RU2161994C2 - Electrophysical method for treating neurosensory hypoacusis - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves applying interval cardiographic examination to exclude vagotonia, then, repeatedly exposing cervical zone to transcutaneous action of rotating field of electric pulses. Frequency, duration and amplitude of the pulses are individually set for each patient to reduce sympathetic nerve system activity. Radiothermy radiation is measured in symmetrical areas of temporal and parietal brain zones using multichannel radiothermograph device during the exposure and in pauses between them. Interval cardiographic examination is carried out to evaluate vegetative system state. Medical treatment duration and the number of cycles applied during the treatment course are regulated until the required level of radiothermy radiation fluctuation synchronism in the symmetrical areas of temporal and parietal brain zones and reduction of sympathetic nerve system activity is achieved. EFFECT: enhanced effectiveness in repairing neurosensory functions of acoustic analyzer structures. 2 cl, 1 dwg

Description

 The invention relates to medical equipment and can be used to treat sensorineural hearing loss in acute and chronic periods.

 Analogues of the proposed method are various options for electrophysical effects on biologically active points [1, 2].

 The closest analogue of the invention is an electrophysical method for the treatment of sensorineural hearing loss by dosing with weak electric pulse current on biologically active points of the skin around the auricle and auricular points. The course of treatment includes 10-12 procedures conducted daily or every other day. During the procedure, they are affected by a pulsed voltage with an amplitude of 10 V, and the current value does not exceed 3 mA [3].

 A disadvantage of the known electrophysical method for the treatment of sensorineural hearing loss is a low therapeutic effect, which can be explained, firstly, by the fact that the choice of biotropic parameters of the electric current (frequency, duration and amplitude of the pulses) and the duration of its effect on biologically active points was performed without taking into account individual physiological characteristics the patient; secondly, the audiometric methods used to assess auditory function (tonal audiometry, impedanometry, neuroaudiometry) do not allow you to control the treatment process at the time of electrophysical exposure and change the biotropic parameters of the electric current and exposure time so as to achieve the best therapeutic effect in this patient. The objective improvement in auditory function in patients after treatment with the known electrophysical method, recorded by the tonal audiometry method, did not exceed 50%. At the same time, the improvement in hearing was considered significant with a decrease in hearing thresholds of 10 dB or more at the three studied frequencies.

 These disadvantages limit the capabilities of the method.

 The essence of the invention lies in the fact that in the known electrophysical method for the treatment of sensorineural hearing loss by dosing with weak electric pulse current on biologically active points of the skin around the auricle and auricular points, in order to increase the effectiveness of the treatment process, they produce multiple transdermal effects on the cervical ganglia, to periodically block the activity of the left or right branches of the sympathetic nervous system, due to which rektsiya regulation of cerebral circulation [4]. Before exposure, cardiointervalography is performed and the condition of the patient's autonomic nervous system is determined. In the case of vagotonia, a course of drug vascular therapy is carried out using cavinton, trental or euphilin, which can enhance the activity of the sympathetic nervous system [5]. Next, the activity of the cervical ganglia is blocked by a rotating field of electric pulses formed by a multi-element cathode, consisting of Q conductive elements isolated from each other, and a single-element anode. At the same time, a different value of the current density of electric pulses in the impact zone is provided per unit time so that the maximum value of the current density per unit time falls on the zones of the cervical ganglia, where the anode is placed. For this, the area of the multi-element cathode should be larger than the area of the anode. The rotation in the space of the influence of the field of electrical pulses is ensured by the alternate inclusion, in accordance with the specified law, of one of the Q conductive elements of the multi-element cathode in the current-forming circuit.

 During treatment, the frequency, duration and amplitude of the pulses are set so as to ensure numbness of the earlobe.

 The drawing shows the time sequence of the treatment process. Here AO - audiometric examination, CIG - cardiointervalography, B - exposure, P - pause.

Before electrophysical exposure to the patient, an audiometric examination is performed using one of the known methods (tonal audiometry, impedanometry, neuroaudiometry) and cardiointervalography. The course of treatment consists of several procedures, in each of which an alternation of the cycles of “exposure” is provided, when during the time t _{1 they are} applied by pulses of electric current to the cervical ganglia, and “pause” when during the time t _{2 the} exposure is stopped. These procedures are carried out daily or every other day K times. After a break in treatment, they are repeated. The total number of repeated courses is M.

где a - нормирующий коэффициент.Under the influence and in the pauses between them, the radiothermal radiation is measured with a multichannel radiothermograph of the deep structures of the brain in symmetrical sections of the temporal and parietal zones. The synchronism S of radiation fluctuations in the indicated regions of the brain is estimated, for which the output signals X _i (t) of each channel of the radiothermograph (i is the channel number) are multiplied in pairs, averaged over the measurement interval T and normalized in accordance with the equation

where a is the normalizing coefficient.

то повторяют циклы "воздействие" и "пауза", измеряя время воздействий t₁ и пауз между ними t₂, а также увеличивают количество j циклов так, чтобы синхронность флуктуаций излучения увеличивалась. Во время одной процедуры количество циклов, как правило, не превышает 10. Повторные курсы проводят до тех пор, пока не будет выполняться условие

в симметричных участках височной или теменной зон, где M - номер соответствующего курса, а b - эмпирический показатель, устанавливаемый для различных возрастных групп пациентов (всегда b > 0).If during the treatment cycle the average score

then the cycles “exposure” and “pause” are repeated, measuring the exposure time t ₁ and the pauses between them t ₂ , and also increase the number of j cycles so that the synchronism of radiation fluctuations increases. During one procedure, the number of cycles, as a rule, does not exceed 10. Repeated courses are carried out until the condition is met

in symmetric areas of the temporal or parietal zones, where M is the number of the corresponding course, and b is the empirical indicator established for different age groups of patients (always b> 0).

 Before and after the next procedure, cardiointervalography and audiometric examination are performed. In the normal course of the treatment process, the activity of the sympathetic part of the autonomic nervous system should decrease, and the auditory function should improve.

 In the laboratory of problems of speech, voice and hearing of the Scientific and Practical Center "Bonum" from September 1995 to August 1997, the electrophysical treatment of 18 sick children aged 3 to 14 years suffering from a chronic form of sensorineural hearing loss was carried out using the method described above . The treatment was carried out with the ALM-1 apparatus, which creates a rotating cone-shaped field of electric impulses in the area of application of the multi-element cathode and single-element anode, and the maximum current density sufficient to percutaneously block the activity of the cervical ganglia is provided in the area of the anode. To measure radiothermal radiation, a medical RM-40 radiothermoscope was used, which makes it possible to measure the radiothermal radiation power of the deep structures of the brain in the frequency band from 650 to 850 MHz simultaneously in two parts of the deep structures of the brain [6]. Cardiointervalography was performed by the Reocard hardware-software complex. The number of K procedures during the treatment process ranged from 3 to 8, the number of j cycles in the procedure ranged from 1 to 2, and repeated courses of treatment were carried out after 30-45 days. The total number M of repeated courses, depending on the dynamics of restoration of auditory function in patients, ranged from 2 to 5. The boundary value of the empirical indicator b for children of the above age group at the end of the final treatment cycle was assumed to be 0.1. The function of the neurosensory structures of a healthy auditory analyzer, according to the estimates of tonal audiometry, was taken equal to the threshold of audibility within ± 15 dB [7].

 As a result of treatment, an improvement in the function of the neurosensory component of the auditory analyzer was achieved in 16 patients, a decrease in the threshold of sound perception by 15-20 dB in 2 patients, a decrease in the threshold of sound perception to 10 dB in 6 patients, and an extension of the frequency range of sound perception in 3 patients. In 2 patients, changes in the audiograms were not detected, however, according to subjective assessments of the parents of one of them, the hearing in the child improved.

 We give examples of the treatment of the chronic form of sensorineural hearing loss with the proposed electrophysical method.

 Example N 1. Andrey Z., 13 years old. He complained of sharp bilateral hearing impairment. Hearing impairment occurred after meningoencephalitis suffered at the age of 3 years. Repeatedly conducted drug treatment (nootropic, vascular agents, etc.) was ineffective.

 Objectively: the arithmetic mean values of the audibility thresholds of an audio signal over bone conduction in the speech frequency range from 500 to 4000 Hz, estimated by tonal audiometry method - 47 dB.

 Over the course of 18 months, four courses of treatment with the ALM-1 apparatus were carried out: 3–6 procedures in each course, depending on the dynamics of the evaluation values S of the synchronism of fluctuations in the thermal radiation of the brain in symmetrical sections of the parietal or temporal zones of the brain and changes in the indicators of the state of the autonomic system according to cardiointervalography.

 Before the 3rd cycle, to increase the activity of the sympathetic division of the autonomic nervous system, a course of vascular therapy with the use of cavinton was performed.

 As a result of the treatment, the hearing threshold in the patient has changed to a value of 20 dB.

 According to cardiointervalography, the activity of the sympathetic part of the autonomic nervous system decreased during treatment: the stress index changed from 104.5 to 37.9. The average estimates of S of the synchronism of fluctuations in the symmetric sections of the parietal zone of the brain in the final treatment cycle were more than 0.2.

 As a result of treatment, the patient experienced an almost complete restoration of the function of the neurosensory structures of the auditory analyzer.

 Example No. 2. Ksenia Yu., 5 years. Received complaints of hearing loss on the left after suffering purulent meningitis 6 months before contacting the NGO Bonum.

 Objectively: thresholds of audibility on bone conduction on the right are within normal limits; on the left - 50 dB at a frequency of 250 Hz, 60 dB at a frequency of 500 Hz, lack of audibility at subsequent frequencies.

 Within 6 months, 3 courses of treatment with the ALM-1 apparatus were conducted, 5 procedures in each course.

As a result of the treatment, the following indicators were recorded:
audibility thresholds on the right are within normal limits; on the left, sound perception appeared over the entire frequency range, the audibility threshold at a frequency of 250 Hz decreased to 30 dB, and at a frequency of 500 Hz - up to 45 dB.

 During treatment, there was a decrease in the activity of the sympathetic division of the autonomic system after each treatment cycle. During the last cycle, the voltage index changed from 456.9 to 353.0. The average S estimates of the synchronism of fluctuations in the symmetrical parts of the parietal and temporal zones of the brain in the final treatment cycle were more than 0.15.

 As a result of the treatment, there was an improvement in the performance of the auditory analyzer and the patient was shown the continuation of the course.

 Example No. 3. Anton B., 11 years old. Received with a diagnosis of bilateral hearing loss, mixed form; left-sided epithympanitis in remission.

 Objectively: audibility thresholds for bone conduction on the right are 20.8 dB, on the left - 13.3 dB.

 As a result of the treatment, the following indicators were recorded: auditory thresholds decreased to 12.5 dB on the right and 2.5 dB on the left, according to cardiointervalography, the voltage index decreased from 782.3 to 245.4, which indicates a decrease in the activity of the sympathetic autonomic nervous system.

 The average S estimates of the synchronism of fluctuations in the thermal radiation in the symmetric sections of the parietal and temporal zones of the brain in the final treatment cycle were more than 0.17.

 As a result of the treatment, the auditory analyzer was completely restored.

 The method of electrophysical treatment of sensorineural hearing loss is non-invasive and provides a more effective restoration of the function of the sensorineural structures of the auditory analyzer compared to known methods, especially in children, without any complications.

Literature
1. F. Werner "Fundamentals of electroacupuncture", Imedis, 1993, 178 pp.

 2. A. F. Barsukov, T.V. Lotte "Experience in the use of electropuncture for the treatment of patients suffering from sensorineural hearing loss", materials of the 15th Congress of Otorhinolaryngologists of Russia, vol. 1, St. Petersburg, 1995, 466 p.

 3. T.V. Lotta, “Experience in the use of the AKSOE-02 electric stimulator in the treatment of patients with sensorineural hearing loss,” Selected issues of otorhinolaryngology and logopathology (abstracts of the XLIII All-Russian Conference of Young Otolaryngologists), St. Petersburg, 1995, 116 pp.

 4. Yu. E. Moskalenko, A.I. Beketov, R.S. Orlov "Brain circulation: physical and chemical methods of study", L .: Nauka, 1988, 159 pp.

 5. S. Kmita "Otolaryngology of childhood", Polish State Medical Publishing House, Warsaw, 1971, 296 p.

 6. A. L. Azin, V.S. Kublanov “Method of deep microwave radiothermography for studying the pathogenesis of headache. Electrophysical method for treating headaches”, Medical care for war veterans, Yekaterinburg, UIF Nauka, 1995, p. 27-44.

 7.V. G. Bazarov, V.A. Lisovsky, B.S. Frost, O.P. Tokarev "Fundamentals of Audiology and Hearing Prosthetics", M .: Medicine, 1984, 253 p.

Claims (2)

 1. A method for the treatment of sensorineural hearing loss through dosed exposure to weak electric pulse current, characterized in that they perform cardiointervalography to exclude vagotonia and then repeatedly percutaneously affect the cervical zone in the projection of the ganglia of the sympathetic nervous system by a rotating field of electrical impulses, with frequency, duration and amplitude pulses are set individually for each patient so as to reduce the activity of the sympathetic nervous system, during After exposure and in the pauses between them, the thermal radiation of deep structures is measured in symmetrical sections of the temporal and parietal zones of the brain, after a treatment cycle consisting of several exposure modes and pauses between them, cardiointervalography is performed and the state of the autonomic system, the duration of the treatment cycle, and the number of cycles per treatment course is regulated until a predetermined level of synchronism of fluctuations in the deep structures of the thermal radiation is reached in symmetrical x areas of the temporal or parietal zones of the brain and a decrease in the activity of the sympathetic part of the autonomic system.  2. A method for the treatment of sensorineural hearing loss according to claim 1, wherein in the case of vagotonia, a course of drug vascular therapy is carried out to increase the activity of the sympathetic part of the autonomic system.