4 results
Tissue Doppler imaging in rheumatic carditis
- Tugcin Bora Polat, Yalim Yalcin, Abdullah Erdem, Cenap Zeybek, Celal Akdeniz, Ahmet Celebi
-
- Journal:
- Cardiology in the Young / Volume 24 / Issue 2 / April 2014
- Published online by Cambridge University Press:
- 14 March 2008, pp. 359-365
-
- Article
- Export citation
-
Objective
Our study was undertaken to assess cardiac functions by tissue Doppler echocardiography in patient with primary episode of rheumatic carditis.
MethodsWe divided 82 patients with rheumatic carditis were divided in two groups; 50 patients with mild and 32 patients with mitral regurgitation of grade two or more. A control group consisted of 30 healthy children free of any disease. All children underwent conventional and tissue Doppler echocardiography initially and at the time of the follow-up examination.
ResultsMyocardial systolic wave velocity of the mitral annulus was significantly higher in patients with mitral regurgitation of grade two or more when compared to the control group, but was not different between patients with mild mitral regurgitation and healthy subjects at the time of the initial attack. Myocardial precontraction time, myocardial contraction time, and the ratio of myocardial precontraction and contraction times were significantly prolonged, and the systolic myocardial velocity of the mitral annulus was significantly decreased in patients with mitral regurgitation of grade two or more at the time of the follow-up examination. The myocardial systolic wave velocity was significantly lower, and myocardial precontraction time, myocardial contraction time, and the ratio of the precontraction and contraction times, were significantly longer or greater between patients with grade two or more mitral regurgitation and the control group at follow-up examination.
ConclusionWe detected subclinical systolic dysfunction of the left ventricle in children with a primary episode of rheumatic carditis due to ongoing ventricular volume overload. Tissue Doppler imaging provides a quantifiable indicator useful for cardiac monitoring of disease during the period of follow up.
The use of basic parameters for monitoring the haemodynamic effects of midazolam and ketamine as opposed to propofol during cardiac catheterization
- Ayse Baysal, Tugcin Bora Polat, Yalim Yalcin, Ahmet Celebi
-
- Journal:
- Cardiology in the Young / Volume 24 / Issue 2 / April 2014
- Published online by Cambridge University Press:
- 06 February 2008, pp. 351-358
-
- Article
- Export citation
-
Objective
Our aim is to compare the haemodynamic and adverse effects of propofol versus the mixture of midazolam and ketamine as used in sedation for cardiac catheterization in children.
MethodsIn a prospective randomized trial, we divided patients needing sedation into 72 receiving a mixture of midazolam and ketamine and 42 receiving propofol. Their ages ranged from 6 months to 12 years, and 1 year to 16 years, respectively. We collected data relative to heart rate, mean arterial pressure, respiratory rate, peripheral saturations of oxygen, and adverse effects. We assessed cyanotic patients to establish any relationship between the haemodynamic data and peripheral arterial saturations of oxygen.
ResultsDemographic data, including age, gender, and weight, was not statistically different between the groups. In those receiving midazolam and ketamine, mean systemic arterial pressures before, and 30 minutes after, sedation were 64.3, with standard deviation of 9.8, and 62.5, with standard deviation of 10.2, millimetre of mercury (p equals to 0.237). Heart rates were 131.3, with standard deviation of 13.5, and 109.2, with standard deviation of 17.3 beats per minute, (p less than 0.001) whereas in those given propofol the comparable values were 71.2, with standard deviation of 14.4, and 53.6 with standard deviation of 9.7 millimetres of mercury (p less than 0.001), and 115.2, with standard deviation of 13.6, and 100.5 with standard deviation of 20.1 beats per minute (p less than 0.01), respectively. Mean systemic arterial pressures in the subgroups of cyanotic patients before and 30 minutes after sedation were 74.8, with standard deviation of 14.6, and 72.7, with standard deviation of 12.4 millimetres of mercury for those receiving midazolam and ketamine (p equals to 0.544), and heart rates were 119.3, with standard deviation of 12.2, and 104.6 with standard deviation of 16.1 beats per minute (p equals to 0.001). In those given propofol, the comparable values were 71.1 with deviation of 15.5 and 53.9 with deviation of 9.2 millimetres of mercury (p equals to 0.001), and 126.7 with deviation of 20.8 and 107.2 with deviation of 13.5 beats per minute (p equals to 0.001), respectively.
ConclusionsIn cyanotic children, propofol used as a sedative agent during cardiac catheterization causes a decrease in mean arterial pressure and arterial desaturation. Ketamine produces more stable haemodynamic data in children with congenitally malformed hearts.
Can analysis of the bispectral index prove helpful when monitoring titration of doses of midazolam and ketamine for sedation during paediatric cardiac catheterization
- Ayse Baysal, Tugcin Bora Polat, Yalim Yalcin, Ahmet Celebi
-
- Journal:
- Cardiology in the Young / Volume 18 / Issue 1 / February 2008
- Published online by Cambridge University Press:
- 20 December 2007, pp. 51-57
-
- Article
- Export citation
-
Objective
We investigated the use of the bispectral index for monitoring sedation during cardiac catheterization. The scores for the bispectral index may not reflect correct values in children, but may be helpful during titration of sedatives such as midazolam and ketamine.
MethodsWe conducted a prospective randomized clinical trial in 126 patients scheduled for cardiac catheterization in a teaching hospital. They ranged in age from 4 months to 15 years. In 66 patients, sedation was performed without use of the bispectral index, while the index was used in the other 60 patients. The data collected included heart rate, mean arterial pressure, respiratory rate, saturation of oxygen, amount of sedatives, awakening time and adverse effects. We subdivided the patients into age-related groups for each parameter.
ResultsThe demographic data were not statistically different. Monitoring with the bispectral index in those aged from 1 to 3 years revealed use of lower doses of midazolam, at 2.09 mg per kg per hr, with standard deviation of 0.36, and similarly lowers doses of ketamine, at 2.07 mg per kg per hr, with standard deviation of 0.22, the values in those not monitored being 2.93, with standard deviation of 0.45, and 2.96 with standard deviation of 0.51 respectively, these difference being statistically significant (p = 0.001 and p = 0.04, respectively). In those aged from 3 to 6 years of age, dosage of midazolam was 2.09, with deviation of 0.36, and of ketamine 1.78, with deviation of 0.27, following use of the bispectral index, compared to 2.89 with deviation of 0.28, and 2.62 with deviation of 0.69 respectively, when the bispectral index was not used, these again being significant differences (p = 0.033 and p = 0.04). The requirements for respiratory support and adverse effects were also significantly lower when using the bispectral index (p less than 0.05). No significant difference was found regarding dosages at the ages of 4 months to 1 year, and 6 to 15 years. The awakening time, however, was shorter with use of the index in those aged from 1 to 6 years.
ConclusionsWhen using the bispectral index for monitoring sedation during catheterization in children, we noted decreased need for doses of midazolam and ketamine, a lower need for respiratory support and less adverse effects.
QT dispersion in acute rheumatic fever
- Tugcin Bora Polat, Yalim Yalcin, Celal Akdeniz, Cenap Zeybek, Abdullah Erdem, Ahmet Celebi
-
- Journal:
- Cardiology in the Young / Volume 16 / Issue 2 / April 2006
- Published online by Cambridge University Press:
- 22 March 2006, pp. 141-146
-
- Article
- Export citation
-
Background: Disturbances of conduction are well known in the setting of acute rheumatic fever. The aim of this study is to investigate the QT dispersion as seen in the surface electrocardiogram of children with acute rheumatic fever. Methods: QT dispersion was quantitatively evaluated in 88 children with acute rheumatic fever. Patients were divided into two groups based on the absence or presence of carditis. As a control group, we studied 36 healthy children free of any disease, and matched for age with both groups. Repeat echocardiographic examinations were routinely scheduled in all patients at 3 months after the initial attack to study the evolution of valvar lesions. Results: The mean QT dispersion was significantly higher in children with rheumatic carditis. But there was no statistical difference between children without carditis and normal children. Among the children with carditis, the mean dispersion was higher in those with significant valvar regurgitation. Dispersion of greater than 55 milliseconds had a sensitivity of 85%, and specificity of 70%, in predicting rheumatic carditis, while a value of 65 milliseconds or greater had sensitivity of 81% specificity of 85% in predicting severe valvar lesions in acute rheumatic carditis. At follow-up examination, a clear reduction on the QT dispersion was the main finding, reflecting an electrophysiological improvement. Conclusions: These observations suggest that QT dispersion is increased in association with cardiac involvement in children with acute rheumatic fever.