CHRIS Portal

Variables

4291 variables.

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Type

Module	Label	Name	Description	Type
Heart rate variability (CHRIS baseline)	x0ec239	total power (Welch)	Absolute power of the total spectrum, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method, expressed in ms^2	Float
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec24	HRTS regression coefficient / coefficient of determination	HRTS regression coefficient / coefficient of determination	Float
Heart rate variability (CHRIS baseline)	x0ec240	logVLF power (Welch)	Natural logarithm transformed values of VLF band, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method	Float
Heart rate variability (CHRIS baseline)	x0ec241	logLF power (Welch)	Natural logarithm transformed values of LF band, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method	Float
Heart rate variability (CHRIS baseline)	x0ec242	logHF power (Welch)	Natural logarithm transformed values of HF band, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method	Float
Heart rate variability (CHRIS baseline)	x0ec243	logtot power (Welch)	Natural logarithm transformed values of total spectrum power, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method	Float
Heart rate variability (CHRIS baseline)	x0ec244	VLF power (%) (Welch)	Relative power of VLF band, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec245	LF power (%) (Welch)	Relative power of LF band, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec246	HF power (%) (Welch)	Relative power of HF band, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec247	LF power (n.u.) (Welch)	Power of LF band in normalised units, LF [n.u.] = LF [ms2] / (total power [ms2] - VLF [ms2]) x 100%, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method, expressed in n.u	Float
Heart rate variability (CHRIS baseline)	x0ec248	HF power (n.u.) (Welch)	Power of HF band in normalised units, HF [n.u.] = LF [ms2] / (total power [ms2] - VLF [ms2]) x 100%, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method, expressed in n.u.	Float
Heart rate variability (CHRIS baseline)	x0ec249	LF-HF power (Welch)	Ratio between LF and HF band powers, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method	Float
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec25	Correlation coefficient of HRTS (KS)	Correlation coefficient of HRTS (KS)	Float
Heart rate variability (CHRIS baseline)	x0ec250	VLF peak (AR)	Very Low Frequency (VLF) band peak frequency, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in Hz	Float
Heart rate variability (CHRIS baseline)	x0ec251	LF peak (AR)	Low Frequency (LF) band peak frequency, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in Hz	Float
Heart rate variability (CHRIS baseline)	x0ec252	HF peak (AR)	High Frequency (HF) band peak frequency, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in Hz	Float
Heart rate variability (CHRIS baseline)	x0ec253	VLF power (AR)	Absolute power of VLF band, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec254	LF power (AR)	Absolute power of LF band, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec255	HF power (AR)	Absolute power of HF band, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec256	total power (AR)	Absolute power of the total spectrum, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec257	logVLF power (AR)	Natural logarithm transformed values of VLF band, with PSD estimated using parametric autoregressive (AR) modeling method	Float
Heart rate variability (CHRIS baseline)	x0ec258	logLF power (AR)	Natural logarithm transformed values of LF band, with PSD estimated using parametric autoregressive (AR) modeling method	Float
Heart rate variability (CHRIS baseline)	x0ec259	logHF power (AR)	Natural logarithm transformed values of HF band, with PSD estimated using parametric autoregressive (AR) modeling method	Float
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec26	All beats	No. of all beats	Integer
Heart rate variability (CHRIS baseline)	x0ec260	logtot power (AR)	Natural logarithm transformed values of total spectrum power, with PSD estimated using parametric autoregressive (AR) modeling method	Float
Heart rate variability (CHRIS baseline)	x0ec261	VLF power (%) (AR)	Relative power of VLF band, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec262	LF power (%) (AR)	Relative power of LF band, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec263	HF power (%) (AR)	Relative power of HF band, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in ms^2	Float
Heart rate variability (CHRIS baseline)	x0ec264	LF power (n.u.) (AR)	Power of LF band in normalised units, LF [n.u.] = LF [ms2] / (total power [ms2] - VLF [ms2]) x 100%, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in n.u	Float
Heart rate variability (CHRIS baseline)	x0ec265	HF power (n.u.) (AR)	Power of HF band in normalised units, HF [n.u.] = LF [ms2] / (total power [ms2] - VLF [ms2]) x 100%, with PSD estimated using parametric autoregressive (AR) modeling method, expressed in n.u.	Float
Heart rate variability (CHRIS baseline)	x0ec266	LF/HF power (AR)	Ratio between LF and HF band powers, with PSD estimated using parametric autoregressive (AR) modeling method	Float
Heart rate variability (CHRIS baseline)	x0ec267	EDR (ECG Derived Respiration)	EDR (ECG Derived Respiration), expressed in Hz	Float
Heart rate variability (CHRIS baseline)	x0ec268	Poincare SD1	Poincare SD1: in Poincare plot, SD1 represents the standard deviation perpendicular to the line-of-identity	Float
Heart rate variability (CHRIS baseline)	x0ec269	Poincare SD2	Poincare SD2: in Poincare plot, SD2 represents the standard deviation along the line-of-identity	Float
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec27	Unknown beats	No. of unknown beats	Integer
Heart rate variability (CHRIS baseline)	x0ec270	Poincare SD2/SD1	Poincare SD2/SD1: ratio between SD2 and SD1	Float
Heart rate variability (CHRIS baseline)	x0ec271	EnoughData (flag for nonlinear analysis)	EnoughData: boolean variable to flag whether the nonlinear analysis was carried out or not	Boolean
Heart rate variability (CHRIS baseline)	x0ec272	Approximate Entropy	Approximate Entropy: measures the complexity or irregularity of the signal. Large values of ApEn indicate high irregularity and smaller values of ApEn more regular signal	Float
Heart rate variability (CHRIS baseline)	x0ec273	Sample Entropy	Sample Entropy: similar to ApEn, but it presents some differences in the calculation	Float
Heart rate variability (CHRIS baseline)	x0ec274	Correlation Dimension D2	Correlation Dimension D2: it is a method for measuring the complexity or strangeness of the RR series. This index is expected to give information on the minimum number of dynamic variables needed to model the underlying system	Float
Heart rate variability (CHRIS baseline)	x0ec275	DFA alpha1	DFA alpha1: Detrended Fluctuation Analysis measures the correlation within the signal. Slope alpha1 characterizes short-term fluctuations or the RR series	Float
Heart rate variability (CHRIS baseline)	x0ec276	DFA alpha2	DFA alpha2: Detrended Fluctuation Analysis measures the correlation within the signal. Slope alpha2 characterizes long-term fluctuations or the RR series	Float
Heart rate variability (CHRIS baseline)	x0ec277	RPA recurrence rate	RPA recurrence rate: Recurrence Plot Analysis is another approach for analyzing the complexity of the RR series, which consists in creating a symmetrical matrix of zeros and ones. The recurrence rate (REC) is defined as the ratio of ones and zeros in this RP matrix	Float
Heart rate variability (CHRIS baseline)	x0ec278	RPA determinism	RPA determinism: Recurrence Plot Analysis is another approach for analyzing the complexity of the RR series, which consists in creating a symmetrical matrix of zeros and ones. The determinism (DET) is defined as the percentage of recurrence points which form diagonal lines	Float
Heart rate variability (CHRIS baseline)	x0ec279	RPA divergence	RPA divergence: Recurrence Plot Analysis is another approach for analyzing the complexity of the RR series, which consists in creating a symmetrical matrix of zeros and ones. The divergence (DIV) is defined as the inverse of Lmax	Float
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec28	Sinus beats	No. of sinus beats	Integer
Heart rate variability (CHRIS baseline)	x0ec280	RPA Lmax	RPA Lmax: Recurrence Plot Analysis is another approach for analyzing the complexity of the RR series, which consists in creating a symmetrical matrix of zeros and ones. Lmax is maximum line length of the diagonal lines	Integer
Heart rate variability (CHRIS baseline)	x0ec281	RPA Lmean	RPA Lmean: Recurrence Plot Analysis is another approach for analyzing the complexity of the RR series, which consists in creating a symmetrical matrix of zeros and ones. Lmean is the average diagonal line length	Float
Heart rate variability (CHRIS baseline)	x0ec282	RPA Shannon Entropy	RPA Shannon Entropy: it is the entropy of the probability distribution of the diagonal line lengths	Float
Heart rate variability (CHRIS baseline)	x0ec283a	MSE (t=1)	MSE (t=1): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 1	Float
Heart rate variability (CHRIS baseline)	x0ec283b	MSE (t=2)	MSE (t=2): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 2	Float
Heart rate variability (CHRIS baseline)	x0ec283c	MSE (t=3)	MSE (t=3): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 3	Float
Heart rate variability (CHRIS baseline)	x0ec283d	MSE (t=4)	MSE (t=4): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 4	Float
Heart rate variability (CHRIS baseline)	x0ec283e	MSE (t=5)	MSE (t=5): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 5	Float
Heart rate variability (CHRIS baseline)	x0ec283f	MSE (t=6)	MSE (t=6): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 6	Float
Heart rate variability (CHRIS baseline)	x0ec283g	MSE (t=7)	MSE (t=7): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 7	Float
Heart rate variability (CHRIS baseline)	x0ec283h	MSE (t=8)	MSE (t=8): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 8	Float
Heart rate variability (CHRIS baseline)	x0ec283i	MSE (t=9)	MSE (t=9): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 9	Float
Heart rate variability (CHRIS baseline)	x0ec283j	MSE (t=10)	MSE (t=10): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 10	Float
Heart rate variability (CHRIS baseline)	x0ec283k	MSE (t=11)	MSE (t=11): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 11	Float
Heart rate variability (CHRIS baseline)	x0ec283l	MSE (t=12)	MSE (t=12): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 12	Float
Heart rate variability (CHRIS baseline)	x0ec283m	MSE (t=13)	MSE (t=13): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 13	Float
Heart rate variability (CHRIS baseline)	x0ec283n	MSE (t=14)	MSE (t=14): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 14	Float
Heart rate variability (CHRIS baseline)	x0ec283o	MSE (t=15)	MSE (t=15): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 15	Float
Heart rate variability (CHRIS baseline)	x0ec283p	MSE (t=16)	MSE (t=16): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 16	Float
Heart rate variability (CHRIS baseline)	x0ec283q	MSE (t=17)	MSE (t=17): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 17	Float
Heart rate variability (CHRIS baseline)	x0ec283r	MSE (t=18)	MSE (t=18): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 18	Float
Heart rate variability (CHRIS baseline)	x0ec283s	MSE (t=19)	MSE (t=19): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 19	Float
Heart rate variability (CHRIS baseline)	x0ec283t	MSE (t=20)	MSE (t=20): Multi Scale Entropy, extension of SampEn to multiple time scales, here calculated for time scale factor equal to 20	Float
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec29	Normal timing beats	No. of normal timing beats	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec30	Supraventricular extrasystoles (SVES)	No. of supraventricular extrasystoles (SVES)	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec31	Normal beats with similar behavior as VES	No. of normal beats with similar behavior as VES	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec32	Pauses (RRI > 2,5 sec)	No. of pauses (RRI > 2.5 sec)	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec33	Ventricular beats	No. of ventricular beats	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec34	Single ventricular beats	No. of single ventricular beats	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec35	Single premature ventricular beats	No. of single premature ventricular beats	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec36	Single premature ventricular beats with compensatory pause	No. of single premature ventricular beats with compensatory pause	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec37	Interpolated VES	No. of interpolated VES	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec38	Escaped beats	No. of escaped beats	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec39	Pacemaker beats	No. of pacemaker beats	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec40	Artifacts	No. of artefacts	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec41	Minimum Heart Rate	minimum HR	Float
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec42	Maximum Heart Rate	maximum HR	Float
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec43	Mean Heart Rate	mean HR	Float
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec46	Supraventricular runs	No. of supraventricular runs	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec49	Supraventricular tachycardia (SVT) beats	No. of supraventricular tachycardia (SVT) beats	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec52	Supraventricular runs and tachycardias	No. of supraventricular runs and tachycardias	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec55	Idioventricular rhythm (IVR)	No. of idioventricular rhythm (IVR)	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec56	Couplets	No. of couplets	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec57	Bigeminy	No. of bigeminy	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec58	Trigeminy	No. of trigeminy	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec59	Ventricular runs	No. of ventricular runs	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec62	Ventricular tachycadias (VT)	No. of ventricular tachycardias (VT)	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec65	Ventricular runs and tachycardias	No. of ventricular runs and tachycardias	Integer
Heart rate variability, cardiologist curated (CHRIS baseline)	x0ec77	Indication of atrial fibrillation	Indication of atrial fibrillation	Categorical
Early repolarization pattern (CHRIS baseline)	x0ec78	Early repolarization (ERP)	Early repolarization (ERP)	Categorical
Early repolarization pattern (CHRIS baseline)	x0ec78a	Early repolarization: Rhythm	Early repolarization: Rhythm	Categorical
Early repolarization pattern (CHRIS baseline)	x0ec78b	Early repolarization: Region	Early repolarization: Region	Categorical
Early repolarization pattern (CHRIS baseline)	x0ec78c	Early repolarization: Amplitude	Early repolarization: Amplitude	Integer
Early repolarization pattern (CHRIS baseline)	x0ec78d	Early repolarization: Type	Early repolarization: Type	Categorical

4291 variables.