ventricular mass is explained by systolic blood pressure, which is the main pressure determinant of left ventricular mass in essential hypertension.     

Ambulatory blood pressure and left ventricular mass index in hypertensive children

To determine whether ambulatory blood pressure is more predictive of left ventricular hypertrophy than is casual blood pressure in hypertensive children, echocardiography and ambulatory blood pressure data from 37 untreated hypertensive children were analyzed. Left ventricular mass was calculated using the Devereux equation, left ventricular mass index was calculated as left ventricular mass (in grams)/height(2.7) (in meters), and left ventricular hypertrophy was defined as left ventricular mass index >51 g/m(2.7). Average blood pressure, blood pressure load, and blood pressure index (average blood pressure divided by pediatric ambulatory blood pressure 95th percentile) were calculated. Left ventricular mass index was strongly correlated with 24-hour systolic blood pressure index (r=0.43, P=0.008) and was also correlated with 24-hour systolic blood pressure (r=0.34, P=0.037), 24-hour systolic blood pressure load (r=0.38, P=0.020), wake systolic blood pressure load (r=0.37, P=0.025), sleep systolic blood pressure (r=0.33, P=0.048), and sleep systolic blood pressure load (r=0.38, P=0.021). Left ventricular mass index did not correlate with age, weight, clinic blood pressure, or ambulatory diastolic blood pressure. The overall prevalence of left ventricular hypertrophy was 27%. The prevalence of left ventricular hypertrophy was 47% (8 of 17) in patients with both systolic blood pressure load >50% and 24-hour systolic blood pressure index >1.0, compared with 10% (2 of 20) in patients without both criteria (P=0.015). These data suggest ambulatory blood pressure monitoring may be useful for the clinical assessment of hypertensive children by identifying those at high risk for the presence of end organ injury.     

2型糖尿病合并原发性高血压患者的动态血压及脉压和左心室结构功能的关系

目的 :探讨 2型糖尿病 (DM)、原发性高血压 (EH)及DM +EH时 2 4小时动态血压和脉压的变化特点及与左心室结构和功能的关系。　　方法 :将 2 45例患者分为DM组 (n =72 )、EH组 (n =96)及DM +EH组 (n =77) ,进行动态血压及超声心动图检查。　　结果 :DM +EH组全天收缩压、全天脉压、左心室重量显著大于DM组及EH组 (P <0 0 5 )。左心室射血分数、短轴缩短率、舒张早期血流峰值速度 /舒张晚期血流峰值速度 (E/A)值、等容舒张时间 3组间无显著差异。相关分析表明 ,DM组左心室重量和全天脉压相关 (P <0 0 1) ;EH组左心室重量和全天收缩压相关 (P <0 0 5 ) ;DM +EH组左心室重量和全天收缩压及全天脉压相关 (P <0 0 5 )。 3组左心室舒张功能异常患者的全天收缩压、全天脉压均显著高于左心室舒张功能正常患者 (P均 <0 0 5～ 0 0 1) ,左心室的收缩功能正常患者和异常患者比较 ,2 4小时动态血压和脉压值均无显著差异 (P均 >0 0 5 )。　　结论 :DM组、EH组和DM +EH组 3组患者全天收缩压、全天脉压及左心室重量有显著差异 ,左心室重量和血压及脉压的相关性在 3组患者中不完全一致 ,可能与 3组患者体液及压力因素在左心室肥厚中的作用各不相同有关。     

Ambulatory blood pressure monitoring and echocardiographic left ventricular wall thickness and mass

In a highly select group of stable hypertensive patients, we have assessed the strength of association between various blood pressure measurements (24 h average automated ambulatory blood pressure, 4 h automated ambulatory morning average blood pressure, multiple office visit average blood pressure, and a single office visit average blood pressure) and various echocardiographic indices of hypertensive cardiac target organ damage (left atrial diameter, left ventricular end diastolic diameter, posterior wall thickness, combined wall thickness, relative wall thickness, left ventricular mass and mass index, and combined wall thickness/left ventricular diastolic diameter ratio). These data demonstrated that a single 24 h average diastolic blood pressure by automatic noninvasive ambulatory monitoring was a significantly better predictor of echocardiographic posterior wall thickness, combined wall thickness or relative wall thickness than the multiple office or single office average diastolic blood pressure. Also there were highly significant correlations between both 24 h average systolic and diastolic blood pressure and these echocardiographic parameters (in descending order of correlation coefficient): combined wall thickness, posterior wall thickness, combined wall thickness/left ventricular diastolic diameter, left ventricular mass index, relative wall thickness, and left ventricular mass. Left ventricular end diastolic dimension did not linearly correlate with any systolic or diastolic blood pressure measurement. Left atrial dimension demonstrated only a significant association with 24 h average diastolic blood pressure. Single office average blood pressure did not linearly correlate with any echocardiographic parameter.(ABSTRACT TRUNCATED AT 250 WORDS)     

Blood pressure load determines left ventricular mass in essential hypertension.

In a series of 35 newly diagnosed, previously untreated patients (mean age 46 years) with mild to moderate essential hypertension, office blood pressure measurements, 24-hour ambulatory blood pressure monitoring, and determination of left ventricular mass index by echocardiography according to the formula of Devereux were performed. We aimed at correlating left ventricular mass index with systolic and diastolic office blood pressure, mean 24-hour systolic and mean 24-hour diastolic blood pressure, systolic and diastolic load. Left ventricular mass index did not correlate with office systolic and office diastolic blood pressure. On the contrary, all correlations with ambulatory blood pressure parameters and left ventricular mass index turned out to be significant (mean 24-hour systolic blood pressure: r = 0.344, P = 0.026; systolic load: r = 0.408, P = 0.020; mean 24-hour diastolic blood pressure: r = 0.490, P = 0.004; diastolic load: r = 0.504, P = 0.003). These results clearly demonstrate that ambulatory blood pressure determinants but not the office blood pressure parameters are well correlated with left ventricular mass index in mild to moderate essential hypertension. Blood pressure load is as important as mean 24-hour blood pressure in this regard.     

动态血压监测参数血压负荷、曲线下面积与左室肥厚的关系

目的　研究高血压患者动态血压监测参数 :血压负荷、曲线下面积与左室肥厚的关系。对象　 75例高血压病人 ,男性 51例 ,女性 2 4例 ,平均年龄 63± 8(46～ 74)岁。方法　动态血压测定 2 4h血压 ,超声心动图测定室间隔、左室后壁厚度 ,左室舒张末直径并按Devereux校正公式计算左心室重量指数 (LVMI)。结果　多元逐步回归分析显示 :收缩压、收缩压负荷 ,收缩压曲线下面积值以及夜间的舒张压、舒张压负荷、舒张压曲线下面积与LVMI有关 (P <0 0 1 )。结论　曲线下面积能较好地反映动脉血压的变化与左心室肥厚的关系。     

Relationship between left ventricular mass and noninvasive monitoring of blood pressure

We studied the relationship between left ventricular mass index (LVMI) and blood pressure (BP) monitored during 24 hours in 35 normotensive and 58 hypertensive patients with no treatment for more than three months. We found a close correlation between LVMI and the average daytime systolic BP (r = 0.68). Other parameters derived from BP monitoring were also correlated with LVMI: daytime diastolic BP (0.54), nighttime systolic and diastolic BP (0.61 and 0.54), pulse pressure (0.58), the average of the five highest systolic and diastolic BP (0.57 both), and the percentage of systolic BP above 140 mm Hg (r = 0.64). However, in a stepwise multiple regression analysis only daytime systolic BP was independently correlated to LVMI. The standard deviation of systolic BP was not significantly correlated to LVMI. The same positive correlation between daytime systolic BP and LVMI was found in normotensive and hypertensive patients, males and females, and patients with and without left ventricular hypertrophy. So, at least regarding the prediction of the degree of left ventricular hypertrophy, the average systolic BP during daytime seems to be the only valuable parameter to look at in ambulatory BP monitorings of untreated hypertensive patients.     

Assessment of the daily blood pressure load as a determinant of cardiac function in patients with mild-to-moderate hypertension

The distribution of blood pressure (BP) values over the day and night was assessed in a group of 30 never previously treated patients with mild-to-moderate essential hypertension via 24-hour ambulatory BP monitoring. Elevated BP values during the awake hours (greater than 140/90 mm Hg) and sleeping hours (greater than 120/80 mm Hg) were used to calculate the total percentage of abnormal BP values (load) in each patient. The relationship between BP load and several indexes of hypertensive cardiac target organ involvement was compared to the relationships among office (casual), 24-hour average BP values, and cardiac indexes. Casual systolic and diastolic BP values did not correlate with left ventricular mass index, left atrial index, or peak left ventricular filling rate. Both 24-hour average BP and systolic and diastolic BP loads correlated with all indexes of cardiac target organ involvement. The BP loads were related to left ventricular mass index and left atrial index more strongly than were the mean 24-hour BP values; however, they were equally correlated for peak left ventricular filling rate. If greater than 40% of the ambulatory BP values were elevated, the likelihood of increased mass or decreased filling was greater than 61%, whereas if less than 40% of the BP values were elevated, the incidence of an abnormal cardiac test result decreased to less than 17%. These data show that the percentage of elevated BP values that includes both the awake and asleep periods is predictive of cardiac target organ involvement in patients with mild-to-moderate hypertension. Patients with mild hypertension who have more than 40% abnormal BP values should strongly be considered for antihypertensive therapy.     

高血压病患者动态血压与左心功能相关关系的研究

目的观察收缩压、舒张压分别对左室收缩及舒张功能的不同影响。方法应用诊所血压、２４小时动态血压监测及超声心动图，观察３８例Ⅰ、Ⅱ期高血压病患者血压与左室心肌质量、左室收缩及舒张功能的相关关系。结果２４小时及白天平均收缩压及诊所收缩压均与舒张早期充盈峰值流速（ＥＰＦＶ）呈负相关（Ｐ值均＜００５），２４小时、白天及夜间平均舒张压均与年龄呈负相关（Ｐ值均＜０．０５），与舒张功能各参数之间无相关关系，诊所收缩压与年龄、心房收缩期充盈峰值流速（ＡＰＦＶ）呈正相关（Ｐ＜０．００１及０．０５），夜间平均收缩压及诊所收缩压与左室心肌质量指数呈正相关（Ｐ＜０．０１及０．０５）。而２４小时平均收缩压、白天平均收缩压、２４小时平均舒张压、白天及夜间平均舒张压则均与左室心肌质量指数无明显相关关系。结论２４小时平均收缩压是影响左室舒张功能的重要因素之一，２４小时平均舒张压与左室舒张功能无相关关系。夜间平均收缩压增高是导致左心室肥厚的重要因素之一。随年龄增长，收缩压增高，舒张压下降     

Gender-specific brachial artery blood pressure-independent relationship between pulse wave velocity and left ventricular mass index in a group of African ancestry

AIM: As it is uncertain whether arterial stiffness is related to left ventricular mass and left ventricle mean wall thickness independent of blood pressure measured at the brachial artery, we aimed to ascertain this effect in never-treated participants with a high prevalence of risk factors for large artery dysfunction. METHODS: The conventional and ambulatory blood pressure-independent relations between indices of large artery function and either left ventricular mass or mean wall thickness were determined in 309 never-treated randomly recruited South Africans of African ancestry with prevalent risk factors for large artery changes [24% were hypertensive, 63% were overweight/obese, and 17% had diabetes mellitus or abnormal blood glucose control (glycosylated hemoglobin A1c > 6.1%)]. Large artery function was assessed from applanation tonometry performed at the carotid, radial and femoral arteries and central augmentation index and aortic pulse wave velocity (carotid femoral pulse wave velocity) derived from these measures. Left ventricular mass indexed for height (left ventricular mass index) and mean wall thickness were determined using echocardiography. RESULTS: Pulse wave velocity was associated with left ventricular mass index (r = 0.67, P < 0.0001) and mean wall thickness (r = 0.61, P < 0.0001) in women, but not in men (r = 0.04-0.08) (P < 0.0001 for the interaction between pulse wave velocity and gender). On multivariate analysis with appropriate adjustments including either conventional systolic blood pressure, pulse pressure or mean arterial pressure, pulse wave velocity was independently associated with left ventricular mass index (partial r = 0.25, P < 0.005 after adjustments for systolic blood pressure) and with mean wall thickness (partial r = 0.17, P < 0.05 after adjustments for systolic blood pressure) in women, but not in men. With the inclusion of 24-h ambulatory rather than conventional systolic blood pressure, pulse pressure or mean arterial pressure in the regression equation, pulse wave velocity was similarly independently associated with left ventricular mass index (partial r = 0.39, P < 0.001 after adjustments for 24-h systolic blood pressure) and mean wall thickness (partial r = 0.33, P < 0.003 after adjustments for 24-h systolic blood pressure) in women, but not in men. Central augmentation index was not independently associated with left ventricular mass index or mean wall thickness. In women, the contribution of pulse wave velocity to left ventricular mass index or mean wall thickness independent of systolic blood pressure (standardized beta-coefficient for left ventricular mass index=0.37 +/- 0.13, P < 0.005) was equivalent to the contribution of systolic blood pressure (standardized beta-coefficient for left ventricular mass index = 0.38 +/- 0.13, P < 0.005). Moreover, after adjusting for clinic or ambulatory systolic blood pressure and other confounders, in women every one standard deviation increase in pulse wave velocity (2.1 m/s) translated into a 4.3 or 6.2 g/m increase in left ventricular mass index, respectively. CONCLUSION: Arterial stiffness is associated with left ventricular mass index and left ventricle wall thickness independent of conventional or ambulatory blood pressure and additional confounders in a never-treated population sample of women, but not men, of African ancestry with prevalent risk factors for large artery dysfunction.     

Ambulatory blood pressure predicts end-organ damage only in subjects with reproducible recordings. HARVEST Study Investigators. Hypertension and Ambulatory Recording Venetia Study.

OBJECTIVE: To determine whether the prediction of target-organ damage varies according to the reproducibility of 24 h blood pressure. SETTING: Seventeen hypertension clinics in northeast Italy. MAIN OUTCOME MEASURES: Correlations of left ventricular mass index and albumin excretion rate with 24 h and office blood pressures in relation to tertiles of ambulatory blood pressure reproducibility. PATIENTS AND METHODS: In 716 consecutive, stage I, hypertensives enrolled in the Hypertension and Ambulatory Recording Venetia Study (HARVEST), ambulatory blood pressure monitoring was performed twice, 3 months apart In all subjects, the albumin excretion rate was measured by radioimmunoassay, and in 567, the left ventricular mass index was assessed by echocardiography. RESULTS: The subjects were divided into tertiles of ambulatory blood pressure consistency (between-monitoring differences, regardless of the sign). In the tertile of subjects with good reproducibility, correlation coefficients of systolic and diastolic ambulatory blood pressure with left ventricular mass and urinary albumin excretion were significant and higher than those of office blood pressure. In contrast, in the two tertiles with poorer reproducibility, the coefficients were barely or not significant for both pressures. The advantage of ambulatory blood pressure over office blood pressure in predicting target-organ damage was no longer present for systolic blood pressure differences greater than 3.8 mmHg and diastolic blood pressure differences greater than 3.1 mmHg. CONCLUSIONS: These data indicate that ambulatory blood pressure is a better predictor of left ventricular mass and urinary albumin excretion than office blood pressure, but only in subjects with good pressure reproducibility. Therefore, the assessment of hypertensive patients should be based on duplicate blood pressure monitorings. Recordings with 24 h systolic and diastolic blood pressure differences greater than 4 and 3 mmHg, respectively, should be considered with caution.     

Correlations between blood pressure, left ventricular hypertrophy, and left ventricular diastolic function in hypertensive patients]

We examined the relationship of hypertension to left ventricular hypertrophy (LVH) and left ventricular diastolic function by ambulatory blood pressure monitoring device and echocardiography. We studied 36 untreated hypertensive non-diabetic patients (16 males and 20 females) whose casual systolic blood pressure (CSBP) and/or diastolic blood pressure (CDBP) were higher than 140 mmHg and 90 mmHg, respectively. All patients were less than 65 years of age without organic heart disease. Resting systolic and diastolic blood pressures (RSBP, RDBP) were measured after lying in a supine position for 30 min by the auscultatory method. Ambulatory blood pressure was measured every 30 or 60 min for 24 hours by Colin ABPM 630, and the mean 24-hour ambulatory systolic and diastolic blood pressures (ASBP, ADBP) and the systolic and diastolic hyperbaric indices (SHI, DHI) were obtained. The left ventricular mass index (LVMI) was obtained as an indicator of LVH by M-mode echocardiography. The ratio of peak velocity of mitral inflow caused by atrial contraction to that of rapid inflow (A/R) was obtained as an indicator of the LV diastolic function by Doppler echocardiography. The coefficients of correlation between BP and the LVMI, and the A/R were determined. There were significant positive correlations between the LVMI and ASBP (r = 0.51, p < 0.005), the SHI (r = 0.49, p < 0.005), CSBP (r = 0.47, p < 0.01) and RSBP (r = 0.41, p < 0.05), however, there were no significant correlations between the LVMI and ADBP, the DHI, CDBP, RDBP and age. There were significant positive correlations between the A/R and ADBP (r = 0.44, p < 0.01), age (r = 0.40, p < 0.02), CSBP (r = 0.38, p < 0.05) and RDBP (r = 0.38, p < 0.05), however, no significant correlations between the A/R and ASBP, the SHI, DHI, RSBP and CDBP. Only a weak correlation was observed in all subjects between the LVMI and A/R, which was slightly improved by use of > 90 mmHg CSBP readings (r = 0.32). It was concluded that LVH is related mainly to continuous systolic hypertension, and that LV diastolic dysfunction is related mainly to continuous diastolic hypertension. Therefore, it was suggested that LVH and LV diastolic dysfunction in hypertensive patients are caused by different mechanisms.     

Comparison of two indices of arterial distensibility: temporal apparitions of Korotkoff sounds and pulse wave velocy. A Doppler echocardiography and ambulatory blood pressure monitoring study

Arterial distensibility, one of the factors influencing afterload, plays a role in the development of left ventricular hypertrophy. The QKd, the delay before the perception of the Korotkoff sounds, is an index of arterial distensibility available from ambulatory blood pressure monitoring. The pulse wave velocity (PWV), another index of arterial distensibility, can be measured by Doppler echocardiography. The aim of this study was to compare these two indices with haemodynamic parameters of arterial distensibility and to determine their relationship to left ventricular geometry and function. Sixty-two consecutive patients, with and without cardiac disease, underwent simultaneous Doppler echocardiography and ambulatory blood pressure monitoring. A correlation was observed between QKd and PWV (N = 53, p = 0.007, r = 0.37). The QKd and PWV were correlated to the absolute index of arterial distensibility (systolic index/pulse pressure) (N = 51, p < 0.001, r = 0.48). QKd was correlated with indices of left ventricular function such as EF (N = 55, p < 0.001, r = 0.66) or the systolic pressure/end systolic dimension ratio (N = 54, p < 0.001, r = 0.75). When the ejection time was subtracted from QKd, only the end systolic pressure/end systolic dimension remained significantly correlated (N = 37, p = 0.005, r = 0.40). The authors conclude that PWV and QKd were correlated and were also correlated with indices of arterial distensibility. QKd is a composite index of left ventricular function and arterial distensibility. Doppler echocardiography and ambulatory blood pressure monitoring provide a non-invasive assessment of the aorta/LV couple.     

Determinants of left atrial size in patients with newly diagnosed untreated hypertension

The present study determined the relationships between ambulatory blood pressure, left ventricular mass, body mass index, and other clinical and demographic variables to left atrial size in previously untreated hypertensive and normotensive subjects. Left atrial size was measured uni-dimensionally using M-mode echocardiography in 58 newly diagnosed never-treated hypertensive patients (office blood pressure 149/96 +/- 15/7 mmHg) and 28 normotensive control subjects (office blood pressure, 122/78 +/- 8/8 mmHg). Left ventricular mass, septal and posterior wall thickness were significantly increased in hypertensive compared to normotensive subjects (230 +/- 63 g versus 181 +/- 45 g, 1.1 +/- 0.2 cm versus 0.94 +/- 0.2 cm, and 1.04 +/- 0.2 cm versus 0.92 +/- 0.2 cm respectively; all p < 0.001). Left ventricular internal diameter (4.9 +/- 0.6 versus 4.8 +/- 0.4 cm, = 0.54) and left atrial size (3.74 +/- 0.48 versus 3.70 +/- 0.34 cm, p = 0.86) were not different between the two groups respectively. Body mass index, weight, left ventricular mass, wall thickness, and 24-h pulse pressure were significant correlates of left atrial size in the entire group and in the hypertensive subgroup. In the normotensive subgroup, body weight, body mass index, 24-h systolic and pulse pressure, and left ventricular mass were significant correlates. Multiple regression analyses in the entire group and the hypertensive subgroup alone showed that body mass index and left ventricular mass were the two best predictors of left atrial dimension. These data demonstrate that body mass index and left ventricular mass were the main correlates of left atrial size in patients with previously untreated stage I-II hypertension.     

White-coat effect in normotension and hypertension

OBJECTIVES: The difference between clinic and daytime ambulatory blood pressure is referred to as the white-coat effect. In this study, we investigated (i) the magnitude of the white-coat effect in subjects with different daytime ambulatory blood pressure levels, and (ii) the association of the white-coat effect with left ventricular mass. METHODS: A total of 1581 subjects underwent clinic blood pressure readings, 24-h ambulatory blood pressure monitoring and left ventricular echocardiographic assessment. Their mean daytime systolic blood pressure varied from 88.0 to 208.9 mmHg and their mean daytime diastolic blood pressure from 40.3 to 133.0 mmHg. RESULTS: A negative correlation was found between the systolic or diastolic white-coat effect and the systolic or diastolic daytime ambulatory blood pressure (r = -0.22, P < 0.000 and r = -0.50, P < 0.000, respectively). Left ventricular mass significantly correlated with ambulatory blood pressure (P < 0.001), but there was no association between left ventricular mass and clinic blood pressure or white-coat effect. Furthermore, the white-coat effect was reversed at the highest level of systolic or diastolic daytime ambulatory blood pressure (systolic over 170 mmHg or diastolic over 100 mmHg) when systolic or diastolic daytime ambulatory blood pressure was higher than systolic or diastolic clinic blood pressure (ambulatory blood pressure hypertension). CONCLUSIONS: The white-coat effect shows an inverse association with daytime ambulatory blood pressure level (systolic or diastolic), being significantly more prominent for levels below 140/80 mmHg for systolic/diastolic daytime ambulatory blood pressure and reversed with daytime ambulatory blood pressure levels above 170/100 mmHg.     

Relations of ambulatory blood pressure level and variability to left ventricular and arterial function and to left ventricular mass in normotensive and hypertensive adults

OBJECTIVE: To assess the relationships between the level and variability of ambulatory blood pressure and left ventricular and arterial function. METHOD: We related 24 h ambulatory systolic blood pressure (SBP) and diastolic blood pressure (DBP), measures of their variability and clinic blood pressures to echocardiographic measures of left ventricle geometry and systolic function, total peripheral resistance, and the pulse pressure: stroke volume ratio as a measure of arterial stiffness in 58 normotensive and 222 unmedicated hypertensive adults. RESULTS: For hypertensive patients and for the entire population, awake and home ambulatory as well as technician-measured DBP were negatively related to left ventricle midwall fractional shortening (MWS) and to MWS as a percentage of the value predicted for end-systolic stress (afterload-corrected MWS), with inconsistent relations with SBP. Similarly, the SD and coefficient of variation of awake ambulatory DBP, but not SBP, were negatively related to both measures of left ventricle midwall function. Hypertensive patients in the lowest quintile of afterload-corrected MWS had similar physician-measured but higher ambulatory awake and home as well as technician-measured DBP, but not SBP, and higher SD of awake SBP and DBP than did those with higher afterload-corrected MWS. Ambulatory awake, home, and sleep as well as technician-measured DBP, but not SBP, were positively related to total peripheral resistance at rest whereas all components of ambulatory SBP, but not DBP, were positively related to the resting p;ulse pressure: stroke index ratio, a measure of arterial stiffness. We detected no relation between the nocturnal dip in blood pressure and any measure of left ventricular or arterial function or left ventricle geometry. Finally, left ventricle mass and relative wall thickness were related most strongly to awake and home ambulatory SBP whereas left ventricular relative wall thickness was also related to the SD of awake DBP. CONCLUSION: For this population of predominantly hypertensive unmedicated adults, ambulatory blood pressures during waking hours and at home were related to left ventricular and arterial function, the strongest relations being negative ones of DBP with left ventricular midwall function and positive ones of ambulatory DBP with peripheral resistance and ambulatory SBP with a measure of arterial stiffness. For this population the nocturnal dip of blood pressure was not related to measures either of cardiovascular function or of left ventricular structure.     

Relation between exercise-induced hypertension and sustained hypertension in adult patients after successful repair of aortic coarctation

OBJECTIVES: To investigate whether exercise-induced hypertension in successfully repaired adult post-coarctectomy patients is associated with hypertension on 24-h blood pressure measurement and increased left ventricular mass. METHODS: One hundred and forty-four consecutive post-coarctectomy patients (mean age 31.5 years, range 17-74 years; mean age at repair 7.9 years, range 0-45 years) from three tertiary referral centres were studied using ambulatory blood pressure monitoring, treadmill exercise testing and echocardiography. RESULTS: Of the 144 patients, 27 (19%) were known to have sustained hypertension, based on their history, and all were on antihypertensive medication. However, 32 (27%) of the remaining 117 patients showed elevated mean daytime systolic blood pressure readings at 24-h ambulatory blood pressure monitoring (systolic blood pressure > or = 140 mmHg). Of the remaining 85 patients with normal mean daytime systolic blood pressure, 18 patients (21%) had exercise-induced hypertension (maximal exercise systolic blood pressure > 200 mmHg). Mean daytime systolic blood pressure was higher in the exercise-induced hypertensive patients compared to the normotensive patients with normal exercise blood pressure (134 +/- 5 versus 129 +/- 7 mmHg, P = 0.008). By multivariate analysis, both maximal exercise systolic blood pressure (P = 0.007) and resting systolic blood pressure (P < 0.0001) were independently associated with mean daytime systolic blood pressure. Maximal exercise systolic blood pressure had no independent predictive value for left ventricular mass (P = 0.132). CONCLUSIONS: In adult post-coarctectomy patients, maximal exercise systolic blood pressure is independently associated with mean daytime systolic blood pressure at ambulatory blood pressure monitoring. In this study no independent predictive value of maximal exercise systolic blood pressure for left ventricular mass could be demonstrated.     

Blood pressure pattern importance in the development of left ventricular hypertrophy in hypertension.

Heterogeneous results regarding correlations between blood pressure, (measured by various methods and in different conditions), and left ventricular mass in arterial hypertension have been reported. Fifty-three essential hypertensives, I-II WHO stage, have been studied in order to verify the relationship between office and average 24-hour blood pressure, and its day- and night-time pattern with left ventricular hypertrophy. All patients had newly diagnosed essential hypertension, and no subject had received any antihypertensive therapy before entry. The subjects underwent 24-hour blood pressure monitoring, evaluating the average of 24 hours, day- and night-time blood pressures, and M-mode echocardiography. Neither subjects with nor without left ventricular hypertrophy showed correlations between office blood pressure and left ventricular mass. On the contrary, average 24-hour systolic and diastolic blood pressure resulted related to left ventricular mass (r = 0.36 and 0.40, p less than 0.01 respectively). Furthermore, in the subgroup with left ventricular hypertrophy, left ventricular mass was correlated directly with nocturnal systolic blood pressure (r = 0.46) and inversely with the rate of nocturnal decrease in systolic pressure (r = -0.60, p less than 0.01). These results appear to confirm the usefulness of 24-hour blood pressure monitoring in evaluating cardiac afterload in essential hypertension, and the important role that the 24-hour systolic pressure has in the development of left ventricular hypertrophy in these subjects.     

Blood pressure measurement in haemodialysis patients

Several studies suggest that the 24 hour ambulatory blood pressure monitoring (ABPM) predicts left ventricular hypertrophy more accurately than conventional blood pressure measurement (CBPM) with mercury sphygmomanometer. We estimated the left ventricular mass by M-mode echocardiography in 58 patients on regular haemodialysis treatment during the midweek haemodialysis (HD) interval. ABPM was recorded during the 24 hours preceding the dialysis session and the average of values were compared with the average of the 13 pre HD CBPM recorded by nurses during the month preceding the echocardiography study. The two types of BP measurements correlated significantly with each other, (systolic BP r=0.62; p < 0.001 and diastolic BP r=0.74; p < 0.001). The correlation of left ventricular mass with pre-HD systolic BP was stronger (r=0.54; p < 0.001) than with 24h-systolic BP (r=0.33; p<0.01). The overall accuracy of prediction was also similar (68% for pre HD-CBPM; 67% for 24h-ABPM). Measurements of diastolic BP did not correlate significantly with LVM. Our data suggest that 24h-ABPM does not offer any advantage over pre HD-CBPM in predicting left ventricular hypertrophy in HD patients     

Prevalence and determinants of left ventricular diastolic filling abnormalities in an unselected hypertensive population

The independent contribution of age, sex, duration of hypertension, heart rate, clinic and ambulatory blood pressure and echocardiographic left ventricular mass to left ventricular diastolic filling abnormalities in essential hypertension was investigated in 250 subjects (145 untreated and unselected hypertensives and 105 healthy normotensive controls) undergoing Doppler and standard echocardiography and non-invasive 24-h ambulatory blood pressure monitoring. Late and early diastolic transmitral peak flow velocities and their ratio (all P less than 0.01), the rate of deceleration of early diastolic mitral flow (P less than 0.01) and the time of deceleration of early diastolic mitral flow (P = 0.018) were abnormal in the hypertensive group vs controls. None of these parameters significantly varied in the presence vs absence of LV hypertrophy. In the hypertensive group, the prevalence of abnormal age-corrected Doppler values varied up to 46% (up to 45.4% and 50% in the absence and presence of left ventricular hypertrophy, respectively; P = n.s.). In a stepwise multivariate regression analysis, age and average daytime or night-time ambulatory blood pressure showed a significant independent relationship with each of these Doppler indexes of left ventricular diastolic filling. Late transmitral peak flow velocity and the ratio of late to early peak flow velocity were also independently affected by the heart rate. Sex, duration of hypertension, clinic systolic and diastolic blood pressure and left ventricular mass index did not show any independent relationship to these Doppler parameters of left ventricular filling. In conclusion, Doppler abnormalities of diastolic transmitral blood flow were detected in up to 46% of patients in an unselected hypertensive population with a low prevalence (14.5%) of left ventricular hypertrophy. Age and ambulatory blood pressure, but not sex, duration of hypertension, clinic blood pressure and left ventricular mass itself, were the major independent determinants of these abnormalities.