Outcome
| Type |
Measure |
Description |
Time frame |
Safety issue |
| Other |
Deceleration capacity (DC) during 5 minutes before anesthesia induction |
The quasi-periodic decelerations in short-term heart rate are calculated using a phase-rectified signal averaging technique. The calculated deceleration (deceleration capacity: DC) represents parasympathetic nervous activity. |
5 minutes before anesthesia induction |
|
| Other |
Deceleration capacity (DC) during 5 minutes after anesthesia induction |
The quasi-periodic decelerations in short-term heart rate are calculated using a phase-rectified signal averaging technique. The calculated deceleration (deceleration capacity: DC) represents parasympathetic nervous activity. |
5 minutes after anesthesia induction |
|
| Other |
Deceleration capacity (DC) during 5 minutes after endotracheal intubation |
The quasi-periodic decelerations in short-term heart rate are calculated using a phase-rectified signal averaging technique. The calculated deceleration (deceleration capacity: DC) represents parasympathetic nervous activity. |
5 minutes after endotracheal intubation |
|
| Other |
Deceleration capacity (DC) during 5 minutes before surgical incision |
The quasi-periodic decelerations in short-term heart rate are calculated using a phase-rectified signal averaging technique. The calculated deceleration (deceleration capacity: DC) represents parasympathetic nervous activity. |
5 minutes before surgical incision |
|
| Other |
Diastolic blood pressure during 5 minutes before anesthesia induction |
Measured at any time during 5 minutes before anesthesia induction |
5 minutes before anesthesia induction |
|
| Other |
Diastolic blood pressure during 5 minutes after anesthesia induction |
Diastolic blood pressure corresponding to the lowest systolic blood pressure during 5 minutes after anesthesia induction |
5 minutes after anesthesia induction |
|
| Other |
Diastolic blood pressure during 5 minutes after endotracheal intubation |
Measured at any time during 5 minutes after endotracheal intubation |
5 minutes after endotracheal intubation |
|
| Other |
Diastolic blood pressure during 5 minutes before surgical incision |
Measured at any time during 5 minutes before surgical incision |
5 minutes before surgical incision |
|
| Primary |
Difference in low-to-high frequency power ratio (LF/HF) of heart rate variability (HRV) between 5-minute-pre-anesthesia and 5-minute-post-anesthesia induction |
Low-frequency power (LF) and high-frequency power (HF) of heart rate variability (HRV) were calculated with the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. LF/HF represents the sympathovagal balance. |
Between 5 minutes before and after anesthesia induction |
|
| Secondary |
Low-frequency power (LF) of heart rate variability (HRV) during 5 minutes before anesthesia induction |
Low-frequency power (LF) of heart rate variability (HRV) were calculated by integrating power spectra between 0.04 and 0.15 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. LF represents the combined sympathetic and parasympathetic modulation of heart rate via baroreceptor reflexes, but is mainly modulated by sympathetic nervous activity. |
5 minutes before anesthesia induction |
|
| Secondary |
Low-frequency power (LF) of heart rate variability (HRV) during 5 minutes after anesthesia induction |
Low-frequency power (LF) of heart rate variability (HRV) were calculated by integrating power spectra between 0.04 and 0.15 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. LF represents the combined sympathetic and parasympathetic modulation of heart rate via baroreceptor reflexes, but is mainly modulated by sympathetic nervous activity. |
5 minutes after anesthesia induction |
|
| Secondary |
Low-frequency power (LF) of heart rate variability (HRV) during 5 minutes after endotracheal intubation |
Low-frequency power (LF) of heart rate variability (HRV) were calculated by integrating power spectra between 0.04 and 0.15 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. LF represents the combined sympathetic and parasympathetic modulation of heart rate via baroreceptor reflexes, but is mainly modulated by sympathetic nervous activity. |
5 minutes after endotracheal intubation |
|
| Secondary |
Low-frequency power (LF) of heart rate variability (HRV) during 5 minutes before surgical incision |
Low-frequency power (LF) of heart rate variability (HRV) were calculated by integrating power spectra between 0.04 and 0.15 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. LF represents the combined sympathetic and parasympathetic modulation of heart rate via baroreceptor reflexes, but is mainly modulated by sympathetic nervous activity. |
5 minutes before surgical incision |
|
| Secondary |
High-frequency power (HF) of heart rate variability (HRV) during 5 minutes before anesthesia induction |
High-frequency power (HF) of heart rate variability (HRV) were calculated by integrating power spectra between 0.15 and 0.4 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. HF represents the parasympathetic modulation of heart rate in response to respiration. |
5 minutes before anesthesia induction |
|
| Secondary |
High-frequency power (HF) of heart rate variability (HRV) during 5 minutes after anesthesia induction |
High-frequency power (HF) of heart rate variability (HRV) were calculated by integrating power spectra between 0.15 and 0.4 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. HF represents the parasympathetic modulation of heart rate in response to respiration. |
5 minutes after anesthesia induction |
|
| Secondary |
High-frequency power (HF) of heart rate variability (HRV) during 5 minutes after endotracheal intubation |
High-frequency power (HF) of heart rate variability (HRV) were calculated by integrating power spectra between 0.15 and 0.4 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. HF represents the parasympathetic modulation of heart rate in response to respiration. |
5 minutes after endotracheal intubation |
|
| Secondary |
High-frequency power (HF) of heart rate variability (HRV) during 5 minutes before surgical incision |
High-frequency power (HF) of heart rate variability (HRV) were calculated by integrating power spectra between 0.15 and 0.4 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. HF represents the parasympathetic modulation of heart rate in response to respiration. |
5 minutes before surgical incision |
|
| Secondary |
Total power (TP) of heart rate variability (HRV) during 5 minutes before anesthesia induction |
Total power (TP) of heart rate variability (HRV) were calculated by integrating power spectra between 0 and 0.4 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. TP represents the overall activity of the autonomic nervous system. |
5 minutes before anesthesia induction |
|
| Secondary |
Total power (TP) of heart rate variability (HRV) during 5 minutes after anesthesia induction |
Total power (TP) of heart rate variability (HRV) were calculated by integrating power spectra between 0 and 0.4 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. TP represents the overall activity of the autonomic nervous system. |
5 minutes after anesthesia induction |
|
| Secondary |
Total power (TP) of heart rate variability (HRV) during 5 minutes after endotracheal intubation |
Total power (TP) of heart rate variability (HRV) were calculated by integrating power spectra between 0 and 0.4 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. TP represents the overall activity of the autonomic nervous system. |
5 minutes after endotracheal intubation |
|
| Secondary |
Total power (TP) of heart rate variability (HRV) during 5 minutes before surgical incision |
Total power (TP) of heart rate variability (HRV) were calculated by integrating power spectra between 0 and 0.4 Hz, which were obtained from the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. TP represents the overall activity of the autonomic nervous system. |
5 minutes before surgical incision |
|
| Secondary |
Low-to-high-frequency power ratio (LF/HF) of heart rate variability (HRV) during 5 minutes before anesthesia induction |
Low-frequency power (LF) and high-frequency power (HF) of heart rate variability (HRV) were calculated with the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. LF/HF represents the sympathovagal balance. |
5 minutes before anesthesia induction |
|
| Secondary |
Low-to-high-frequency power ratio (LF/HF) of heart rate variability (HRV) during 5 minutes after anesthesia induction |
Low-frequency power (LF) and high-frequency power (HF) of heart rate variability (HRV) were calculated with the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. LF/HF represents the sympathovagal balance. |
5 minutes after anesthesia induction |
|
| Secondary |
Low-to-high-frequency power ratio (LF/HF) of heart rate variability (HRV) during 5 minutes after endotracheal intubation |
Low-frequency power (LF) and high-frequency power (HF) of heart rate variability (HRV) were calculated with the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. LF/HF represents the sympathovagal balance. |
5 minutes after endotracheal intubation |
|
| Secondary |
Low-to-high-frequency power ratio (LF/HF) of heart rate variability (HRV) during 5 minutes before surgical incision |
Low-frequency power (LF) and high-frequency power (HF) of heart rate variability (HRV) were calculated with the Fast Fourier Transform applied to a 5-minute-long electrocardiogram (ECG) waveform. LF/HF represents the sympathovagal balance. |
5 minutes before surgical incision |
|
| Secondary |
Root mean square of the successive differences of the RR intervals (RMSSD) during 5 minutes before anesthesia induction |
RMSSD represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes before anesthesia induction |
|
| Secondary |
Root mean square of the successive differences of the RR intervals (RMSSD) during 5 minutes after anesthesia induction |
RMSSD represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes after anesthesia induction |
|
| Secondary |
Root mean square of the successive differences of the RR intervals (RMSSD) during 5 minutes after endotracheal intubation |
RMSSD represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes after endotracheal intubation |
|
| Secondary |
Root mean square of the successive differences of the RR intervals (RMSSD) during 5 minutes before surgical incision |
RMSSD represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes before surgical incision |
|
| Secondary |
Standard deviation of the RR intervals of normal sinus beats originating from the sinoatrial node of the right atrium (SDNN) during 5 minutes before anesthesia induction |
SDNN represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes before anesthesia induction |
|
| Secondary |
Standard deviation of the RR intervals of normal sinus beats originating from the sinoatrial node of the right atrium (SDNN) during 5 minutes after anesthesia induction |
SDNN represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes after anesthesia induction |
|
| Secondary |
Standard deviation of the RR intervals of normal sinus beats originating from the sinoatrial node of the right atrium (SDNN) during 5 minutes after endotracheal intubation |
SDNN represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes after endotracheal intubation |
|
| Secondary |
Standard deviation of the RR intervals of normal sinus beats originating from the sinoatrial node of the right atrium (SDNN) during 5 minutes before surgical incision |
SDNN represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes before surgical incision |
|
| Secondary |
The percentage of adjacent normal-to-normal sinus beat RR intervals that have a more than 50 milliseconds difference between them (pNN50) during 5 minutes before anesthesia induction |
pNN50 represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes before anesthesia induction |
|
| Secondary |
The percentage of adjacent normal-to-normal sinus beat RR intervals that have a more than 50 milliseconds difference between them (pNN50) during 5 minutes after anesthesia induction |
pNN50 represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes after anesthesia induction |
|
| Secondary |
The percentage of adjacent normal-to-normal sinus beat RR intervals that have a more than 50 milliseconds difference between them (pNN50) during 5 minutes after endotracheal intubation |
pNN50 represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes after endotracheal intubation |
|
| Secondary |
The percentage of adjacent normal-to-normal sinus beat RR intervals that have a more than 50 milliseconds difference between them (pNN50) during 5 minutes before surgical incision |
pNN50 represents the parasympathetic nervous activity mediated by a respiratory sinus arrhythmia. |
5 minutes before surgical incision |
|
| Secondary |
Standard deviation 1 (SD1) of a Poincaré plot during 5 minutes before anesthesia induction |
A Poincaré plot is a scatter plot where each pair of preceding and succeeding RR intervals is plotted on the abscissa and ordinate, respectively. After fitting the ellipse around the plot, SD1 is calculated as the standard deviation of the distance of each point from the line of identity (y=x). SD1 reflects the short-term HRV as the length of the transverse axis of the ellipse. SD1 correlates with the baroreflex sensitivity and HF. |
5 minutes before anesthesia induction |
|
| Secondary |
Standard deviation 1 (SD1) of a Poincaré plot during 5 minutes after anesthesia induction |
A Poincaré plot is a scatter plot where each pair of preceding and succeeding RR intervals is plotted on the abscissa and ordinate, respectively. After fitting the ellipse around the plot, SD1 is calculated as the standard deviation of the distance of each point from the line of identity (y=x). SD1 reflects the short-term HRV as the length of the transverse axis of the ellipse. SD1 correlates with the baroreflex sensitivity and HF. |
5 minutes after anesthesia induction |
|
| Secondary |
Standard deviation 1 (SD1) of a Poincaré plot during 5 minutes after endotracheal intubation |
A Poincaré plot is a scatter plot where each pair of preceding and succeeding RR intervals is plotted on the abscissa and ordinate, respectively. After fitting the ellipse around the plot, SD1 is calculated as the standard deviation of the distance of each point from the line of identity (y=x). SD1 reflects the short-term HRV as the length of the transverse axis of the ellipse. SD1 correlates with the baroreflex sensitivity and HF. |
5 minutes after endotracheal intubation |
|
| Secondary |
Standard deviation 1 (SD1) of a Poincaré plot during 5 minutes before surgical incision |
A Poincaré plot is a scatter plot where each pair of preceding and succeeding RR intervals is plotted on the abscissa and ordinate, respectively. After fitting the ellipse around the plot, SD1 is calculated as the standard deviation of the distance of each point from the line of identity (y=x). SD1 reflects the short-term HRV as the length of the transverse axis of the ellipse. SD1 correlates with the baroreflex sensitivity and HF. |
5 minutes before surgical incision |
|
| Secondary |
Standard deviation 2 (SD2) of a Poincaré plot during 5 minutes before anesthesia induction |
A Poincaré plot is a scatter plot where each pair of preceding and succeeding RR intervals is plotted on the abscissa and ordinate, respectively. After fitting the ellipse around the plot, SD2 is calculated as the standard deviation of the distance of each point from the line passing through the centroid, which vertically intersects the line of identity (y=x). SD2 reflects the long-term HRV as the length of the long axis of the ellipse. SD2 correlates with the baroreflex sensitivity and LF. |
5 minutes before anesthesia induction |
|
| Secondary |
Standard deviation 2 (SD2) of a Poincaré plot during 5 minutes after anesthesia induction |
A Poincaré plot is a scatter plot where each pair of preceding and succeeding RR intervals is plotted on the abscissa and ordinate, respectively. After fitting the ellipse around the plot, SD2 is calculated as the standard deviation of the distance of each point from the line passing through the centroid, which vertically intersects the line of identity (y=x). SD2 reflects the long-term HRV as the length of the long axis of the ellipse. SD2 correlates with the baroreflex sensitivity and LF. |
5 minutes after anesthesia induction |
|
| Secondary |
Standard deviation 2 (SD2) of a Poincaré plot during 5 minutes after endotracheal intubation |
A Poincaré plot is a scatter plot where each pair of preceding and succeeding RR intervals is plotted on the abscissa and ordinate, respectively. After fitting the ellipse around the plot, SD2 is calculated as the standard deviation of the distance of each point from the line passing through the centroid, which vertically intersects the line of identity (y=x). SD2 reflects the long-term HRV as the length of the long axis of the ellipse. SD2 correlates with the baroreflex sensitivity and LF. |
5 minutes after endotracheal intubation |
|
| Secondary |
Standard deviation 2 (SD2) of a Poincaré plot during 5 minutes before surgical incision |
A Poincaré plot is a scatter plot where each pair of preceding and succeeding RR intervals is plotted on the abscissa and ordinate, respectively. After fitting the ellipse around the plot, SD2 is calculated as the standard deviation of the distance of each point from the line passing through the centroid, which vertically intersects the line of identity (y=x). SD2 reflects the long-term HRV as the length of the long axis of the ellipse. SD2 correlates with the baroreflex sensitivity and LF. |
5 minutes before surgical incision |
|
| Secondary |
Mean arterial blood pressure during 5 minutes before anesthesia induction |
Measured at any time during 5 minutes before anesthesia induction |
5 minutes before anesthesia induction |
|
| Secondary |
Mean arterial blood pressure during 5 minutes after anesthesia induction |
Mean arterial blood pressure corresponding to the lowest systolic blood pressure during 5 minutes after anesthesia induction |
5 minutes after anesthesia induction |
|
| Secondary |
Mean arterial blood pressure during 5 minutes after endotracheal intubation |
Measured at any time during 5 minutes after endotracheal intubation |
5 minutes after endotracheal intubation |
|
| Secondary |
Mean arterial blood pressure during 5 minutes before surgical incision |
Measured at any time during 5 minutes before surgical incision |
5 minutes before surgical incision |
|
| Secondary |
Systolic blood pressure during 5 minutes before anesthesia induction |
Measured at any time during 5 minutes before anesthesia induction |
5 minutes before anesthesia induction |
|
| Secondary |
Systolic blood pressure during 5 minutes after anesthesia induction |
The lowest systolic blood pressure during 5 minutes after anesthesia induction |
5 minutes after anesthesia induction |
|
| Secondary |
Systolic blood pressure during 5 minutes after endotracheal intubation |
Measured at any time during 5 minutes after endotracheal intubation |
5 minutes after endotracheal intubation |
|
| Secondary |
Systolic blood pressure during 5 minutes before surgical incision |
Measured at any time during 5 minutes before surgical incision |
5 minutes before surgical incision |
|
| Secondary |
Bispectral index (BIS) during 5 minutes before anesthesia induction |
The BIS value corresponding to blood pressure measured during 5 minutes before anesthesia induction |
5 minutes before anesthesia induction |
|
| Secondary |
Bispectral index (BIS) during 5 minutes after anesthesia induction |
The BIS value corresponding to the lowest systolic blood pressure during 5 minutes after anesthesia induction |
5 minutes after anesthesia induction |
|
| Secondary |
Bispectral index (BIS) during 5 minutes after endotracheal intubation |
The BIS value corresponding to blood pressure measured during 5 minutes after endotracheal intubation |
5 minutes after anesthesia induction |
|
| Secondary |
Bispectral index (BIS) during 5 minutes before surgical incision |
The BIS value corresponding to blood pressure measured during 5 minutes before surgical incision |
5 minutes before surgical incision |
|
