RU2099003C1 - Method for estimating chronotropic cardiac function - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves recording electrocardiogram in applying physical loading test, additionally recording individual frequency curve calculated concurrently with loading by means of portable device provided with accelerometer transducer, the real electrocardiogram is recorded with autonomous recorder. Maximum contraction frequency of heart chambers being below heart rate beat frequency calculated from the transducer, chronotropic cardiac function insufficiency is diagnosed. EFFECT: enhanced accuracy of diagnosis.

Description

 The invention relates to medicine, namely to cardiac surgery and cardiology, and can be used to detect various cardiac pathologies.

 Testing the increase in heart rate / heart rate / during exercise involves the subject performing dosed physical work, which constantly monitors the electrocardiogram / ECG /, regular measurement of blood pressure / blood pressure, and assesses the general condition of the subject.

 There are various methods for assessing chronotropic function of the heart, such as bicycle ergometry and walking on a treadmill / Sidorenko B.A. Suvorov Yu.A. Functional tests in cardiology. / (Cardiology, 1991, N 2, (5). The disadvantages of these methods are the need for good coordination of movements and certain cycling skills, large equipment sizes, insufficiently accurate quantification of the load, the requirement for a specially equipped functional diagnostics department and trained personnel, the presence of muscle interference during ECG recording on a stationary recorder, the need for preliminary discontinuation of drugs that affect the increase in heart rate during exercise, inaccessibility samples on an outpatient basis.

 The prototype of the proposed method is a two-step step test / sample of the Master /. The positive aspects of the methodology are simplicity, accessibility, physiology of the load performed, as the steps used for physical work used for the subject are used. The sample is convenient on an outpatient basis and does not require a specially equipped functional diagnostics department and trained personnel (Instrumental methods for the study of the cardiovascular system. Handbook. / Ed. By TS Vinogradova. M. Medicine, 1986, S. 118-119).

 The disadvantages of the Master’s test are the low accuracy of the results obtained and the quantitative calculation of the load, the presence of muscle interference during ECG recording on a stationary recorder, the difficulty of individualizing heart rate growth during physical work in a particular subject, the need for preliminary cancellation of a number of drugs.

 The invention is aimed at solving the problem of increasing the accuracy of the method for evaluating chronotropic function of the heart.

 The task is achieved by individually taking into account the state of the subject and the physical exercise performed by him, close to the physiological lifestyle. This is achieved using a portable microprocessor device equipped with an accelerometer sensor that takes into account the acceleration of the body during the load test and calculates the maximum heart rate calculated synchronously with the load according to an individually adapted frequency curve for this physical work in a particular subject. When a real maximum frequency of contractions of the heart chambers is detected under a load below the heart rate calculated by the accelerometer sensor of a portable microprocessor device, the insufficiency of the chronotropic function of the heart is determined.

The method is as follows:
Electrodes are placed on the subject for continuous monitoring of the surface ECG / two electrodes in the 2nd intercostal space on both edges of the sternum, two electrodes in the 6th intercostal space along the midclavicular line on both sides of the chest, one electrode in the projection of the 8th rib two centimeters inwards from right midclavicular line / and connect them to a portable standalone registrar. In the subclavian region, a portable device equipped with an accelerometer sensor / for example, an ECM pacemaker from INTERMEDIX / is fixed on the left. Using the Rx 2000 programmer, information on the subject is entered into the device memory non-invasively:
the main pulse frequency of the pacemaker at rest / value is determined individually in a specific clinical situation: the age and physical condition of the subject, the presence of coronary heart disease, circulatory failure, type of heart arrhythmia. / Most often, for an adult subject, this value is 60 80 imp / min,
pulse frequency of a pacemaker when the subject performs moderate everyday physical work / slow walk on a flat surface for three minutes /. The value depends on the above criteria and in most cases is in the range of 85 95 imp / min;
the slew rate of the frequency curve calculated by the portable microprocessor device, determined on the basis of the analysis of the acceleration of the body when the subject performs physical work. It is in the range of conventional values from 1 / more conservative / to 10 / more aggressive /;
the maximum pulse frequency of the pacemaker, which can be achieved when the subject performs intense physical activity. The value reflects the age limit of the maximum attainable heart rate of the subject and can be obtained from adapted nomograms.

 Beginning of the "training program".

 During the "training program", the subject performs daily physical work / slow walk at a normal pace on a level surface for three minutes /, after which the end of the "training program" is programmed.

 The microprocessor of the device analyzes the acceleration of the body when the subject performs a slow walk and, based on the entered parameters and the “training program”, individualizes the calculated frequency adapted response for a particular subject. After training the device for individual physical load of the subject, chronotropic heart function is assessed simultaneously in two ways: by means of a portable microprocessor device equipped with an accelerometer sensor and long-term recording of the surface ECG on a portable stand-alone recorder when the subject performs physical work.

 The subject is offered to perform a load step test / Master’s test / for 1.5 3 minutes, while during physical activity and in the recovery period, a surface ECG is recorded on an autonomous portable recorder, blood pressure is regularly measured / by Korotkov’s method /, heart rate. During the physical work, the subject is monitored for his general condition, complaints / chest pain, discomfort, fatigue, shortness of breath, dizziness, intermittent claudication, joint pain, arrhythmia /, and performance assessment. After the termination of the load, the time to perform physical work, the subjective sensations of the subject, as well as heart rate, blood pressure at maximum physical load, as well as 1, 3, 5, and 10 minutes of the recovery period, are estimated.

 By means of the Rx 2000 programmer, information is obtained by telemetry on the acceleration forces acting during physical load, while their analysis allows you to establish quantitative changes in the pulse frequency of a device equipped with an accelerometer sensor. The microprocessor of the programmer calculates the individually adapted frequency curve in synchronism with the load and displays it on the display.

 By constantly recording the surface ECG of the subject while performing the load step test and during the recovery period, the intervals P P, R R, artifacts of the implanted apparatus performing heart rate correction are analyzed on the self-contained recorder, and the dynamics of the curves of the frequency of contractions of the heart chambers are calculated. A comparison of the calculated curves is carried out: calculated simultaneously with the load of an individually adapted / from a portable device equipped with an accelerometer sensor / and a real heart rate / obtained from an autonomous ECG recorder /, the dynamics of the curves, their congruence, the maximum achievable values of the heart rate contractions of the heart chambers . If a real maximum heart rate reduction of the heart chambers is detected below the heart rate calculated by the accelerometer sensor of the portable microprocessor device, the insufficiency of the chronotropic function of the heart is determined.

 Example 1. Surveyed M.S. 27 years old, weight 78 kg. Clinical diagnosis: Almost healthy.

 Maximum physical activity during the step test / according to the nomogram / walking up the stairs of the Master with a frequency of 92 steps / min for 3 minutes. The maximum heart rate / by R. Shepherd’s nomogram / 160 beats per minute. Prior to the physical step test, the following information was entered into the memory of the device equipped with the accelerometer sensor: the maximum pulse frequency of the device is 160 per minute, the frequency response is 7, the frequency of the slow walk is -95 imp / min. The training of a device equipped with an accelerometer sensor and daily physical work was carried out through a "training" program during a three-minute slow walk of the subject. Evaluation of the chronotropic function of the heart was carried out under conditions of the subject performing a two-step test with a given physical load, while an individually adapted frequency curve calculated simultaneously with the load was additionally recorded using a portable microprocessor device equipped with an accelerometer sensor, and the subject's ECG was recorded on an autonomous portable recorder. During the study, the maximum real recorded frequency of contractions of the heart chambers / sinus rhythm / examined during physical activity was 148 beats per minute. The maximum heart rate calculated simultaneously with the load of the individually adapted curve set by the accelerometer sensor was equal to 150 beats per minute. Conclusion: the chronotropic function of the heart is not changed.

 Example 2. Surveyed G.A. 56 years old, weight 62 kg.

 Diagnosis: coronary heart disease. Atherosclerotic and post-infarction cardiosclerosis. Sick sinus syndrome. Implanted pacemaker in the endocardial form. Isolated atrial cardiac electrical stimulation on demand. Maximum physical activity / according to the nomogram / walking on the stairs of the Master with a frequency of 84 steps per minute for 1.5 minutes. The maximum heart rate / by R. Shepherd’s nomogram / 145 beats per minute. In order to individually adapt the portable device with the accelerometer sensor to the physical condition of the subject, they trained with the device the following parameters: maximum pulse frequency of 145 per minute, frequency response 4, slow walk frequency of 90 pulses per minute. After the subject performed a two-step step test with a given physical load and simultaneously recording an individually adapted frequency curve calculated simultaneously with the load with a device equipped with an accelerometer sensor and a real ECG on a portable stand-alone recorder, the following results were obtained: maximum heart rate / rhythm from atrioventricular connection / turned out to be equal to 82 beats per minute, the maximum heart rate calculated simultaneously with the load in ividualno adapted curve established portable sensor device 124 beats per minute. Conclusion: the subject has a lack of chronotropic function of the heart.

 Example 3. The subject D.M. 50 years old, weight 80 kg.

 Diagnosis: coronary heart disease. Atherosclerotic coronary cardiosclerosis. Atrial atrial fibrillation, permanent form, bradyisystole of the ventricles of the heart. Implanted pacemaker in the endocardial form. Isolated right ventricular electrical stimulation of the heart on demand. The maximum physical load during the load step test / is determined by the nomogram / walking on the stairs of the Master with a frequency of 73 steps per minute for 1.5 minutes. The maximum heart rate / by R. Shepherd’s nomogram / 145 beats per minute. During the training of a device equipped with an accelerometer sensor, the individual physical load of the subject entered the following parameters into the device's memory: maximum frequency of 145 pulses per minute, frequency response of 5, slow walk frequency of 95 pulses per minute. After a physical load test on the staircase of the Master, performed by the subject, during which registration of the individually adapted frequency curve of the portable microprocessor device calculated by the accelerometer sensor and the real ECG of the subject on a stand-alone recorder were performed, the following results were obtained: the maximum real heart rate of the patient / ventricular contraction the heart, driven by the stimuli of the implanted pacemaker / was 70 beats per minute. The maximum value calculated simultaneously with the load of the heart rate of an individually adapted frequency curve determined by the device’s accelerometer sensor is 130 beats per minute. Conclusion: the subject has a lack of chronotropic function of the heart.

 A method for evaluating the chronotropic function of the heart based on accounting and analysis of the acceleration of the body of the subject during physical work through a portable microprocessor device equipped with an accelerometer sensor increases the informational content of the load step test in clinical practice and increases its accuracy in the diagnosis of various cardiac pathologies, as well as chronotropic insufficiency , as one of the markers of coronary heart disease and sick sinus syndrome, especially in the early stages of development. A method for evaluating chronotropic function of the heart can be used to determine indications for the implantation of pacemakers, select the type of apparatus, evaluate the function of devices that correct heart rate at rest and when the patient performs daily physical activity. A method for evaluating chronotropic function of the heart can be useful in choosing drug therapy and evaluating its effectiveness, in objectifying the course of the rehabilitation period of patients after acute myocardial infarction, as well as heart surgery.

Claims (1)

 A method for evaluating the chronotropic function of the heart by performing a physical exercise test with the subject simultaneously recording an electrocardiogram, characterized in that it also records the maximum heart rate calculated using a portable microprocessor device equipped with an accelerometer sensor, according to an individually adapted frequency curve and when detecting the real maximum frequency heart chamber contractions below the heart rate calculated by the device’s sensor, determine the insufficiency of chronotropic function of the heart.