RU2207166C1 - Method for rehabilitation in patients after myocardial infarction - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: one should affect area of myocardial projection in phases of diastole and inhalation, impact onto projection areas of other organs should be carried out in phases of systole and inhalation. Moreover, impact upon blood in ulnar fossa vein is carried out percutaneously for 600 pulse beats, impact upon other organs - for 120 pulse beats. One should control the ratio of pulse rate to respiration rate which is considered to be normal within 3-5, and beyond this range during period exceeding 1 min one should stop quantum-therapeutic impact. Time during the day to carry out rehabilitation is chosen individually 2-3 h before maximum availability of painful and/or pain-free ischemia according to the data of daily ECG monitoring. Rehabilitation course corresponds to 10-14 d of daily procedures. EFFECT: higher efficiency of rehabilitation. 2 cl, 2 ex, 1 tbl

Description

 The invention relates to medicine, in particular to quantum therapy in cardiology, and can be used in rehabilitation at the sanatorium stage of patients after myocardial infarction.

 Quantum therapy is carried out by exposure to red and infrared lasers, as well as a constant magnetic field.

 Known methods of laser therapy for patients after myocardial infarction [1-3].

 A disadvantage of the known methods is intravenous irradiation of blood, which complicates the process and increases the risk of infection and destruction of blood cells.

 Thanks to the creation of magnetic laser (quantum) therapy devices, one of the components of which is laser exposure in the pulsed mode of the infrared region of the spectrum, the possibility of pressure transdermal irradiation of blood has appeared [4].

 In [5, 6], it was proved that only biocontrolled chronophysiotherapy provides an increase in biosynthetic plastic processes, which can be used in the rehabilitation of patients after myocardial infarction. For this, the effect should be enhanced only during an increase in the energy resources of stimulated cells, which corresponds to an increase in blood supply to the tissue, the opening of capillaries above active cells, increased transport of energy metabolites and oxygen diffusion in them. In automatic mode, this is possible not by selecting any frequency of exposure, but only by control signals from the heart rate and respiration sensors of the patient.

 In terms of technical nature, the closest to the present invention is a method for the rehabilitation of patients who have suffered myocardial infarction, which consists of using a biotherapy based on signals from pulse and respiratory sensors of a quantum therapeutic effect on a patient in zones of projection onto organs whose normalization of function determines the effectiveness of rehabilitation [9].

 However, the known method of treatment does not take into account all the features of the reaction of the body to the quantum therapeutic effect and the increase in blood supply of the myocardium in the diastole phase, unlike other organs. In addition, individual dosing of exposure is not carried out.

 The technical result is to increase the effectiveness of rehabilitation at the sanatorium stage of patients who have had myocardial infarction, and to take into account the individual characteristics of the body's response to quantum therapeutic effects.

 An additional technical result is to take into account the optimal time of day for the session to a specific patient.

 This is achieved by the fact that in the method of rehabilitation of patients who have suffered myocardial infarction, which consists in using biotherapeutic by signals from pulse and respiration sensors, quantum therapeutic effects on the patient according to the zones of projection onto organs, normalizing their functions determines the effectiveness of rehabilitation, according to the invention, as organs, normalizing the functions of which determine the effectiveness of rehabilitation, myocardium, liver, spleen, thymus and blood in the vein of the ulnar fossa were selected, and the impact on the projection area the myocardium is carried out in the phases of diastole and inspiration, and the impact on the projection area of the remaining organs is carried out in the phases of systole and inspiration, while monitoring the ratio of the pulse rate to the respiratory rate, which is considered normal in the range 3-5, and when leaving the range for time exceeding one minute, the quantum therapeutic effect is stopped, in addition, the choice of time of day for rehabilitation is carried out individually 2-3 hours before the maximum manifestation of pain and / or painless ischemia according to the given day ary monitoring electrocardiogram - ECG Holter, and the impact on the blood in the vein of the cubital fossa is performed percutaneously for 600 pulse beats, effects on other organs was carried out for 120 heartbeats, and rehabilitation shall be equal to 10-14 days of daily treatments.

 The essence of the invention lies in the fact that the function of reversing the sign of the pulse sensor signal was introduced, due to which it was possible to act on the myocardium in the diastole phase, taking into account the location of the pulse sensor, i.e. eliminated the disadvantage of traditional physiotherapy associated with the peculiarity of the impact on the region of the heart.

 The choice of organs, the normalization of which determines the effectiveness of the rehabilitation indicated above, according to clinical trials, allowed to normalize the immune system and accelerate the rehabilitation.

 The optimal parameters for the average power density, the ratio of modulation depths for different types of pathology for microcirculation disturbance and the balance of the arterial and venous parts of the capillary bed, temporal parameters of the duration and carrier frequency were previously determined by sol-gel transitions in the cytoplasm of irradiated cells in situ and in vitro , by normalizing the activity of blood supeoxide dismutase, indicators of cellular immunity, vegetative status and the spectrum of microcirculation rhythms [7, 9].

 Comparison of the proposed method with the closest analogue allows us to claim compliance with the criterion of "novelty", and the absence of distinctive features in the analogues indicates compliance with the criterion of "inventive step".

 The inventive method for the rehabilitation of patients after myocardial infarction can be implemented using the RIKTA apparatus after necessary adjustments to the reversal of the signal from the pulse sensor and changes in the program of software.

 The method using the modified RIKTA apparatus with the appropriate software is as follows. On the patient, pulse sensors are installed (in the form of a photodiode clamp on the finger opposite the LED) and breathing sensors (to the diaphragm region in the form of a belt, the resistance changes when stretched, or as a thermistor in the nasal passages). The impact is carried out using the terminal of the RIKTA apparatus for 120 heartbeats on the projection zones of the myocardium (carotid sinus, to the left of the spine at the level of the upper edge of the scapula, middle and angle of the scapula), however, before the onset of the impact on the projection zones of the myocardium, a reversal is activated in order to synchronize exposure not with systole phases, but with diastole phases. Additionally, according to the method of M. V. Vogralik [8], to restore cellular immunity, the thymus projection zone is irradiated for 120 heart contractions and the liver and spleen projection zones for 120 heart contractions, as well as percutaneous adrenal irradiation in the ulnar fossa is performed for 600 heart contractions . Irradiation of all zones is carried out with direct monitoring of the ratio of heart rate to respiratory rate on the display of the RIKTA apparatus. If this ratio goes beyond the normal range (from 3 to 5) for more than 1 minute, radiation is stopped and the session is resumed only after normalization of this indicator. To increase the effectiveness of rehabilitation, enhance recovery processes in the myocardium, a quantum therapy session using the RIKTA apparatus is carried out 2-3 hours before the time of the maximum deviation from the norm of the ratio of low and high frequencies of RR intervals or the maximum manifestation of pain or painless ischemia, according to daily ECG monitoring by Holter. The rehabilitation course is taken equal to 10-14 days of daily procedures.

 This treatment does not exclude complex traditional therapy according to individual indications.

 Clinical trials of the proposed method allow us to judge the possibility of its wide use in the practice of rehabilitation of patients after myocardial infarction. Studies have shown that the proposed method allows to achieve a result in patients for whom traditional methods of treatment were less effective. When comparing the results of rehabilitation at the sanatorium stage of patients who had myocardial infarction (102 people), according to the specified method, compared with the control group of patients receiving only traditional treatment (50 people), a statistically significant observation was: 1) a decrease in the number of attacks of pain and painlessness (by deviation of the ST segment of the ECG during daily monitoring of the ECG according to Holter) ischemia, 2) a decrease in the number of extrasystoles, 3) normalization of heart rate variability, the ratio of low and high frequencies, voltage index according to Baye Vskovsky, 4) restoration of the chronostructure of circadian rhythms according to Cosinor analysis, 5) normalization of fractal dimension, spectrum of rhythms of RR ECG intervals, daily index of the ratio of heart rate in daytime and nighttime, 6) restoration of the vegetative status and indicators of cellular immunity, 7) improvement of the psychoemotional state, 8) increase of tolerance to physical activity according to bicycle ergometry.

 In general, the rehabilitation complex in the main group compared with the control group was characterized by the results of bicycle energy measurement - VEM at discharge (see table at the end of the description).

 The usefulness of the proposed method lies in the possibility of detecting negative reactions of the patient directly during the treatment session, more successful and effective rehabilitation in terms of daily monitoring of ECG according to Holter, data of bicycle ergometry. The tests confirm the possibility of widespread use of the claimed method at the sanatorium stage of rehabilitation of patients after myocardial infarction.

 Example 1. Patient K., 35 years old, was admitted to the sanatorium on the 24th day after a major focal myocardial infarction of the lower wall of the left ventricle (grade 2). Concomitant diseases: osteochondrosis of the spine with a primary lesion of the lumbar spine.

 Upon admission: complaints of short-term pain in the region of the heart associated with a change in body position, stopping when taking 1 tab of nitroglycerin. Rises to the 1st floor without shortness of breath. Risk factors: smoking, hypercholesterolemia, stress, heredity, arterial hypertension. Risk level - 4. UAC - normal, glucose - normal, IPT - 74%.

 VEM upon admission: threshold physical load (PFN) power of 150 kgm / min, volume of work performed (OVR) 450 kgm. Double product - 200. Tolerance to physical activity is low.

 By the method of Vogralik, a violation of the parameters of cellular immunity was determined (temperature difference 0.2 units). Holter monitoring: no ischemic changes in the ST segment were recorded; the daily heart rate variability in terms of SDNN was sharply violated. Emotional state: somatogenic depression.

 2 weeks after the end of the 10-day course of quantum therapy in biocontrol mode according to the claimed method as part of complex therapy: no complaints from the heart, pain does not bother. Rises to the 4th floor without shortness of breath. Successfully mastered II exercise therapy regimen. VEM at discharge: PFN 450 kgm / min; OVR 2700 kgm. Exercise tolerance is average. Recovery of temperature differences by the method of Vogralik. Holter monitoring: normalization of SDNN. The emotional state has improved.

 Recommendations are given in accordance with the second functional class.

 Example 2. Patient D, 53 years old, was admitted to the sanatorium on 21 days after the transmural myocardial infarction of the anterior-septal region with the involvement of the apex, anterolateral wall of the left ventricle (grade III severity). Concomitant diseases: peptic ulcer of the duodenum in remission.

 On admission: complaints of pain in the heart region of a pressing nature associated with physical activity, at rest, stopping when taking 1 tab of nitroglycerin. Rises to the 1st floor with shortness of breath. Risk factors: smoking, hypercholesterolemia, stress, heredity, arterial hypertension. Risk level - 4. UAC - normal, glucose - normal, IPT - 76%.

 VEM upon admission: threshold physical load (PFN) power of 150 kgm / min, volume of work performed (OVR) 450 kgm. Double product - 160. Tolerance to physical activity is low.

 By the method of Vogralik, a violation of the parameters of cellular immunity was determined (temperature difference 0.1 units). Holter monitoring: pain ischemia of 3.5 minutes was recorded during a walk, the daily heart rate variability in terms of SDNN was sharply violated. Emotional state: somatogenic depression.

 2 weeks after the end of the 10-day course of quantum therapy in biocontrol mode according to the claimed method as part of complex therapy: no complaints from the heart, pain does not bother. Rises to the 2nd floor without shortness of breath. Successfully mastered the 1B regimen of exercise therapy. VEM at discharge: PFN 450 kgm / min, OVR 2250 kgm. Exercise tolerance is average. Recovery of temperature differences by the method of Vogralik. Holter monitoring: normalization of SDNN, no ischemic changes recorded. The emotional state has improved.

 Recommendations are given in accordance with the second functional class.

 These examples show the effectiveness of biocontrolled magnetic laser therapy in the rehabilitation of patients after myocardial infarction, regardless of the patient's age, severity of damage to the heart muscle, and concomitant pathology.

 Thus, the above set of essential features allows you to use the proposed method of rehabilitation of patients after myocardial infarction, more effectively taking into account their individual characteristics (time of day of violation of the frequency spectrum of RR intervals of ECG and manifestations of ischemia, features of myocardial blood supply in contrast to other tissues (in the diastole phase ), restoration of immunity, direct control and limitation of exposure to the output response of the ratio of heart rate to respiratory rate and the normal range of 3 to 5).

Sources of information
1. Kipshidze N.N., Chapidze G.E., Korochkin I.M., Bohua M.R., Marsagishvili L.A., Kapustina G.M. Treatment of coronary heart disease with a helium-neon laser - Tbilisi, 1993.

 2. Kipshidze NN, Chapidze G.E., Bohua M.R., Marsagishvili L.A., Shapatava Yu.V., Salukvadze N.S., Grigolashvili T.Sh. and Tkhelidze V.E. A method for the treatment of patients with myocardial infarction. USSR patent 1392700, priority 05.16.86.

 3. Korochkin I.M., Tverskoy Yu.L., Kapustina G.M., Devyatkov N.D., Leshakov S. Yu., Arutyunov G.A. A method for the treatment of acute myocardial infarction. USSR patent 1392694, priority 08.10.85.

 4. Khristoforov V.N., Khristoforova T.V., Grabovshchiner A.Ya. Apparatus for magnetic laser therapy. RF patent 2134601, priority 23.06.97.

 5. Zaguskin S.L. Device for physiotherapy. RF patent 2033204. Priority 4.09.89.

 6. Komarov F.I., Zaguskin S.L., Rapoport S.I. Chronobiological direction in medicine: biocontrolled chronophysiotherapy // Therapist, archive, 8. - 1994 - C. 3-6.

7. Zaguskin S.L., Zaguskina S.S. Microstructural chronodiagnostics of cell conditions and the ability to predict the effects of laser therapy. // Photobiology and photomedicine. T. 2, 1. 1999. S. 57-63
8. Vogralik M.V., Rastorguev G.G., Makarova E.V. The use of the Helper apparatus for rapid diagnosis and correction of thymus-dependent immunodeficiency states. // Journal of Oriental Medicine 2 - 1995. - P. 103-109.

 9. Zaguskin S.L., Zaguskina S.S. Criteria for the optimality of parameters of laser therapy. / Laser and information technology in medicine of the XXI century. Materials Int. conf., II part, St. Petersburg, 2001. - C 349-350.

Claims (3)

 1. A method for the rehabilitation of patients after myocardial infarction, which consists of using a quantum therapeutic effect on the patient bio-controlled by signals from pulse and respiratory sensors by zones of projection onto organs whose normalization of function determines the effectiveness of rehabilitation, characterized in that as organs, normalization of function which determines the effectiveness of rehabilitation, myocardium, liver, spleen, thymus and percutaneous blood in the vein of the ulnar fossa were selected, and the impact on the projection area of the myocardium is they act in the phases of diastole and inspiration, and the impact on the projection area of the remaining organs is carried out in the phases of systole and inspiration, in addition, the blood is exposed in the vein of the ulnar fossa percutaneously for 600 beats of the pulse, the effect on the remaining organs is carried out for 120 beats of the pulse, in this case, the ratio of the pulse rate to the respiratory rate is controlled, which is considered normal in the range of 3-5, and when leaving the range for a time exceeding one minute, the quantum therapeutic effect is stopped.  2. The method according to claim 1, characterized in that the choice of time of day for rehabilitation is carried out individually 2-3 hours before the maximum manifestation of pain and / or painless ischemia according to daily monitoring of ECG according to Holter.  3. The method according to p. 1, characterized in that the rehabilitation course is 10-14 days of daily procedures.

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