RU2093070C1 - Pain reducing device - Google Patents

Abstract

FIELD: medicine; therapy; neuropathology. SUBSTANCE: patient is subjected to simultaneous effect of self-controlled relaxation of muscles checked by biological feedback and inactivation of trigger points by electric pulses the parameters of which are close to those of biopotentials of organs and tissues. Device has two groups of electrodes. Electrodes of first group serve as sensors of patient's muscle activity. Device has also amplifier, integrator connected to threshold member which is in its turn series-connected to multivibrator, infra-low frequency generator and to second group electrodes. Myosignal indicator is connected to threshold device input. EFFECT: improved therapy. 1 dwg

Description

 The invention relates to medicine, in particular to therapy and neuropathology, and can be used in the treatment of various diseases accompanied by vegetative-vascular disorders, using biological feedback (BFB) and electrical stimulation.

 Known electronic devices, modulators for the treatment of migraine and their corresponding methods, including the supply of a transdermal electronic wave between electrodes installed on the corresponding points, consisting of a high-frequency electric wave with low-frequency amplitude modulation.

 A device for obtaining a stimulating signal for easing pain in muscle tissue and its use. The device has three electrodes: active, passive and ground. In addition, two peripheral electrodes are connected by conductors to the control unit. The control unit amplifies the electromyographic signal, turning it into a stimulating one.

 Known electronic device and method of alleviating pain during migraine, including a modulator, stimulating electrodes and a generator. The electronic device provides the transdermal effect of electrical vibrations on the patient's body in order to counteract the sensations caused by migraine.

 The main disadvantage of the above analogues is the lack of biological feedback (BFB), which completely excludes the patient’s participation in the treatment process, as well as the impact on the patient with impulses whose parameters do not correspond to the biopotentials of the organs and tissues of the body.

 Closest to the proposed device is a device containing a standard electromyograph, indicator and sound generator. A disadvantage of the known device is that it does not provide the proper therapeutic effect, because the excitability of trigger points that cause pain of one or another localization does not decrease.

 Thus, from the analysis of the existing level of technology it was revealed that existing methods and devices provide pain reduction through biofeedback, relaxation, electrical stimulation. However, all these technical solutions have significant drawbacks, namely: they all provide a low therapeutic effect due to the absence of impact on the points that trigger the painful state of the muscle (trigger points).

 The task is to ensure an increase in the therapeutic effect by inactivating trigger points.

 The problem is solved in that, in order to achieve pain relief, the trigger points are affected by electric signals with parameters close to the parameters of the biopotentials of organs and tissues, while the patient voluntarily relaxes the muscles using biological feedback. The feedback signal is a miosignal.

 A device for pain relief, including a chain of series-connected amplifier of myosignals with sensors, an integrator, indicators of myosignals, additionally has a threshold device, a multivibrator and an infra-low frequency generator with electrodes connected in series, while the output of the integrator is connected to the input of the threshold device.

 The threshold device provides the appearance of a signal at its output when a certain voltage appears at its input, which ensures the operation of the light indicator. The multivibrator provides control over the operation of the infra-low frequency generator when a signal from a threshold device appears. Their relationship provides an impact on the patient biofeedback. The generator of infra-low frequencies produces signals of infra-low frequency, modulated in amplitude according to a random law and provides, when interacting with other elements of the device, analgesia of myofascial points and improved microcirculation in tissues.

 From the analysis of the existing level of technology is not found a device characterized by features identical to all the essential features of the proposed device. All signs are essential and necessary in achieving a technical and therapeutic result. Thus, the proposed device meets the criteria of the invention of "novelty."

 The newly introduced elements of the device are widely known, however, their relationship with other elements of the circuit and the interaction of all elements of the circuit provides a new property when the device is used to inactivate excited trigger points. It is the simultaneous effect on the patient through two channels: self-regulating muscle relaxation by the patient under the control of biofeedback plus inactivation of trigger points using pulses with parameters of the biopotentials of organs and tissues not only faster and for a longer period relieves the patient from pain associated with muscle hypertonicity, but also normalizes its blood pressure, which ensures the achievement of an effective therapeutic treatment.

 To date, the above property has not been provided by known devices, but has been identified and implemented by the author, which corresponds to the inventive step.

 To implement the proposed device, it is sufficient to use well-known tools described in the application materials for a mid-level specialist. It is possible to use this device in practical health care, outpatient clinics, dispensaries, and home conditions. Thus, the device is industrially applicable.

 The device for pain relief consists of an amplifier of myosignals 1 with sensors 2 (see drawing). The amplifier 1 is connected to the input of the integrator 3, which, in turn, is connected to the threshold device 4. The threshold device 4 is connected to the input of the light indicator 5.

 An example of a specific device operation in the treatment of a patient. The patient is placed in a comfortable chair. The doctor with the help of the patient determines the localization of pain and imposes a pair of electrodes (2) of the device on the muscles of the pain area (see the appendix to the application of Fig. 1), a second pair of electrodes (8) on the corresponding trigger points. Then instructions are given on which strategies to use for voluntary control of muscle tone. The patient is given the opportunity by the method of auto-training to find a functional state in which the muscles begin to relax. When you turn on the device, the electrical activity of the muscles is recorded. Myosignals from the electrodes (2) through an amplifier (1) are fed to an integrator (3), where they are converted and fed to a threshold device (4). If a certain threshold value is exceeded, namely 25 + 1.2 μV, the myosignal goes to indicator 5, i.e. converted into a light signal, and a multivibrator (6). The indicator (5) lights up, and the multivibrator (6) simultaneously turns on the infra-low frequency generator (7). With an increase in muscle tone, the blinking frequency of the indicator (5) increases. An autotraining patient achieves the most complete muscle relaxation, which is controlled by an indicator (5). At the same time, muscle relaxation is achieved using the infra-low frequency generator (7), with which stimulation of the corresponding trigger points is carried out. The additional exposure to electric impulses with parameters close to the parameters of the biopotentials of organs and tissues, with the help of which additional inactivation of trigger points occurs independently of the patient, significantly increases the effectiveness of treatment and pain relief.

 Thus, the use of a device for pain relief provides an effective effect on the body while biofeedback and electrical stimulation of trigger points and muscles are exposed, which leads to muscle relaxation, improvement of microcirculation processes, analgesia of myofascial points. Due to this, pain is reduced and relieved, a persistent effect is observed, the drug effect is reduced. Autonomous power, ease of use, portability allows you to use the device in any conditions.

Claims (1)

 A device for pain relief, containing the first group of electrodes, which are sensors of the patient’s muscle activity, connected through an amplifier to the input of the integrator, and an indicator of myosignals, characterized in that it is additionally equipped with a threshold element, a multivibrator and an infra-low frequency generator connected in series, the output of which is connected to the second a group of electrodes located in the zone of the trigger points of the patient to be stimulated, and the input of the threshold element is connected to the output of the integrator, and Exit to the input of the indicator.