The aim of this study was to evaluate the impact of caffeine treatment, given either orally or intravenously, on heart rate variability in newborns. In addition, the investigators sought for a potential association between caffeine treatment and vital functions.
At Neonatal Department of University Medical Centre Ljubljana caffeine is used to treat neonatal apnoea. It has known affects on central nervous and cardiovascular systems, but little is known about the impact of caffeine intake on heart rate variability (HRV) in newborns. In this study, the investigators performed measurements on one sample of 25 newborns with apnoea who had been admitted to the Neonatal Department of University Medical Centre Ljubljana and treated with caffeine citrate. The treatment regimen consisted of caffeine citrate of a loading dose of 20 mg/kg of body mass, followed by a daily maintenance dose of 5 mg/kg after 24 hours. The investigators measured parameters of HRV in two situations: while the treatment with caffeine citrate was ongoing and after the treatment was withdrawn. The newborns served as controls. Electrical activity of the heart was measured with a Holter ECG while the newborn was sleeping in supine position, first without a bed tilt and afterwards with a 30° head-up tilt. Simultaneously was evaluated the alertness of the newborn and measured their physiological variables (the breathing frequency, the heart rate, the arterial oxygen saturation, and the body temperature). All parents were given their written consent for their child to participate in the study.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
25
Recording of the electrical activity of the heart during sleep; sleep phases were evaluated. The bed was initially in horizontal position and tilted for 30° head-up after 20 minutes of continuous tracing.
Measuring of heart rate, breathing frequency, arterial oxygen saturation and body temperature while recording ECG.
Caffeine in the form of suspension was given to the newborns.
University Medical Centre Ljubljana
Ljubljana, Slovenia
Association between caffeine treatment and total power (TP) spectrum of HRV
While the newborn was sleeping, the electrical activity of the heart was recorded by using ECG Holter. TP (ms2) was obtained from a suitable 5-minute ECG segment analysed by fast Fourier transform, using the Vision Premier Programme for each bed tilt. The values were compared across the two arms of the study, using student's t-test for comparisons of normally distributed variables, and Wilcoxon signed-rank test for abnormally distributed data.
Time frame: During Procedure
Association between caffeine treatment and high frequency (HF) spectrum of HRV
While the newborn was sleeping, the electrical activity of the heart was recorded by using ECG Holter. HF (ms2) was obtained from a suitable 5-minute ECG segment analysed by fast Fourier transform, using the Vision Premier Programme for each bed tilt. The values were compared across the two arms of the study, using student's t-test for comparisons of normally distributed variables, and Wilcoxon signed-rank test for abnormally distributed data.
Time frame: During Procedure
Association between caffeine treatment and low frequency (LF) spectrum of HRV
While the newborn was sleeping, the electrical activity of the heart was recorded by using ECG Holter. LF (ms2) was obtained from a suitable 5-minute ECG segment analysed by fast Fourier transform, using the Vision Premier Programme for each bed tilt. The values were compared across the two arms of the study, using student's t-test for comparisons of normally distributed variables, and Wilcoxon signed-rank test for abnormally distributed data.
Time frame: During Procedure
The correlation between postmenstrual age and total power (TP) spectrum of HRV
While the newborn was sleeping, the electrical activity of the heart was recorded by using ECG Holter. TP (ms2) was obtained from a suitable 5-minute ECG segment analysed by fast Fourier transform, using the Vision Premier Programme for each bed tilt. The correlation between HRV parameters and postmenstrual age was tested with the Pearson correlation coefficient.
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Time frame: During Procedure
The correlation between postmenstrual age and high frequency (HF) spectrum of HRV
While the newborn was sleeping, the electrical activity of the heart was recorded by using ECG Holter. HF (ms2) was obtained from a suitable 5-minute ECG segment analysed by fast Fourier transform, using the Vision Premier Programme for each bed tilt. The correlation between HRV parameters and postmenstrual age was tested with the Pearson correlation coefficient.
Time frame: During Procedure
The correlation between postmenstrual age and low frequency (LF) spectrum of HRV
While the newborn was sleeping, the electrical activity of the heart was recorded by using ECG Holter. LF (ms2) was obtained from a suitable 5-minute ECG segment analysed by fast Fourier transform, using the Vision Premier Programme for each bed tilt. The correlation between HRV parameters and postmenstrual age was tested with the Pearson correlation coefficient.
Time frame: During Procedure
The effect of caffeine on heart rate
Heart rate (beats per minute) was obtained from the segments, recorded by ECG Holter and analysed by the Vision Premier Programme. The selected segments corresponded to the segments HRV parameters were obtained for each bed tilt. The values were compared across the two arms of the study.
Time frame: During Procedure
The effect of caffeine on breathing frequency
Breathing frequency (breaths per minute) was determined manually by observing the chest movement. The measurement was performed three times while the newborn was sleeping for each bed tilt. The values were compared across the two arms of the study.
Time frame: During Procedure
The effect of caffeine on arterial oxygen saturation
Arterial oxygen saturation (percent) was performed by a pulse oximeter attached to the right hand. The arterial oxygen saturation value was noted three times with the corresponding breathing frequency while the newborn was sleeping for each bed tilt. The values were compared across the two arms of the study.
Time frame: During Procedure
The effect of caffeine on body temperature
Body temperature (degree Celsius) was measured by a frontal non-contact infrared thermometer three times for each bed tilt while the newborn was sleeping. The values were compared across the two arms of the study.
Time frame: During Procedure