Non-Invasive Cardiovascular Risk Assessment Using Heart Rate Variability Fragmentation

What is claimed is: 1 . A method of assessing cardiovascular risk of a subject, comprising: receiving a first set of electrocardiogram (ECG) signals of the subject; analyzing data from the first set of ECG signals to identify sign changes in heart rate acceleration in the first set of ECG signals; determining a degree of fragmentation in the first set of ECG signals based on the identified sign changes in heart rate acceleration; and assessing cardiovascular risk of the subject based on the degree of fragmentation. 2 . The method of claim 1 , wherein analyzing data from the first set of ECG signals further comprises: deriving, from each ECG signal, a time series of normal-to-normal (NN) intervals, {NN i }={t N i −t N i−1 }, wherein t N i represents the time of occurrence of the i th normal sinus beat, and the time series of the differences between consecutive NN interval increments, {ΔNN i }={NN i −NN i−1 }; and computing a set of fragmentation indices from the time series derived from each ECG signal. 3 . The method of claim 2 , wherein a fragmentation index in the set of fragmentation indices comprises: a percentage of zero-crossing points in the time series of the NN intervals or a percentage of inflection points (PIP) in the time series of the NN intervals. 4 . The method of claim 2 , wherein a fragmentation index in the set of fragmentation indices comprises an inverse of an average length of acceleration and deceleration NN segments (IALS NN ), wherein the acceleration and deceleration segments are sequences of NN intervals between consecutive inflection points for which the differences between two NN intervals are <0 and >0, respectively, and wherein a length of a segment is the number of NN intervals in the segment. 5 . The method of claim 2 , wherein a fragmentation index in the set of fragmentation indices comprises: a percentage of short NN segments (PSS NN ), wherein PSS NN further comprises a complement of a percentage of NN intervals in acceleration and deceleration segments with three or more NN intervals. 6 . The method of claim 2 , wherein a fragmentation index in the set of fragmentation indices comprises: a percentage of NN intervals in alternation segments, wherein each alternation segments comprises a sequence of at least four NN intervals, for which heart rate acceleration changes sign every beat. 7 . The method of claim 2 , further comprising: applying the set of fragmentation indices to the data from the first set of ECG signals. 8 . The method of claim 7 , further comprising: further determining the degree of fragmentation in the first set of ECG signals based on values of the set of fragmentation indices, wherein the degree of fragmentation increases based on an increase in the values of the set of fragmentation indices. 9 . The method of claim 1 , wherein analyzing data from the first set of ECG signals further comprises: deriving, from each ECG signal, a time series of cardiac interbeat (RR) intervals, {RR i }={t R i −t R i−1 }, wherein t R i represents the time of occurrence of the i th QRS complex, and the time series of the differences between consecutive RR intervals (increments), {ΔRR i }={RR i −RR i−1 }; and computing a set of fragmentation indices from the time series derived from each ECG signal. 10 . The method of claim 9 , wherein a fragmentation index in the set of fragmentation indices comprises: a percentage of zero-crossing points in the RR time series or a percentage of inflection points (PIP) in the time series of the RR intervals. 11 . The method of claim 9 , wherein a fragmentation index in the set of fragmentation indices comprises: an inverse of an average length of acceleration and deceleration RR segments (IALS RR ), wherein the acceleration and deceleration segments are sequences of RR intervals between consecutive inflection points for which the differences between two RR intervals are <0 and >0, respectively, and wherein a length of a segment is the number of RR intervals in the segment. 12 . The method of claim 9 , wherein a fragmentation index in the set of fragmentation indices comprises: a percentage of short RR segments (PSS RR ), wherein PSS RR further comprises a complement of a percentage of RR intervals in acceleration and deceleration segments with three or more RR intervals. 13 . The method of claim 9 , wherein a fragmentation index in the set of fragmentation indices comprises: a percentage of RR intervals in alternation segments, wherein each alternation segments comprises a sequence of at least four RR intervals, for which heart rate acceleration changes sign every beat. 14 . The method of claim 9 , further comprising: applying the set of fragmentation indices to the data from the first set of ECG signals. 15 . The method of claim 1 , further comprising: mapping the differences between consecutive NN or RR intervals above and below given thresholds in the first set of ECG signals to at least three different symbols; identifying different segments of consecutive symbols in the plurality of symbols as a plurality of words; determining a plurality of word groups based on identifying for each word the number and types of transitions between different symbols; determining percentages of each word group; and quantifying the degree of fragmentation in the first set of ECG signals based on the percentages of each word group in the plurality of word groups.