CHRIS Portal

Variables

4291 variables.

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Module

Type

Module	Label	Name	Description	Type
Heart failure (CHRIS baseline)	x0hf03	Swollen legs/water in the legs	Do you often have swollen legs, because of 'water in the legs'?	Categorical
Heart failure (CHRIS baseline)	x0hf02b	Pulmonary edema (since)	Since when? (age)	Integer
Heart failure (CHRIS baseline)	x0hf02	Pulmonary edema	Do you have 'water in the lung' (pulmonary edema)?	Categorical
Heart failure (CHRIS baseline)	x0hf04c2	Myocarditis elaborated (description/free text)	Describe the disease as accurately as possible (elaborated)	Character
Heart failure (CHRIS baseline)	x0hf04b	Myocarditis (since)	Since when? (age)	Integer
Heart failure (CHRIS baseline)	x0hf04	Myocarditis	Do you have myocarditis?	Categorical
Heart failure (CHRIS baseline)	x0hf05c2	Myocardial disease elaborated (description/free text)	Describe the disease as accurately as possible (elaborated)	Character
Heart failure (CHRIS baseline)	x0hf05b	Myocardial disease (since)	Since when? (age)	Integer
Heart failure (CHRIS baseline)	x0hf05	Myocardial disease	Do you have a myocardial disease? (e.g. hypertrophic cardiomyopathy)	Categorical
Heart failure (CHRIS baseline)	x0hfver	Heart failure version	Heart failure version	Categorical
Heart failure (CHRIS baseline)	x0hfn1b	Heart failure notes elaborated (symptoms)	Heart failure notes elaborated (symptoms)	Character
Heart failure (CHRIS baseline)	x0hfn4b	Heart failure notes elaborated (heart failure)	Heart failure notes elaborated (heart failure)	Character
Heart failure (CHRIS baseline)	x0hfn3b	Heart failure notes elaborated (ecg)	Heart failure notes elaborated (ECG)	Character
Heart failure (CHRIS baseline)	x0hfn2b	Heart failure notes elaborated (diseases)	Heart failure notes elaborated (diseases)	Character
Heart failure (CHRIS baseline)	x0hfnoteb	Heart failure notes elaborated	Heart failure notes elaborated	Character
Heart failure (CHRIS baseline)	x0hf08d	Heart failure (treated last 12 months)	Were you treated for this within the last 12 months?	Categorical
Heart failure (CHRIS baseline)	x0hf08c	Heart failure (last 12 months)	Have you had a heart failure within the last 12 months?	Categorical
Heart failure (CHRIS baseline)	x0hf08	Heart failure (diagnosed)	Has a doctor ever told you that you have a heart failure?	Categorical
Heart failure (CHRIS baseline)	x0hf08b	Heart failure (age at diagnosis)	In which year was it diagnosed for the first time? (age)	Integer
Heart failure (CHRIS baseline)	x0hf06a2	Heart defect elaborated (description/free text)	Describe the problem as accurately as possible (elaborated)	Character
Heart failure (CHRIS baseline)	x0hf06	Heart defect	Have you ever been told that you have a heart defect (as a child)?	Categorical
Heart failure (CHRIS baseline)	x0hf07d2	ECG: Conspicuous findings elaborated (free text)	Which? (elaborated)	Character
Heart failure (CHRIS baseline)	x0hf07c	ECG: Conspicuous findings	Where there conspicuous findings?	Categorical
Heart failure (CHRIS baseline)	x0hf07b	ECG (age)	Do you remember in which year the ECG showed conspicuous findings for the first time? (age)	Integer
Heart failure (CHRIS baseline)	x0hf07	ECG	Has a doctor ever performed an ECG on you (except surgical preparation or sport competitions)?	Categorical
Heart failure (CHRIS baseline)	x0hf01b	Dyspnea/shortness of breath (since)	Since when? (age)	Integer
Heart failure (CHRIS baseline)	x0hf01	Dyspnea/shortness of breath	Do you have shortness of breath during exercise e.g. when climbing stairs?	Categorical
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 (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)	x0ec208	total number of beats	Total number of beats	Integer
Heart rate variability (CHRIS baseline)	x0ec202	total length of the ECG	Total length of the ECG recording, expressed in seconds	Float
Heart rate variability (CHRIS baseline)	x0ec207a	t_RR start	Time point of the first beat in the RR series, expressed in seconds	Float
Heart rate variability (CHRIS baseline)	x0ec207b	t_RR end	Time point of the last beat in the RR series, expressed in seconds	Float
Heart rate variability (CHRIS baseline)	x0ec223	std HR	Standard deviation of heart rate	Float
Heart rate variability (CHRIS baseline)	x0ec205a	segment start	Start point of the data segment which is used for HRV analysis, expressed in seconds	Integer
Heart rate variability (CHRIS baseline)	x0ec205b	segment end	End point of the data segment which is used for HRV analysis, expressed in seconds	Integer
Heart rate variability (CHRIS baseline)	x0ec219	pNN50	pNN50: NN50 divided by the total number of RR intervals	Float
Heart rate variability (CHRIS baseline)	x0ec211	number of noise segments	Number of noise segments	Integer
Heart rate variability (CHRIS baseline)	x0ec210	number of corrected beats (%)	Number of corrected beats, expressed as percentage of the total number of beats	Float
Heart rate variability (CHRIS baseline)	x0ec209	number of corrected beats	Number of corrected beats	Integer
Heart rate variability (CHRIS baseline)	x0ec212	noise segments	List of all detected noise segments, expressed as tuple (start point of the noisy region, end point of the noisy region), expressed in seconds	Character
Heart rate variability (CHRIS baseline)	x0ec224	min HR	Minimum HR computed using N=5 beat moving average	Float
Heart rate variability (CHRIS baseline)	x0ec215	mean RR	Mean value of RR intervals, expressed in milliseconds	Float
Heart rate variability (CHRIS baseline)	x0ec222	mean HR	Mean heart rate, expressed in beats per minute	Float
Heart rate variability (CHRIS baseline)	x0ec225	max HR	Maximum HR computed using N=5 beat moving average	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)	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)	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)	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)	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)	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)	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)	x0ec259	logHF power (AR)	Natural logarithm transformed values of HF band, with PSD estimated using parametric autoregressive (AR) modeling method	Float
Heart rate variability (CHRIS baseline)	x0ec206	length RR series	Length of the RR series	Integer
Heart rate variability (CHRIS baseline)	x0ec204	effective length (%)	Effective data length, expressed as percentage of the total length	Float
Heart rate variability (CHRIS baseline)	x0ec203	effective length	Effective length of the ECG which is used for HRV analysis, expressed in seconds	Float
Heart rate variability (CHRIS baseline)	x0ec236	VLF power (Welch)	Absolute 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)	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)	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)	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)	x0ec233	VLF peak (Welch)	Very Low Frequency (VLF) band peak frequency, with PSD estimated using Fast Fourier transformation (FFT) based Welch's periodogram method, expressed in Hz	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)	x0ec228	TINN	TINN: baseline width of the RR histogram evaluated through triangular interpolation	Integer
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)	x0ec214b	SNS param: nSI	Second parameter used for SNS index calculation: SI normalized by scaling with the standard deviations of normal population	Float
Heart rate variability (CHRIS baseline)	x0ec214c	SNS param: nSD2	Third parameter used for SNS index calculation: SD2 normalized by scaling with the standard deviations of normal population	Float
Heart rate variability (CHRIS baseline)	x0ec214a	SNS param: nMeanHR	First parameter used for SNS index calculation: MeanHR normalized by scaling with the standard deviations of normal population	Float
Heart rate variability (CHRIS baseline)	x0ec214	SNS index	SNS index	Float
Heart rate variability (CHRIS baseline)	x0ec226	SI (Stress Index)	SI: Baevsky stress index, computed according to the formula given in Baevsky 2009, is a geometric measure of HRV reflecting cardiovascular system stress	Float
Heart rate variability (CHRIS baseline)	x0ec221	SDNNI	SDNNI: Mean of the standard deviations of RR intervals in 5-min segments, expressed in milliseconds	Float
Heart rate variability (CHRIS baseline)	x0ec216	SDNN	SDNN: Standard deviation of RR intervals, expressed in milliseconds	Float
Heart rate variability (CHRIS baseline)	x0ec220	SDANN	SDANN: Standard deviation of the averages of RR intervals in 5-min segments, expressed in milliseconds	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)	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 (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)	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)	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)	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)	x0ec217	RMSSD	RMSSD: Square root of the mean squared differences between successive RR intervals, expressed in milliseconds	Float
Heart rate variability (CHRIS baseline)	x0ec270	Poincare SD2/SD1	Poincare SD2/SD1: ratio between SD2 and SD1	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 (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)	x0ec213c	PNS param: nSD1	Third parameter used for PNS index calculation: SD1 normalized by scaling with the standard deviations of normal population	Float
Heart rate variability (CHRIS baseline)	x0ec213b	PNS param: nRMSSD	Second parameter used for PNS index calculation: RMSSD normalized by scaling with the standard deviations of normal population	Float
Heart rate variability (CHRIS baseline)	x0ec213a	PNS param: nMeanRR	First parameter used for PNS index calculation: MeanRR normalized by scaling with the standard deviations of normal population	Float
Heart rate variability (CHRIS baseline)	x0ec213	PNS index	PNS index	Float
Heart rate variability (CHRIS baseline)	x0ec218	NN50	NN50: Number of successive RR interval pairs that differ more than 50 ms	Integer
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)	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)	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)	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)	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)	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)	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)	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 (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)	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)	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)	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)	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

4291 variables.