OBJECTIVE -This study was designed to assess whether children and adolescents with type 1 diabetes have early echocardiographic signs of subclinical cardiac dysfunction and whether sex, state of metabolic control, and diabetes duration are of influence.RESEARCH DESIGN AND METHODS -Systolic and diastolic blood pressure in supine and upright positions and echocardiographic parameters, including tissue Doppler measurements of the septal mitral annulus, were evaluated in 80 children and adolescents with stable type 1 diabetes and 52 age-and sex-matched control subjects. A possible correlation was examined for age, sex, HbA 1c , and diabetes duration with univariate and multivariate regression analysis. 58 Ϯ 8 ms) compared with female control subjects, suggesting delayed myocardial relaxation. Male diabetic patients only differed significantly from their control subjects for IVRT (66 Ϯ 9 vs. 59 Ϯ 8 ms). The measured parameters showed an expected correlation with age and BMI standard deviation scores in the control group. This correlation was significantly weaker in the diabetic population; only a weak influence was found for diabetes duration and glycosylated hemoglobin levels. RESULTSCONCLUSIONS -Young diabetic patients already have significant changes in left ventricular dimensions and myocardial relaxation, with the girls clearly being more affected. Tissue Doppler proved to have additional value in the evaluation of ventricular filling in this population. Almost no correlation was found for diabetes duration and HbA 1c with the cardiovascular changes. Diabetes Care 27:1947-1953, 2004S everal studies have established diabetes as a strong risk factor for cardiovascular morbidity and mortality, especially in women (1-4). This increased risk cannot be explained only by the high prevalence of comorbidity, such as coronary heart disease or arterial hypertension in diabetes (5). Therefore, the existence of a "diabetic" cardiomyopathy distinct from ischemic heart disease has been suggested to cause systolic or diastolic dysfunction (1,6,7). Considerable debate exists regarding the exact nature and cause of this cardiac dysfunction (8 -11). The autonomic nervous system dysfunction explains the frequently reported higher heart rate in diabetic patients compared with normal subjects and may result in changed cardiac dynamics (12,13). We previously reported that corrected QT prolongation and an increased QT dispersion are already present in children with diabetes (14), and these abnormalities have been linked to an increased mortality rate in adults (15). Adult diabetic patients without clinical heart failure are reported to have hypertrophic and noncompliant left ventricles, causing essentially diastolic dysfunction (16 -20). The association between these findings and metabolic control or diabetes duration is controversial (21,22). The aim of this study was to determine whether echocardiographic signs of diastolic or systolic dysfunction are already present in diabetic children and adolescents, a population in whom comorbid...
Abstract. The Wheezing Illnesses Study Leidsche Rijn (WHISTLER) was initiated in December 2001 as a single-centre prospective birth cohort study and will include a population-based sample of at least 2000 healthy newborns. The aims of WHISTLER are to investigate determinants for wheezing illnesses (including neonatal lung function, viral infections, asthma-susceptibility genes and endotoxin exposure) and to derive a comprehensive risk score, that is appropriate for use in primary health care and allows for efficient planning of early preventive strategies. Baseline examination includes a questionnaire evaluating known risk factors for wheezing illnesses; anthropometric measurements; measurements of infant and parental lung function; and sampling of infant and parental DNA. Participants will be followed for respiratory events using data from a daily respiratory symptom questionnaire; visits to the general practitioner (primary health care visits, drugs prescriptions and hospital referral); viral sampling during wheezing episodes; and house dust sampling. Based on actual neonatal care practice and embedded in a larger epidemiological study, the Utrecht Health Project, WHISTLER will provide an unique framework to address issues in childhood respiratory disease that are currently insufficiently understood. In particular, WHISTLER will provide a well-balanced view on the prognostic power of neonatal lung function and genetic and environmental factors (including viral infections and endotoxin exposure) to predict wheezing illnesses from birth to young adulthood and beyond. In the scope of prevention, WHISTLER is expected to support the design of solid based prevention measures to reduce respiratory morbidity, mortality and associated costs, and to improve quality of life.
Child and parent characteristics, besides complaints per se, play an important role in health care utilization for respiratory illnesses in infancy.
The single occlusion technique (SOT) is a simple and noninvasive technique for measurement of passive respiratory mechanics in infants. Reference values based on measurements of a large population of healthy infants performed outside specialized research laboratories are lacking. The aim of this study was to present reference values for passive respiratory mechanics based on a large population of healthy term neonates and infants measured during natural sleep in routine care. As part of the ongoing Wheezing Illnesses Study Leidsche Rijn (WHISTLER), the compliance (C(rs)) and resistance (R(rs)) of the respiratory system were measured in 450 healthy unsedated neonates and infants with a mean age of 4.6 +/- 1.3 weeks. Multivariable regression analysis, with gestational age, age at measurement, body size, sex, and ethnicity as possible predictors, was carried out to estimate prediction equations for mean C(rs) and R(rs) values. Technically acceptable lung function measurements could be performed in 328 (73%) neonates and infants. Median C(rs) was 39.5 (range 14.8-79.1) ml/kPa and median R(rs) was 7.4 (range 3.8-19.5) kPa/L/sec. The following regression equations for C(rs) and R(rs) were obtained: ln C(rs) = 1.677 + 1.3 x 10(-4) x birth weight (g) + 0.030 x birth length (cm) and ln R(rs) = 2.496-3.1 x 10(-6) x birth length(3) (cm(3)) - 0.114 x sex. We provided reference values for passive respiratory mechanics using the SOT in a large population of healthy term neonates and infants measured during natural sleep. These data provide a frame of reference for assessing the normality of SOT measurements performed in routine care.
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