SummaryBackground and objectives Heart disease is a major cause of death in young adults with chronic kidney disease (CKD). Left ventricular hypertrophy (LVH) is common and is associated with hypertension. The aims of this study were to evaluate whether there is a relationship between LVH and BP in children with CKD and whether current targets for BP control are appropriate.Design, setting, participants, & measurements In this single-center cross-sectional study, 49 nonhypertensive children, (12.6 Ϯ 3.0 years, mean GFR 26.1 Ϯ 12.9 ml/min per 1.73 m 2 ) underwent echocardiographic evaluation and clinic and 24-hour ambulatory BP monitoring. LVH was defined using age-specific reference intervals for left ventricular mass index (LVMI). Biochemical data and clinic BP for 18 months preceding study entry were also analyzed.
ResultsThe mean LVMI was 37.8 Ϯ 9.1 g/m 2.7 , with 24 children (49%) exhibiting LVH. Clinic BP values were stable over the 18 months preceding echocardiography. Patients with LVH had consistently higher BP values than those without, although none were overtly hypertensive (Ͼ95th percentile). Multiple linear regression demonstrated a strong relationship between systolic BP and LVMI. Clinic systolic BP showed a stronger relationship than ambulatory measures. Of the confounders evaluated, only elemental calcium intake yielded a consistent, positive relationship with LVMI.Conclusions LVMI was associated with systolic BP in the absence of overt hypertension, suggesting that current targets for BP control should be re-evaluated. The association of LVMI with elemental calcium intake questions the appropriateness of calcium-based phosphate binders in this population.
Different methods of indexation have a profound influence on the categorization of children with respect to LVH. This will have a major impact on the number of patients who are treated as per current guidelines especially in high-risk groups.
Chronic kidney disease (CKD) is associated with elevated cardiovascular risk even during childhood. Tissue Doppler is a sensitive technique for the assessment of ventricular dysfunction with relatively little data available in children with CKD. We report a prospective cross-sectional echocardiographic study at a tertiary center. Forty-nine patients with median (range) age 11.2 years (6.9-17.9), weight 39.6 kg (23.6-99.7) and height 146 cm (122-185). Thirty-one patients were male. Median duration of follow-up for CKD was 7.1 years (range 0.13-16.9). Patients were in CKD stage 3 (n = 37) or 4 (n = 12). Mitral valve E-wave, A-wave, and E/A ratio showed mean (SD) z-scores of 0.08 (0.93), 0.12 (0.82) and -0.13 (0.84), respectively. Tissue Doppler imaging (TDI) at the lateral mitral valve annulus showed e', a', s', and E/e' z-scores mean (SD) -1.10 (0.76), -0.29 (0.92), -1.2 (0.7), and 0.86 (1.1), respectively. There was a significant negative correlation of e' and s' z-score with patient age. E/e' ratio correlated positively with patient age. Blood pressure, left ventricular mass, and relative wall thickness did not correlate with tissue Doppler measurements. The e' and s' velocities correlated significantly with each other, suggesting an interaction of systolic and diastolic dysfunction. Children with CKD may have abnormalities of systolic and diastolic ventricular function on TDI, which are not evident on blood pool Doppler. The tissue Doppler results are consistent with worsening ventricular function in older patients.
In children, the standard 12-lead electrocardiogram has low sensitivity and low NPV for detecting LVH. These findings are relevant for physiological LVH and should not be extrapolated to detection of hypertrophic cardiomyopathy. In clinical practice, ECHO alone should be used to exclude LVH.
The micro multiplane transoesophageal echocardiogram probe provides imaging of diagnostic quality in neonates. In larger patients, it offers good imaging of near field structures. In the intermediate-sized child (10-30 kilograms), standard paediatric probes provide better imaging.
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