RU2360709C1 - Method of integrated treatment sensorineural deafness - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves as follows. Neuroreceptor apparatus of coclea is exposed to electric current and IR-laser. In addition, posterior surface of neck, both sides of sternocleidomastoid muscles, trapezius muscles and epinephros projections are exposed to electric current 1-150 Hz at send pauses 2 seconds. Current strength within 0.1-100 mA range is adjusted for each pair of electrodes individually starting from sensations of easy vibration within acoustic meatus to slight muscle contraction within the other electrodes. Additionally, laser exposure is applied within posterior surface of neck, both sides of parotic and superolateral surfaces of neck, right and left hypochondria. Exposure intensity is 4.34-38 mJ/cm². Exposure for each field is 2 minutes. The therapeutic course is 16-20 procedures with each exposure type changed every second day.

EFFECT: higher clinical effectiveness ensured by complex exposure on reflexogenic zone of an organism, improved blood circulation, improved immunity and longer remission.

2 ex

Description

The invention relates to medicine, namely to reconstructive medicine, physiotherapy, otorhinolaryngology, and can be used for comprehensive rehabilitation of patients with sensorineural hearing loss.

A known method of treating hearing loss with sinusoidal modulated currents (SMT), when the effect is carried out on the cervical sympathetic formation and projection of the vertebral artery, frequency - 100 Hz, modulation depth 25-100%, 1 kind of work, 2 minutes, 5-7 procedures (B. P. Nikolayevskaya Physical methods of treatment in otorhinolaryngology. - M.: Medicine, 1989. - P.215).

There is also a method for the treatment of sensorineural hearing loss by drug treatment and exposure to low-frequency pulse current with a bipolar asymmetric pulse shape with a trapezoidal envelope, with a frequency of 20 to 120 Hz, with a period of 4 to 32 s, a current of 2 to 100 mA according to the patient's individual sensations , with a course of treatment equal to 8 procedures carried out for 5-30 minutes. In this case, a turunda electrode is inserted into the ear canal, and the second electrode is placed on the upper thoracic spine, while the other two electrodes are placed on the trapezius muscle in the upper thoracic spine and connected to the channels of the apparatus (RF Patent No. 94024350/14, class A61N 1 / 30.1994).

The disadvantages of these methods are the lack of impact on the peripheral organs of immunity and the neuroendocrine system in the abdomen.

The disadvantages of these methods is the heavy load on the patient’s body, which, as a rule, has a concomitant pathology, for example, the consequences of an acute cerebrovascular accident, hypertension, encephalopathy, head trauma and many other diseases.

Closest to the proposed method is a comprehensive treatment of sensorineural hearing loss, including exposure to the neuro-receptor apparatus of the cochlea of the inner ear with electric current and infrared laser radiation (RF Patent 2093206, class A61N1 / 30, 1997).

In this technical solution, they sequentially act by electrostimulation for one minute on one ear, magnetotherapy for 15-20 minutes, light stimulation, low-energy laser radiation of the infrared and red spectra, while the magnetic field is irradiated through the endoural rod, and the total dose of laser radiation is 75 -300 J / cm ² . The stability of the effect is achieved by increasing the circulating capillaries, activating blood circulation and improving trophic tissue.

However, this method does not cover the necessary areas and structures that are involved in the pathological process and dysfunction in which support its existence. In addition, in the event of a bilateral lesion, the procedures are carried out sequentially in each ear in each ear, which increases the patient’s exposure time to a current of up to 240 min, which is a big burden for the patient’s body, which usually has a concomitant pathology, for example, the consequences of acute cerebrovascular accident , hypertension, encephalopathy, head trauma and many other diseases.

Specified in the prototype dose of laser radiation, as a rule, is used for surgical operations. In therapeutic treatment, the dose of exposure in the head area, according to modern concepts accepted in healthcare, should be 3-12 J / cm ² .

In accordance with this, the task was set to increase the effectiveness of treatment, due to the complex effect on the areas related to the reflexogenic zone, these are the muscles and nerves of the head, neck and trunk, as well as lymphatic drainages of these areas. The selected parameters provide a sparing effect on the patient’s body as a whole, significantly improving auditory function, and maintain a state of health. In addition, the method is less time-consuming, since it allows for treatment both with unilateral and bilateral lesions of sensorineural hearing loss. This reduces the patient’s exposure time, and also improves neuromuscular conduction in the area of influence, since it is known that the nerve pathways of the auditory analyzer intersect in the area of the brain, therefore it is the effect on two fields that will be more effective at the same time.

In the pathogenesis of sensorineural hearing loss are circulatory disorders, increased blood clotting, as well as the consequences of inflammatory reactions against a background of reduced immunity in patients. Electrical stimulation is the most powerful physical factor that improves blood circulation. At the same time, laser therapy has an anti-inflammatory effect, increases immunity, and prevents thrombosis. Thus, the combined use of electrical stimulation and laser therapy is highly effective for the treatment of patients with sensorineural hearing loss and the most sparing for patients in the presence of concomitant pathology. In the proposed method of treatment, it is the combined use of these factors that is important, and not their strict sequence.

To solve this problem, in a method for the comprehensive treatment of sensorineural hearing loss, which includes exposure of the cochlea of the inner ear to an electric current and infrared laser radiation, it is proposed to additionally apply an electric current to the back of the neck, on both sides of the sternocleidomastoid muscle , trapezius muscles and projections of the adrenal glands, with a current frequency of 1-150 Hz, pauses between sends for 2 seconds, a current of 0.1-100 mA, adjustable for each pa a swarm of electrodes individually, from sensations of slight vibration in the area of the auditory canals to slight muscle contraction in the area of other electrodes, and laser exposure should additionally be performed in the areas of the back surface of the neck, on both sides of the parotid and upper lateral surfaces of the neck, in the right and left hypochondria is 4.34-38 mJ / cm ² , the exposure time for each field is 2 minutes, the course of treatment is 16-20 procedures with alternating types of exposure every other day.

The method is as follows.

First, electrical stimulation is performed.

When conducting electrical stimulation, the first electrode-turunda is introduced into the ear canal and tamponized until it contacts the eardrum, the second electrode is placed paravertebrally in the region of the corresponding cervical spine. Two other electrodes are located in the skin projection of the following muscles: sternocleidomastoid on both sides (self-adhesive electrodes 2 × 2 cm in size), additionally, in the area of the trapezius muscle in the upper thoracic spine and in the area of the skin projection of the adrenal glands on both sides (electrodes size 10 × 2 cm). The electrodes are connected to the channels of the apparatus (1-7). The frequency of the current is from 1 to 150 Hz, the sending and pausing are 2 s, respectively, the time is 10-20 minutes, the current strength is independently regulated on each channel from 0.1 to 100 mA to the sensations of slight vibration in the ear canal and to a slight reduction muscles in the area of other electrodes.

The next day, laser therapy is performed with a wavelength of 0.89 μm using the emitter-matrix in the areas of the affected ear with capture of the area in front of the tragus and mastoid process, the lateral surface of the neck from the sides, the back of the neck, and the projection of the right and left hypochondria. Moreover, in the case of an acute course of the disease, laser radiation with a frequency of 150 Hz is used, which corresponds to 38 mJ / cm ² ; with subacute flow - 50 Hz and 12.8 mJ ² , with chronic - 15 Hz and 4.34 J / cm ^2, respectively. The exposure time for each field is 2 minutes. The course of treatment is 8-10 procedures every other day. The use of a matrix emitter having a large exposure area with a uniformly distributed radiation power density can significantly increase the efficiency of the procedure and obtain a more stable effect.

To perform our technique, you can use an electric stimulator, in which there are at least 7 independently controlled channels. For practical work, the multichannel electro-stimulator of the Miomodel type proved to be the most effective. For laser therapy, you can use any device that has a matrix emitter, in our method we used the "Standard" apparatus.

One of the important therapeutic tasks is the normalization of the autonomic nervous system, which controls trophic processes in the body, in particular, helps to restore fragments of a decayed protein - “auditory purpura”, ie may affect the process of “reversible protein denaturation”. Therefore, the effect is carried out in the region of the back surface of the neck, where the nerve branches depart from the cervical sympathetic trunk, which penetrate the cranial cavity and innervate the vessels and membranes of the brain, the pituitary gland, including the branches to the drum nerve and ear node, and also regulate vasoconstriction of blood vessels . Here is the projection a. vertebralis, the branches of which are the artery a. basilaris. Its continuation is a. timpanica, which has no collaterals. Therefore, as a result of microcirculation disorders in this area, tissue hypoxia occurs, which exacerbates the situation. In order to normalize blood circulation, they are additionally affected by these factors behind the auricle in the region of the pertussis muscles, which improves blood flow in this area. In the same zone are the lymph nodes into which lymph flows from the entire outer ear from the middle ear and ramus auricularis, as well as the sensitive branches (n. Vagi) that innervate the posterior and lower walls of the ear canal.

By acting in front of the tragus, we counted on activating n. auriculotemporalis (from the third branch of n. trigeminus), which innervates the eardrum and the wall of the external auditory canal. In addition to pathological processes occurring locally in the ear region, metabolic disorders in the homeostasis system also occur, accompanied by a violation of fibrinolysis. Therefore, to normalize this imbalance, an effect is carried out in the liver. As a result, the barrier function of this organ increases and the lymphoreticulohistiocytic system of the liver is activated, which neutralizes toxic products. And also all types of metabolism occurring in the liver are normalized, including the liver produces coagulation factors.

Considering the presence of an infectious component in the origin of sensorineural hearing loss, we had an effect on the spleen, which is essentially the only peripheral organ of the immune system located on the way of blood flow from the aorta to the portal vein system. The spleen is one of the first to respond to the appearance of antigens by synthesizing immunoglobulins and white blood cells.

Additionally, the effect is carried out in the projection of the adrenal glands in order to normalize the functioning of the sympathoadrenal system, the dysfunction of which accompanies (sensorineural) sensorineural hearing loss.

Thus, the proposed method has several advantages over the prototype. The impact is carried out by the natural functional ways of conducting sound, both on the sound-conducting apparatus - the outer and middle ear, and on the sound-sensing apparatus - the inner ear, in contrast to the prototype, in which the impact is proposed to be carried out bypassing the sound perception system. It is through the use of these two systems that sound energy acquires the parameters necessary for its perception by receptor organs and its conversion into bioelectric signals.

The impact is also carried out indirectly on the structure of the ear. This effect on the trigeminal nerve (the area in front of the tragus), the branches of which provide innervation m. tensor timpani, which regulates the degree of tension of the eardrum and sets in motion the handle, hammer, anvil and stirrup. Acting on n. Facialis (under the earlobe), we indirectly improved the work of m. Stapedius, which adjusts the amount of stapes displacement.

In case of violation of arterial inflow and venous outflow in the cochlea, connective tissue may develop and endolymph production may be disturbed. From the endolymph, the snail receives about 20% oxygen. In cases of impaired lymph accumulation, hearing loss often develops. Therefore, to improve blood circulation, the effect is carried out in the projection area m. sternocleidomastoideus and m. omohyoideus, where v. jugularis interna into which v. auricularis posterior and plexus pterigoideus and veins from the inner ear. In the same area pass the lymphatic vessels collecting lymph from the head and neck.

Acting in the muscle area: m. sternocleidomastoideus and m. trapezius, also affecting the spatial position of the head, we indirectly impose on an older vestibular analyzer, which is directly related to auditory function. Such an effect adequately affects the system of not only the motor analyzer associated with the ear, but also the psychophysics of hearing (thresholds of space, location and time). The basis of ototopics (spatial perception of hearing) is binaural hearing, which is why it is so important in complex treatment to act on both ears.

A distinctive feature of the proposed method is, on the one hand, its versatility when acting on different forms of the disease, and not only in chronic form, as in the prototype. On the other hand, a differentiated approach is proposed. So in the acute course of the disease, laser radiation with a frequency of 150 Hz is used, which corresponds to 38 mJ / cm ² , in the subacute course - 50 Hz and 12.8 mJ ² , in the chronic - 15 Hz and 4.34 J / cm ^2, respectively.

We observed 70 patients: the 1st group of 10 people - the control, the 2nd - 20 patients with acute sensorineural hearing loss, the 3rd - 20 patients with subacute sensorineural hearing loss and the 4th - 20 patients with chronic sensorineural hearing loss. They started treatment after the end of the examination.

Treatment was monitored by clinical and laboratory research methods, including Stanvers radiography, cervicothoracic spine, rheography, audiological examination, consisting of audiography and impedance measurement, as well as other examination methods.

At the Department of Otorhinolaryngology, examination of patients revealed a decrease in speech intelligibility.

Audiometric curves were, as a rule, descending with the absence of a bone-air interval. Often, the audiometric curves “break off” at a maximum reduction frequency of 4000-8000 Hz. At the same time, whispering is worsened due to the predominance of high frequencies in its spectrum. Subjective tinnitus was observed in 84% of patients and had a predominantly high tonality.

Prior to treatment, patients had an increase in vascular tone in the system of carotid arteries. In this case, the VA index, reflecting the peripheral resistance of arterial and arteriolar vessels, was 142.4 ± 0.5% (with a norm of 50-80%). Venous tone was also increased: the VO score reached 37.2 ± 0.8% (with a norm of 0 to 30%).

Clinical and functional research methods revealed an improvement in the condition of patients after complex treatment in 83% of cases: the subjective condition of patients improved, complaints decreased, blood circulation in the muscles affected was normalized, and neuromuscular diagnostics improved, and hearing improved. After the complex treatment and study of the quantitative characteristics of the parameters of the reographic study, a positive effect on cerebral hemodynamics in the vertebral artery system was noted. Moreover, by the end of the course of treatment, VA was 91.3 ± 0.6%, and by six months - 95.6 ± 0.3% (p <0.05 compared with the control). At the same time, the VO indicator also improved: by the end of the course of treatment - 30.2 ± 0.2%, after six months - 32.9 ± 0.4% (p <0.05 compared with the control). By only 12 months, cerebral circulation began to deteriorate again, while VA and VO indicators also began to deteriorate, which was accompanied by a deterioration in the clinical course of the disease.

After complex treatment, in 86% of patients with sensorineural hearing loss during the follow-up, by 6 months, the absolute indicators of hearing gain were up to 40 dB (p <0.05 compared with the control). At the same time, the subjective condition of the patients improved, their complaints decreased, cerebral blood circulation returned to normal, and hearing also improved. Patients tolerated treatment well, there was no exacerbation of concomitant diseases, and remission persisted for a year.

In the control group, some improvement in the condition of patients was achieved at a later date, and remission lasted less time and was unstable in some patients.

Clinical example No. 1. Patient K., 1937, diagnosis: Acute right-sided sensorineural hearing loss. Complaints of hearing loss in the right ear, noise in the right ear. On the audiogram, hearing loss in the right ear is of the neurosensory type, hearing loss is 1 degree. Thresholds of hearing in the speech zone - 40 dB. Treatment was prescribed according to the method we proposed. An electrode-turunda was introduced into the patient’s area of the ear canals, a second electrode was placed in the cervical spine, as well as in the skin projection of the parotid muscles, sternocleidomastoid on one side (self-adhesive electrodes 2 × 2 cm in size), and additionally in the area trapezius muscle in the upper thoracic spine and in the area of the skin projection of the adrenal glands on both sides (electrodes 10 × 2 cm in size). They acted in the stimulation mode, the frequency of the current was from 1 to 150 Hz, the sending of pulses and the pause were 2 s, respectively, the time was 10-20 minutes, the current strength was regulated on each channel independently from 0.1 to 100 mA until there was a slight vibration in the region auditory passages and until a slight contraction of the muscles in the area of other electrodes. Laser therapy was carried out in the areas of the right ear, upper lateral surface of the neck, posterior surface of the neck, right and left hypochondrium. The exposure dose was 38 mJ / cm ² and the frequency was 150 Hz. After the course of treatment: an increase in hearing thresholds in the speech zone up to 25 dB, hearing is within normal limits.

Clinical example No. 2.

Patient D., 1951, diagnosis: Chronic bilateral sensorineural hearing loss, II degree, against a background of vibration disease. He complained of hearing loss in both ears, tinnitus, as well as other complaints characteristic of diseases associated with the underlying pathology. On the audiogram, hearing loss in the right ear according to the neurosensory type, hearing loss II tbsp. Treatment was prescribed according to the method we proposed. An electrode-turunda was introduced into the patient’s area of the auditory canals, the second electrode was placed in the cervical spine, as well as in the skin projection of the muscles of the parotid, sternocleidomastoid (self-adhesive electrodes 2 × 2 cm in size), and additionally in the area of the trapezius muscle in the upper thoracic spine and in the area of the skin projection of the adrenal glands on both sides (an electrode 10 × 2 cm in size). The electrodes are connected to the channels of the apparatus (1-7), which worked in the mode of electrical stimulation. The frequency of the current is from 1 to 150 Hz, the period is 4 s, the time is 10-20 minutes, the current strength is independently regulated on each channel from 0.1 to 70 mA: to the sensations of slight vibration in the ear canal and to slight muscle contraction in the region other electrodes.

Subjectively, the condition of the patients improved: tinnitus significantly decreased, but the hearing in both ears with an objective examination practically did not change. The patient is a disabled person of 2 groups. Given the long-standing nature of the disease since 1999, it was possible to stabilize the result for 8 months, which is the main task in the treatment of chronic sensorineural hearing loss.

Using this method will improve the effectiveness of treatment, get a more stable effect, expand its scope, significantly reduce the treatment time.

Claims (1)

A method for the comprehensive treatment of sensorineural hearing loss, including exposure to the nerve receptor apparatus of the cochlea of the inner ear with electric current and infrared laser radiation, characterized in that the electric current is additionally provided on the back of the neck, on both sides of the sternocleidomastoid muscle, trapezius muscles and projections of the adrenal glands, with a current frequency of 1-150 Hz, pauses between sends of 2 s, a current of 0.1-100 mA, adjustable under each pair of electrodes ind In addition to sensations of slight vibration in the area of the auditory canals to slight muscle contraction in the area of other electrodes, laser exposure is additionally carried out in the areas of the back of the neck, on both sides of the parotid and upper lateral surfaces of the neck, in the right and left hypochondria, while the exposure power is 4 , 34-38 mJ / cm ² , the exposure time for each field for 2 minutes, the course of treatment of 16-20 procedures with alternating types of exposure every other day.