System with kinesthetic stimulation medical device for the non-invasive assessment of the sympathovagal balance of a patient

The invention claimed is: 1. A system for assessing a sympathovagal balance of a patient, comprising: a generator configured to produce stimulation pulses; a stimulator that receives the stimulation pulses produced by the generator and outputs a stimulation energy; a sensor configured to measure a physiological signal; and a processor configured to: control the generator during a plurality of sequences to produce the stimulation pulses over a test period; determine a biological parameter of a current activity of the patient derived from the physiological signal, the biological parameter comprising at least one of a PR interval as a dromotropic parameter or an endocardial acceleration as an inotropic parameter; determine a variation of the biological parameter resulting from the stimulation pulses from at least two values for each sequence of the test period, the at least two values for each sequence including: (i) a base value measured for a baseline period prior to the production of the stimulation pulses; (ii) a current value measured during an ANS period of production of the stimulation pulses; and (iii) a current value measured for a recovery period during which the stimulation pulses are stopped; wherein the generator produces a plurality of stimulation pulses during the ANS period; and wherein each of the plurality of stimulation pulses includes a rank i, such that the rank i ranges from 1 to n for each sequence; and determine a sympathovagal balance index according to the variation in the biological parameter. 2. The system of claim 1 , wherein the physiological signal includes at least one of a cardiac activity, an ECG, a heart rate, breathing, an oxygen saturation, a pulse wave, and a phonocardiogram. 3. The system of claim 1 , wherein the processor determines the current value of the biological parameter in synchronization with a cardiac rhythm of the patient during a plurality of successive cardiac cycles during the recovery period. 4. The system of claim 1 , wherein each of the plurality of the stimulation pulses corresponds with one of a plurality of samples of the biological parameter, wherein the processor calculates an average of the plurality of samples of the biological parameter of the same rank i over all sequences of the test period, resulting in n averaged values of the biological parameter. 5. The system of claim 4 , wherein the n averaged values of the biological parameter are the sympathovagal balance index of the test period, wherein the sympathovagal balance index is calculated during the test period. 6. The system of claim 1 , wherein the processor inhibits the generator upon detection of an occurrence of at least one of a heart rate below a predetermined threshold, a presence of a patient's physical activity, a cardiac stimulation delivery, a presence of an apnea or hypopnea episode, and a presence of an arrhythmia episode. 7. A method for assessing a sympathovagal balance of a patient, comprising: acquiring, by a sensor, a physiological signal; controlling, by a processor, a generator configured to produce stimulation pulses during a plurality of sequences over a test period; determining, by the processor, a biological parameter of a current activity of the patient derived from the physiological signal, the biological parameter comprising at least one of a PR interval as a dromotropic parameter or an endocardial acceleration as an inotropic parameter; determining, by the processor, a variation of the biological parameter resulting from the stimulation pulses from at least two values for each sequence of the test period, the at least two values for each sequence including: (i) a base value measured for a baseline period prior to the production of the stimulation pulses; (ii) a current value measured during an ANS period of production of the stimulation pulses; and (iii) a current value measured for a recovery period during which the stimulation pulses are stopped; producing, by the generator, a plurality of stimulation pulses during the ANS period, wherein each of the plurality of stimulation pulses includes a rank i, such that the rank i ranges from 1 to n for each sequence; and determining, by the processor, a sympathovagal balance index according to the variation in the biological parameter. 8. The method of claim 7 , wherein the physiological signal includes at least one of a cardiac activity, an ECG, a heart rate, breathing, an oxygen saturation, a pulse wave, and a phonocardiogram. 9. The method of claim 7 , further comprising determining, by the processor, the current value of the biological parameter in synchronization with a cardiac rhythm of the patient during a plurality of successive cardiac cycles during the recovery period. 10. The method of claim 7 , further comprising calculating, by the processor, an average of a plurality of samples of the biological parameter of the same rank i over all sequences of the test period, resulting in n averaged values of the biological parameter, wherein each of the plurality of the stimulation pulses corresponds with one of the plurality of samples of the biological parameter. 11. The method of claim 10 , wherein the n averaged values of the biological parameter are the sympathovagal balance index of the test period, wherein the sympathovagal balance index is calculated during the test period. 12. The method of claim 7 , further comprising inhibiting, by the processor, the generator upon detection of an occurrence of at least one of a heart rate below a predetermined threshold, a presence of a patient's physical activity, a cardiac stimulation delivery, a presence of an apnea or hypopnea episode, and a presence of an arrhythmia episode.