Electric neuroadaptive stimulator and electrode device

FIELD: medical engineering.

SUBSTANCE: device has DC power supply source, unit for shaping trigger pulses, electrode unit, bisectional highly regenerative inductance coil, N electronic controlled keys for switching-in active electrode mode, N electrodes of electrode unit, key amplifier, N electronic controlled keys for switching-in electrode unit electrodes into passive electrode mode and unit for setting electrode function. The electrode unit has socket for connecting electric neuroadaptive stimulator, current-conducting conductors, electrodes, flexible base plate having contact sockets connecting electrodes. Each plug-and-socket contact for making connection to neuroadaptive stimulator is attached to mating contactor socket with a current-conducting conductor. The electrodes and connector sockets for receiving them are mounted on the flexible base plate underside. The device has removable electrodes of various patterns for acting upon various innervation zones like lumbosacral, bronchopulmonary zones, pancreas projection zone, gallbladder projection zone. Every electrode is functionally applied as active and passive electrode.

EFFECT: enhanced effectiveness in treating expanding innervation zones; enabled prognosis of required treatments number.

18 cl, 15 dwg

 

The invention relates to medical equipment, namely, electrical stimulators, and can be used for General regulating health effects on physiological systems of the human body.

From the description to the patent of Russian Federation №2017508, IPC5A 61 N 1/36, publ. 1994, a known stimulator, which contains N pairs of electrodes connected to respective inputs of the switching unit, synchronization unit, the first input of which is connected to an external source of sinusoidal modulated current, a second input to the first output control unit, the first output to the first input of the timer, the second output to the first input of the control unit, the second output of which is connected with the second input of the timer, the third output from the first input unit of job programs, and the fourth output - with the control input of the switching unit, the output of which is connected to the second input unit of job programs, the output of timer connected with the second input of the control unit, the third input of which is connected to the output of the unit job programs, characterized in that it introduced the generator of pseudo-random binary sequence and polarity reversal switch, the third output of the synchronization unit is connected to the input of the generator of pseudo-random binary sequence signal, the output of which is connected to the first input of the switch p is arnosti, the second input is connected to the first input of the switch block synchronization, and the output connected to the input of the switching unit. A disadvantage of such a pacemaker is no possibility of automatic dosing of stimulation depending on the individual characteristics of the patient's body, which not only reduces the effectiveness of therapeutic effects, but also can lead to undesirable consequences. In addition, the fixation of the electrodes elastic bandages, not comfort, has a negative impact on the psychological state of the patient, which reduces the effectiveness of treatment.

From the description to the patent of Russian Federation №2135226; IPC A 61 N 1/36, publ. 1999, a known stimulator of neuroadaptive containing block generating pulses, the signal control modulation, the unit of analysis of adaptation processes, a controllable oscillator, N pairs of electrodes, the switching unit channels of stimulation, frequency generator exposure of the electrodes and the driver code channels. In comparison with previously described, the pacemaker provides the opportunity to individually metered, deterministic group selected zones and cycle time electrical impulses to areas of the skin of the person. The lack of such electrotonus the ora - the inability impact on the long zone of innervation.

From the description to the patent of Russian Federation №2198695, IPC7A 61 N 1/36, publ. 2003 known adaptive pacemaker with a virtual electrode that contains a unit rectangular pulse shaping unit burst control unit, the control unit energy effects, the output unit, the unit of analysis of feedback pulses to the memory block individual norms, the memory block of the probing signal, the first control input responsive pacemaker with a virtual electrode is connected with the control input of the unit rectangular pulse, set input connected to the first installation entrance adaptive pacemaker with a virtual electrode, the signal output unit rectangular pulse is connected to the signal input processing unit packets of pulses with a first signal input of the control unit, the second the third and fourth mounting inputs adaptive pacemaker with a virtual electrode are connected respectively to the first, second and third mounting unit forming packets of pulses, the signal output of which is connected with the second signal input of the control unit, the second and third control inputs responsive pacemaker with a virtual electrode connected to the HN respectively with the first and second control inputs of the control unit, the fifth and sixth installation inputs adaptive pacemaker with a virtual electrode are connected respectively with the first and second alignment control unit, the first signal output of which is connected to the signal input of the control unit of energy impact, first and second control inputs of which are connected respectively with the fourth and fifth control inputs responsive pacemaker with a virtual electrode, the seventh and eighth setup the inputs of which are connected respectively with the first and second alignment control unit energy effects, the signal output of which is connected to the signal input of the output unit, a first control input connected to the sixth managing input adaptive pacemaker with a virtual electrode, the ninth and the tenth installation the inputs of which are connected respectively with the first and second mounting input output unit, the first signal output of which is connected to the third signal input of the control unit, a first control output of which is connected with the control input of the unit of analysis of feedback pulses of the first and second mounting the inputs of which are connected respectively with the eleventh and twelfth installation inputs adaptive pacemaker with VIR the current electrode, 2N inputs group installation input of which is connected with 2N inputs group setup unit of analysis of feedback pulses, the signal output of which is connected with the fourth signal input of the control unit, (N+1) of the first group of information inputs of the unit of analysis of feedback pulses are connected respectively to the outputs of the (N+1) groups of information outputs of the memory block individual standards, the inputs of the (N+1) groups of the second information input unit of analysis of feedback pulses are connected respectively to the outputs of the (N+1) groups information output unit recording parameters of the probing signal, the clock inputs of the memory block individual norm and unit of analysis of feedback pulses combined with a clock output control unit, the second control output of which is connected with the control input of the memory block individual norms, the third control output connected with the control input of the recording parameters of the probing signal, the second signal output of the output unit is connected to the signal inputs of the memory block individual norms and unit recording parameters of the probing signal, characterized in that it additionally introduced the unit managed electrodes and a unit job of the virtual electrode, the first signal input unit managed electrodes connected with the second of signalin the m output control unit, and the second signal input unit managed electrodes connected to the second signal output of the output unit and the signal inputs of the memory block of the probing signal and the memory block individual standards, the inputs of the first and second groups of control inputs of the block controlled electrodes connected respectively to the outputs of the first and second groups of control outputs of the unit job of the virtual electrode. The lack of adaptive pacemaker with a virtual electrode when exposed to extended zone of innervation of the area under the passive electrodes are outside of the impact that reduces the effectiveness of electrical stimulation, as well as the inability to predict the number of sessions of electrical stimulation.

From the description to the patent of Russian Federation №2068277, IPC6A 61 N 1/36, And 61 N 39/00, publ. 1996 famous bioelectric controller psychosomatic homeostasis (electroneurography stimulator)containing connected in series generator of rectangular pulses, the set of enabling signals, key amplifier with transformer output is connected to the active and passive electrodes, and the block parameters of the stimulating signal, coupled to the processing unit of the stimulating signals and connected to the active electrode sequentially connect the basic half-wave rectifier, the unit of measurement of the duration of the first half-wave of forced oscillations, and flow indicating and control. The disadvantage of this electrodeionization stimulator - the inability to change the frequency characteristics of electrical oscillations of stimulating signals.

Known electroneurography stimulator "COSMODIC" (see Russian Federation patent for useful model No. 33006, IPC And 61 N 39/00 A 61 N 1/36, publ. 2003)that contains the constant current source, the control unit and the formation of trigger pulses and electrode unit comprising passive and several (two or more) of the active electrodes, two high-q coil inductance, sections of which are included under, and the decoder, one of the poles of the DC source is connected to the connection point of the two sections of the high q inductor and a passive electrode of the electrode device, a second end section with a smaller number of turns through the key amplifier is connected with the second pole of the DC source, a second end section with a large number of coils is connected to the input of the feedback control unit and formation trigger pulses and managed through electronic keys with each active electrode, the pulse output of the control unit and formation triggering impulsation with the key input of the amplifier, code output control unit and the formation of trigger pulses connected to the input of the decoder whose outputs are each connected with the control input of the corresponding controlled electronic key. This electroneurography stimulator as a match for the majority of the essential characteristics selected as a prototype. The disadvantages of the prototype is that there is no impact on the long area without changing the position of the electrode device, the impossibility of predicting the number of sessions of electrical stimulation.

The technical result from the use of this invention is the provision of opportunities impact on the long zone of innervation, providing the possibility of forecasting the required number of sessions of electrical stimulation to the end of treatment.

This technical result in the first embodiment is achieved by the fact that electroneurography stimulator that contains the constant current source, the set of trigger pulses, electrode device, two high-q coil inductance, sections of which are included in accordance with the connection point of the two sections of the high q inductor connected to the first pole of the DC source, a second end section with a smaller number of turns through the key amplifier connected to the second p is lucom constant current source, the second end section with a large number of coils is connected to the input of the feedback signal processing unit trigger pulses through N electronic controlled switches included in the active electrode with N electrodes of the electrode device, the signal output unit of the formation of trigger pulses is connected to the signal input key amplifier further comprises N electronic controlled switches enable the electrodes of the electrode device in the mode "passive electrode, and a setting unit assignment electrodes, the code input connected to the code output control unit and the formation of trigger pulses, a control input to control the output of the control unit and the formation of trigger pulses, a 2N outputs with the appropriate control inputs N electronic controlled switches enable the electrodes of the electrode device in the active electrode and the N electronic controlled switches enable the electrodes of the electrode device in the mode "passive electrode, a switching input of each of the N electronic keys enable the electrodes of the electrode device in the mode "passive electrode connected to the first pole of the DC source, the output of each of the N electronic controlled switches enable the electrodes of the electrode device in the active electr the d" combined with the output of the corresponding e-managed key activate the electrodes of the electrode device in the mode "passive electrode and connected with the respective input the electrode device. Block the formation of trigger pulses contains the node set operating modes, including at least controls the energy level of the stimulus and the element of power, the host display and the host analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), with the installation inputs VLSI connected to the output node of the job modes, the inputs of the node display is connected to the information output VLSI signal output VLSI signal is output to the control unit and the formation of trigger pulses, a code output VLSI is code output control unit and the formation of trigger pulses, control output VLSI is a control output of the control unit and the formation of trigger pulses, a signal input VLSI is the input signal of the feedback control unit and the formation of trigger pulses, and VLSI has at least two modes, the first of which on the pulse output of the control unit and the formation of trigger pulses are present series of trigger pulses with a fixed number of pulses in the series, and the coded output sequence of codes from 1 to N, where N is the number of managed electronic keys, change the code in which each series of trigger pulses and the second pulse on the output of a continuous sequence or sequence series of trigger pulses, the code output is an immutable code. Site analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), contains connected in series generator pulsing pulse scheme of the formation of trigger pulses, a method of forming the control signals and serially connected analog-to-digital Converter, the circuit for measuring parameters of the feedback signal, the circuit for measuring the rate of change of the parameters of the feedback circuit isolation feedback signal with the maximum rate of change of the parameters and fixing scheme in the absence of changes of the parameters of the feedback signal, and the analog-digital Converter is input feedback signal, the output of the circuit formation of the trigger pulse signal is output VLSI and connected with the second input of the differential measurement of the rate of change of the parameters of the feedback signal, the first output of the shaping circuit control signals is to control the output of the ASIC, and the second output code output VLSI and connected with the second input of the differential selection of the feedback signal with the maximum rate of change of the parameters, the second output of the circuit measuring the rate of change of the parameters of the feedback signal is connected to the second input of the differential fixation of the lack of treason the s parameters of the feedback signal, the second output of the circuit selection feedback signal with the maximum rate of change of the parameters connected with the second input of the differential generation of control signals, a third input which is connected to the first output of the circuit commit the absence of changes of the parameters of the feedback signal, the second output of the circuit commit the absence of changes of the parameters of the feedback signal and the third output circuit measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with a maximum change of the parameters are informational outputs VLSI. The setting unit assignments electrodes contains connected in series subunit storing results of the "search"mode, the sub assignment definitions of the electrodes and the subunit include electrodes according to the assignments, and the entrance subunit storing results of the "search" mode is code input setting unit assignments electrodes, and the second input subunit assignment definitions electrode input control unit assignments electrodes. High-q two-inductor has an inductance of 0.1 to 2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0,05 0,3...and the q of the inductor is greater than 100.

The second variant is NTE this technical result is achieved by what electroneurography stimulator that contains the constant current source, key amplifier, the control unit and the formation of trigger pulses, the signal output of which is connected to the signal input key of the amplifier, the electrode unit comprising N electrodes N electronic controlled switches enable the electrodes of the electrode device in the active electrode and two high-q coil inductance, sections of which are included according to the point of connection of the sections is connected with the first pole of the DC source, a second end section with a smaller number of turns through the key amplifier is connected with the second pole of the DC source, further comprises N electronic controlled switches enable the electrodes of the electrode device in the mode "passive electrode, a second key amplifier, a signal input connected to the second signal output of the control unit and the formation of trigger pulses, the second two high-q coil inductance, sections of which are included according to the point of connection of the sections with the first pole of the DC source, and the second end section with a smaller number of turns through the second key amplifier with the second pole of the DC source, the switch, the input switching that is about connected with the second ends of the sections with a large number of turns of the first and second two-piece high-q inductors, and the output with the input of the feedback control unit and the formation of trigger pulses and switched the input of each of the N electronic controlled switches enable the electrodes of the electrode device in the active electrode", and the setting unit assignment electrodes, the code input connected to the code output control unit and the formation of trigger pulses, the control input is a first control the output of the control unit and the formation of trigger pulses, a 2N outputs from the respective control inputs N electronic controlled switches enable the electrodes of the electrode device in the active electrode and the N electronic controlled switches enable the electrodes of the electrode device mode "passive electrode, a switching input of each electronic key activate the electrodes of the electrode device in the mode "passive electrode connected to the first pole of the DC source, a second control input of the control unit and the formation of trigger pulses is connected to the control input of the switch, the output of each of the N electronic controlled switches enable the electrodes of the electrode device in the active electrode is combined with the output of the corresponding e-managed key activate the electrodes of the electrode device mode "is assigny electrode and connected with the respective input electrode of the device. Block the formation of trigger pulses contains the node set operating modes, including at least controls the energy level of the stimulus and the element of power, the host display and the host analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), while the installation log VLSI coupled to the output node of the job modes, the inputs of the node display is connected to the information output VLSI, the first and second signal outputs VLSI are the first and second signal outputs of the control unit and the formation of trigger pulses, a code output VLSI is code output control unit and the formation of trigger pulses, the first and the second control outputs VLSI are the first and second control outputs of the control unit and the formation of trigger pulses, a signal input VLSI is the input signal of the feedback control unit and the formation of trigger pulses, and VLSI has at least two modes, the first of which on one of the signal outputs of the control unit and the formation of trigger pulses are present series of trigger pulses with a fixed number of pulses in the series, and the coded output sequence of codes from 1 to N, where N is the number of managed electronic keys, change the ode in which each series of trigger pulses, and the second one of the signal outputs a continuous sequence or sequence series of trigger pulses, the code output - invariant code. Site analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI) contains connected in series generator pulsing pulse scheme of the formation of trigger pulses, a method of forming the control signals and serially connected analog-to-digital Converter, the circuit for measuring parameters of the feedback signal, the circuit for measuring the rate of change of the parameters of the feedback circuit isolation feedback signal with the maximum rate of change of the parameters and fixing scheme in the absence of changes of the parameters of the feedback signal, and the analog-digital Converter is input feedback signal, the second input of the differential formation of trigger pulses is an installation log VLSI second and third outputs of the circuit of formation of trigger pulses are first and second signal outputs VLSI, the fourth output of the circuit formation of trigger pulses is connected with the second input of the differential measurement of the rate of change of the parameters of the feedback signal, the first and second outputs of the shaping circuit control signals amlawdaily and second control outputs VLSI the third output code output VLSI and connected with the second input of the differential selection of the feedback signal with the maximum rate of change of the parameters, the fourth output from the third input of the differential formation of trigger pulses, a second output of the circuit measuring the rate of change of the parameters of the feedback signal is connected to the second input of the differential fixation of the absence of changes of the parameters of the feedback signal, the second output of the circuit selection feedback signal with the maximum rate of change of the parameters connected with the second input of the differential generation of control signals, a third input which is connected to the first output of the circuit commit the absence of changes of the parameters of the feedback signal, the second output of the circuit fixing the lack of changing parameters feedback signal and the third output circuit measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with a maximum change of the parameters are informational outputs VLSI. The setting unit assignments electrodes contains connected in series subunit storing results of the "search"mode, the sub assignment definitions of the electrodes and the subunit include electrodes according to the assignments, and the entrance subunit storing results of the "search" mode is code input unit of the mouth of the unit assignments electrodes, and second input subunit assignment definitions electrode input control unit assignments electrodes. Each two-piece high-q inductor has an inductance of 0.1 to 2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0,05 0,3..., q of the inductor is greater than 100, while they differ from each other in inductance 1.5...2.5 times.

Electrode device used in the inventive electrodeionization the stimulator is an independent object of the invention.

From the description to the patent of Russian Federation №2083236, IPC6A 61 N 1/04, And 61 N 39/00, publ. 1997 known electrode device used in medical applications bundled with the electrostimulator for non-pharmacological treatment of a wide class of diencephalic disorders. It is a framework that consists of three electrically conductive elastic arcs that are joined together using a hinge elements, each arc consists of two halves, connected in the middle part of the dielectric element, each of the halves is one electrode, the ends of the conductive elastic arcs made in the form of electrical contacts.

This electrode device is intended for removing the pain of prisalivaya TMJ, ie is a narrow specialist.

Electrode device for electrical stimulation of the neuromuscular system, protected by the patent of Russian Federation №2124344, IPC6A 61 N 39/00, And 61 In 5/05, publ. 1999, intended for restorative treatment in traumatic injuries in conditions of impaired innervation, contains a fixed electrode made in the form of a conductive plate, and the movable electrode. The movable electrode is made with two layers, where one layer is made of an elastic conductive material and the second layer of insulating elastic material and provided with fastening elements to the palm of the operator. Due to the mounting of the electrode device on the hand of the operator is ensured by palpation monitoring the effectiveness of electrical stimulation. The disadvantage of this electrode device is unsuitable for use with electroneurography stimulants due to the lack of fixation of the distance between the active and passive electrodes.

In published application for a patent of the Russian Federation No. 96124755/14, IPC And 61 In 5/00, publ. 1999 described EEG electrode containing contact elements made in the form of electrically conductive pins with rounded contact surfaces and mounted on the conductive base, sabien the m discharge conductor. The contact elements are made of elastic and conductive base is made in the form of an elastic membrane, the diameter of the contact elements is 0.1-0.2 mm, and the distance between their axes is 1.0-1.5 mm Execution of the contact elements in the form of conductive studs ensures reliable contact with the skin, even in the presence of hair. Described electrode is different structural complexity and therefore has limited application.

Patent of the Russian Federation No. 2071271, IPC And 61 In 5/04, publ. 1997 protected quickly installed electrode Blatov IV containing matrix in the dielectric housing, and wherein the electrode further comprises at least one asdigital hair, formed by the exterior surfaces of the two flange located relative to each other at acute or right angles. The matrix is located within the angle formed by the shoulder. The walls of the shoulder, facing the inside of the corner, have a lower height compared to the outer walls. The disadvantage of this electrode design complexity.

Known photomedicine therapeutic device for the treatment of extended pathologies (see Russian Federation patent No. 2145247 IPC7A 61 N 5/06, 2/00, And 61 In 18/02, A 61 F 7/00, publ. 10.02.2000 g)containing sources of radiation of different spectral range, United to block the mi control & power, and additional physiotherapy modules (magneto-, electro - and other kinds of therapy) is placed in the substrate to form the working surface, similar to the form of a spatially extended pathological zone. The number of sources N, the distance between them is d, and the radiation intensity I on the surface of the biological object are determined from a system of interrelated expressions. The surface of the substrate between the source made the mirror; put the holder for fixing the substrate relative to the bio-object, introduced a switching unit connected to the control unit and additional physiotherapy modules, and sensors biofeedback, connected to the switching unit, which provides switching sources of different spectral composition and additional physiotherapy modules for a given program. The device allows to increase the effectiveness of light therapy for the treatment of various extended over the surface of the bio-object pathologies, including dermatology, cosmetology, treatment of injuries, bruises, swelling, varicose veins, treatment of blood, treatment of infected processes, etc. the Disadvantage of these devices is the complexity of the design, which makes it difficult disinfection.

The closest technical solution to the claimed is, in the opinion of the applicant, the electrode is a device for puncture electrotherapy, protected by patent

Of the Russian Federation No. 2202381, IPC7A 61 N 1/18, And 61 N 39/00, publ. 2003 This electrode device comprises an indifferent and active electrodes. The screen flexible cable soldered the current-carrying wire with a plug, connected to neutral lead electrode. Cable branched 2-5 electrical wires with plugs, which are connected 2-5 round electrodes. The indifferent electrode is made of lead, active electrodes are made of steel. The disadvantages of the prototype are the inability electrotherapeutic impact on the long pathological zone, the impossibility of selective effects on area under one electrode while excluding the impact zone under other electrodes, the absence of fixation of a given distance between the active and indifferent electrodes, excessive locality electrotherapeutic impact.

The technical result from the use of this invention is the exception mentioned drawbacks, i.e. increasing the effectiveness of electrotherapy impact in the treatment of extensive pathological zones.

This technical result is achieved in that the electrode device containing connector electrodeionization stimulator, the current-carrying conductors and electrodes, updat the further contains a flexible substrate mounted on it contact sockets for connection of electrodes, each contact of the connector electrodeionization stimulator current-carrying conductor is connected with a corresponding contact terminal and the electrodes and the contact socket for connection are located on opposite sides of the flexible substrate. Each electrode is connected to its corresponding contact socket button connection between the electrodes and the elastic substrate placed a sanitary pad. Contact socket is placed on the elastic substrate in a checkerboard pattern in the nodes of the grid ratio grid spacing in one dimension to the grid step for the other coordinate as 1 to. Contact socket is placed on the elastic substrate in a checkerboard pattern in the nodes of the grid with equal increments of the coordinates. Contact socket is placed on the elastic substrate with a uniform pitch on a tape substrate. The flexible substrate is made of silicone rubber with a thickness of 2...8 mm, and the current-carrying wire and the contact socket bonded to an elastic substrate self-hardening double-sided tape.

The invention illustrated by the drawings. 1 shows a functional diagram electrodeionization stimulator (first option), figure 2 - functional diagram electrodeionization stimulator (the second option), figure 3 - structure of the second circuit of the control unit and the formation of trigger pulses (the first option), figure 4 - block diagram of the node analysis, control and processing of trigger pulses (the first option), figure 5 - block diagram of the control unit and the formation of trigger pulses (the second option), 6 is a block diagram of the node analysis, control and processing of trigger pulses (the second option), 7 - structural diagram of the installation unit assignments electrodes, Fig - electric diagram key amplifier figure 9 is an electrical diagram of the electronic controlled switch, figure 10 schematically shows the structure of the electrode device, figure 11 shows an example of installation of the electrode in the contact socket, shown Fig the incorporation of the electrodes in the modes active electrode and the passive electrode when the contact slots on the substrate in the nodes of the grid with a ratio steps by coordinates 1 toon Fig shows an example of the inclusion of the electrodes in the modes active electrode and the passive electrode when the contact slots on the substrate in the nodes of the grid with equal step by coordinates, Fig shows an example of the inclusion of the electrodes in the modes active electrode and the passive electrode when the contact slots on the tape substrate, Fig - level algorithm of the control unit and the formation of a triggering pulse of the century

Figure 1...15 are marked by numbers:

1 - constant current source;

2 - the control unit and the formation of trigger pulses;

3 - unit assignments electrodes;

4. 41, 42- key amp;

5. 51, 52- two high-q inductors;

6 is a semiconductor triode;

7 - damping diode;

8-1 to 8-N - e keys activate the electrodes in the mode "passive electrode;

9-1 to 9-N - e-keys enable the electrode to the active electrode;

10 is a block electrodes;

11 - switch partitions with a large number of turns of two high-q inductors;

12 - input feedback signal of the control unit and the formation of trigger pulses;

13 - code output control unit and the formation of trigger pulses;

14 the first control output of the control unit and the formation of trigger pulses;

15, 151, 152signal outputs of the control unit and the formation of trigger pulses;

16 - the second control output of the control unit and the formation of trigger pulses;

17 - site analysis, control and processing of trigger pulses;

18 - node set modes of operation;

19 - node readout;

20 - installation input node analysis, control and processing zapuskaemuyu;

21 - information output node analysis, control and processing of trigger pulses;

22 - clock (GTI);

23 is a diagram of the formation of trigger pulses (IOF);

24 is a diagram of the formation of control signals (FCS);

25 - analog-to-digital Converter (ADC);

28 diagram of the measurement parameters of the feedback signal (STS);

27 is a circuit for measuring the rate of change of the parameters of the feedback signal (SIS);

28 - selection scheme of the feedback signal with the maximum rate of change of the parameters (SV);

29 scheme of fixing the lack of changes of the parameters of the feedback signal (SF);

30 the third circuit input signal conditioning control;

31 - second input of the shaping circuit control signals;

32 - first circuit input fixation absence of changes of the parameters of the feedback signal;

33 the second circuit input fixation absence of changes of the parameters of the feedback signal;

34 information output of the circuit rate of change of the parameters of the feedback signal;

35 information output circuit maximum rate of change of the parameters of the feedback signal;

36 information output circuit absence of changes in the parameters of the feedback signal;

37 - subunit storing results of the "search"mode;

38 - subunit assignment definitions elec the birth;

39 - subunits activate the electrodes according to the assignments;

40 information output subunit storing results of the "search"mode;

41 - connector electrode device to electrodeionization the stimulator;

42 is a current-carrying conductor;

43 - pin socket;

44 - elastic substrate;

45 - electrode;

46 - a sanitary pad.

R1...RL, S1...SM, E1...N - coordinates of the grid electrode.

Electroneurography stimulator in the first embodiment (Fig 1) contains the source 1 DC, unit 2 control and the formation of trigger pulses, block 3 appointment setting electrodes, coded entrance 13 of which is connected to the code output unit 2 and the control input to the first control the output 14 of block 2, key amplifier 4, a signal input connected to the signal output 15 of the unit 2, two high-q of the inductor 5, the connection point of the sections which are connected with the first pole of the source 1 and the partition with a smaller number of turns through the key amplifier 4, including, for example, a semiconductor triode 6 and damping diode 7, is connected to the second pole of the source 1. The second end section with a large number of coils high-q inductor 5 is connected to the input 12 of the feedback block is 2. N electrodes of the electrode device 10 through e-managed keys 8-1 to 8-N activate the electrodes in the mode "passive electrode connected with the first pole of the source 1 and managed through electronic keys 9-1 to 9-N activate the electrodes in the mode "passive electrode with the second end section with a large number of turns of two high-q inductor 5. The control inputs of the electronic controlled switches 8-1 to 8-N, 9-1 to 9-N are connected to corresponding outputs of the block 3. High-q two-inductor 5 has an inductance of 0.1 to 2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0,05 0,3...and the q of the inductor is greater than 100.

Electroneurography stimulator according to the second variant (2) contains the source 1 DC, unit 2 control and the formation of trigger pulses, block 3 appointment setting electrodes, coded entrance 13 of which is connected to the code output unit 2 and the control input to the first control the output 14 of block 2, two-two-high-q inductors 51, 52point of connection sections which are connected with the first pole of the source 1 and the section with a smaller number of turns through the key amplifiers 41, 42, each of which includes, nab is emer, semiconductor triode 6 and the damping diode 7, is connected to the second pole of the source 1. Each of the two high-q inductors 51, 52has an inductance of 0.1 to 2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0,05 0,3..., q-factor of not less than 100, while they differ from each other in inductance 1.5...2.5 times. Signal inputs the key amplifiers 41, 42connected to the signal outputs 151, 152unit 2, respectively. The second ends of the sections with a large number of coils high-q inductors 51, 52connected with switched inputs of the switch 11, the control input of which is connected with the second control the output 16 of block 2, and the output to the input 12 of the signal feedback unit 2. N electrodes of the electrode device 10 through e-managed keys 8-1 to 8-N activate the electrodes in the mode "passive electrode connected with the first pole of the source 1 and managed through electronic keys 9-1 to 9-N activate the electrodes in the active electrode from the output of the switch 11. The control inputs of the electronic controlled switches 8-1 to 8-N, 9-1 to 9-N are connected to corresponding outputs of block 3.

Block 2 (figure 3)for selecting operation modes, control the energy level of the stimulus and analysis of feedback signals, in electrodeionization the stimulator in the first embodiment contains the node 17 analysis, control and processing of trigger pulses, the node 18 set modes and the node 19 of the display. Node 18 includes at least controls the energy level of the stimulus and the element of power. The output node 18, the commands which are continuous or periodic modes electrodeionization stimulator and sets the duration of the trigger pulses and the number of them in series, is connected with the installation of the entrance 20 of the node 17. The first control output node 17 is the first to control the output 14 of block 2, the code output node 17 - code output 13 of block 2, signal output signal output 15 of the unit 2 and the signal input input 12 signal feedback unit 2. Node 17, carried in the form of very large integrated circuits (VLSI), has at least two modes, the first of which at the outlet 15 of the unit 2, there is a series of trigger pulses with a fixed number of pulses in the series, and the code output 13 a sequence of codes from 1 to N, where N is the number of electrodes in the electrode device 10. Change the code in the sequence of codes with each series of trigger pulses. In the second operation mode, node 17 at exit 15 - a continuous sequence or sequence series is Austausch pulses, the code output 13 - invariant code, the control input 14 - command pulse to set appointments electrodes. Information outputs 21 of the node 17 is connected to the input node 19, which is intended to display the operation mode indicator electrodeionization stimulator and settings stimulating effects.

Node 17 analysis, control and processing of trigger pulses in electro-neuroadaptive the stimulator in the first embodiment (figure 4) carried in the form of very large integrated circuits - VLSI, which contains serially connected clock - GTI 22, a diagram of the formation of trigger pulses, IOF 23, a method of forming the control signals - FCS 24 and serially connected analog-to-digital Converter - ADC 25, the circuit for measuring parameters of the feedback signal for SIP 26, the circuit for measuring the rate of change of the parameters of the signal feedback SYSTEM 27, the selection scheme of the feedback signal with the maximum rate of change of the parameters - ST. 28 and fixing scheme in the absence of changes of the parameters of the feedback signal - SF 29. Second input of the IOF 23 is the installation of the entrance 20 of the node 17, the second output signal vyhoda node 17 and is connected with the second input SYSTEM 27. First FCS 24 is a control output 14 node 17, the second output FCS 24 is code output 13 node 17I is connected to a second input of ST. 28. The ADC 25 is a signal input 12 of the node 17. The second output SYSTEM 27 is connected to a second input 32 SF 29. The second output ST 28 is connected with the second input 31 FCS 24, the third input 30 which is connected to the first output SF 29. The second output SF 29 and third outputs of the SYSTEM 27 ST 28 are informational outputs 34, 35 and 36, the combined information in the output 21 of the node 17.

Block 2 (figure 5) in electrodeionization the stimulator according to the second variant contains the node 17 analysis, control and processing of trigger pulses, the node 18 set modes and the node 19 of the display. The output node 18, the commands which are continuous or periodic modes electrodeionization stimulator and sets the duration of the trigger pulses and the number of them in series, is connected with the installation of the entrance 20 of the node 17. The first and second control outputs of the node 17 is the first 14 and second 16 control outputs of the unit 2, the code output node 17 - code output 13 of block 2, the first and second signal outputs, the first 151and the second 152the signal output unit 2, a signal input input 12 signal feedback unit 2. Node 17, carried in the form of very large integrated circuits (VLSI), has at least two modes, the first of which on one of the outputs 151, 152unit 2, there is a series of trigger pulses with the fix is included in the number of pulses in the series, the code output 13 a sequence of codes from 1 to N, where N is the number of electrodes in the electrode device 10, the second control output 16 - team to connect the corresponding two-piece high-q inductor 51or 52. Change the code in the sequence code output 13 occurs with each series of trigger pulses. In the second operation mode, node 17 on one of the outputs 151, 152- a continuous sequence or sequence series of trigger pulses, the code output 13 - invariant code on the second control output 16 - team to connect the corresponding two-piece high-q inductor 51or 52and on the first control output 14 - command pulse to set appointments electrodes. Information outputs 21 of the node 17 is connected to the input node 19, which is intended to be displayed on the indicators operation mode electrodeionization stimulator and settings stimulating effects.

Node 17 analysis, control and processing of trigger pulses in electro-neuroadaptive the stimulator according to the second variant (6) carried in the form of very large integrated circuits - VLSI, which contains serially connected clock - GTI 22, a method of forming runs and the heartbeats - The IOF 23, a method of forming the control signals - FCS 24 and serially connected analog-to-digital Converter - ADC 25, the circuit for measuring parameters of the feedback signal for SIP 26, the circuit for measuring the rate of change of the parameters of the signal feedback SYSTEM 27, the selection scheme of the feedback signal with the maximum rate of change of the parameters SV 28 and fixing scheme in the absence of changes of the parameters of the feedback signal - SF 29. Second input of the IOF 23 is the installation of the entrance 20 of the node 17, the second and third outputs, the first 151and the second 152output node 17, the fourth output of the IOF 23 is connected with the second input SYSTEM 27. First FCS 24 is a control output 14 node 17, the second output FCS 24 is code output 13 of the node 17 and is connected to a second input of ST. 28, the fourth output FCS 24 is connected to the third input of the IOF 27. The ADC 25 is a signal input 12 of the node 17. The second output SYSTEM 27 is connected to a second input 32 SF 29. The second output ST 28 is connected with the second input 31 FCS 24, the third input 30 which is connected to the first output SF 29. The second output SF 29 and third outputs of the SYSTEM 27 ST 28 are informational outputs 34, 35 and 36, the combined information in the output 21 of the node 17.

Unit 3 installation appointments electrodes (7) in both cases electrodeionization stimulator is made the same way and contains consistently soy is yennie sub 37 memorizing the results of the "search"mode, sub 38 assignment definitions of electrodes and sub 39 inclusion of the electrodes according to the assignments. Sub 37 may have the additional information output 40.

Electric diagram key amplifier 4 and managed electronic key, for example 9-1, used in electrodeionization the stimulator according to the first or second versions (Fig and Fig.9), do not require any explanation.

Electrode device used in the claimed electroneurography stimulants, contains (figure 10 and 11) connector 41 for connection to electrodeionization the stimulator, the current-carrying conductors 42, the contact socket 43, mounted on the flexible substrate 44, and the electrode 45. Each contact of the connector 41 current-carrying conductor 42 is connected with a corresponding contact socket 43. The flexible substrate 44 can be made of silicone rubber with a thickness of 2...8 mm, one side of which is self-hardening double-sided tape fixed conductive wires 42 and the contact socket 43. On the other hand, in the contact socket 43 is inserted electrodes 45. Each electrode 45 may be connected to corresponding contact socket 44 keypad connection between the electrodes 45 and a flexible substrate 44 posted by sanitary pad 46. The dimensions of the flexible substrate 44 should be such that PE is acrivate the area of innervation. Contact socket 43 can be placed on the flexible substrate 44 in a checkerboard pattern in the nodes of the grid ratio grid spacing in one dimension to the grid step for the other coordinate as 1 to(Fig) or with equal increments of the coordinates (Fig). Tape elastic substrate 44 pin socket 43 is placed in line with a uniform pitch (Fig).

The proposed device is operated as follows. Disinfected electrodes 45 are inserted in the pin slot 43. Sanitary pad 46 (11) between the contact sockets 43 and electrodes 45 covers the flexible substrate 44 with an overlap. The electrode device 10, for example, with a linear arrangement of electrodes applied to the selected area of innervation of the human body electrodes 45 to the skin and connects to electrodeionization the stimulator. Fixed electrode device 10 on a person's body by any known method, an elastic bandage, adhesive tape, etc. is powered up and begins work electrodeionization stimulant in "search"mode. In this mode, the output 15 of the unit 2, there is a series of trigger pulses with a fixed number of pulses in the series (2...3 pulse of a fixed duration), and the code output 13 a sequence of codes from 1 to N, where N is the number of electrodes in electrodom device 10 and the current value code represents the number of the electrode, included in the "active electrode". Change the code in the sequence of codes with each series of trigger pulses. By applying to the input of block 3 code numbers electrode included in the active electrode, for example, "k", the control signals from unit 3 are fed to the input e of the managed key 9-k and to the inputs of the controlled switches 8-k-1 and 8-k+1, while the electrode k is connected to the second end of the two-piece high-q inductor 5, and the electrodes "k-1" and "k+1" to the first pole of the DC source 1. Feeding trigger pulse to the input key of the amplifier 4 section with a smaller number of coils high-q inductor 5 is included between the poles of the DC source 1 and for the duration of the trigger pulse is saturated with electromagnetic energy. The energy power of the stimulating signal is greater, the greater the duration of the trigger pulse. Upon termination of the trigger pulse, the key power locks and the oscillating circuit formed by the circuit: the active electrode "to" → interelectrode fabric → passive electrodes "k-1" and "k+1" → section with a large number of turns of two high-q inductor 5 → an active electrode "to"arise electrical oscillations, which are e extrastimulus signal. This signal coming on the phase structure to the current actions of the membrane of the neuromuscular cells of a healthy person, changes the tissue concentration of ions at the cell membrane and altering its permeability, acts according to the type of natural currents through the peripheral nervous system, found in the tissues under electrodes, corresponding to the impact zone area of the autonomic nervous system, and the best way is perceived excitable structures and cause the most adequate response of the body. Coming from this area to the processing area of nerve impulses on the principle of positive feedback is called the normalization condition of the treated area, resulting in the self-regulation of the organism. The status subelectrode tissue (active and reactive components of the impedance causes a change in the characteristics of the resonant circuit, and hence the parameters of the electro-stimulation signal. Thus, the rate of change of the parameters of the electro-stimulation signal can be judged on the degree of normalization of the treated area. Challenge mode "search" is to identify those areas for impact on the area of innervation, which primarily need this effect. The task is solved by alternately activate the electrodes 45 in the active electrode and measuring the rate of change of the parameters (parameter, determined by the impedance subelectrode tissue) electro-stimulation signal. The results electrodeionization stimulant in "search" mode in the form of rooms electrodes 45, feeding on which a series of multiple (two or more) electro-stimulation signal rate of change of their parameters exceeds the measurement error or a priori given threshold, are stored in the sub 37 unit 3. After electrodeionization stimulator in the "search" mode of operation "stimulation". In this mode, those electronic controlled keys 9-1 to 9-N, whose numbers correspond to the numbers of the electrodes 45, stored in the sub 37 when in "search"mode, and the managed keys 8-1 to 8-N, whose numbers correspond to the numbers of the electrodes 45, spatially located on the substrate 44 near the electrodes 45, stored in the sub 37, served from unit 3 to switch on the electrodes 45, stored in the sub 37, the active electrode, and the electrodes spatially located close to them, the team at enable mode "passive electrode". The other electrodes 45 remain in the offline state. On Fig...14 electrodes 45, included in the "active electrode", painted in grey, set to "passive electrode" - black, and unconnected - not painted. Neuropogon the second pulse is applied to the electrodes 45, included in the "active electrode", zero potential (constant potential) on the electrodes 45, included in the mode "passive electrode, and other electrodes remain unconnected. Thus, the influence of the electro-stimulation signal is carried out on those areas of the zone of innervation in need. The effect is to until there is a change in the parameters of the electro-stimulation signal (change of an impedance of the electrode-tissue), and as soon as the interelectrode impedance tissue will cease to change, exposure stops. Output 40 of block 3 (subunit 37) non electrodes 45, the number of which determines the size of the area of innervation of the deviation from the norm, can be read to an external device. To change this number from session to session concludes on the effectiveness of treatment and the prognosis on his end, which cannot be done when using prototype or any of the analogues described.

Job declared variants electrodeionization stimulator explain using the on Fig algorithm unit 2 control and the formation of trigger pulses. Let us first work electrodeionization stimulator in the first embodiment. After power is set to the continuous mode of operation and minimum DL the activities of trigger pulses at the output 15 of the unit 2. Gradually increasing the duration of the trigger pulses using the controls in the node 18, establish the power of the stimulating effect on the level of the threshold, i.e. when the effects are felt in the form of a mild tingling or decothane. Further included operating mode. At the beginning of the mode of operation "search". In this mode, the output 15 of the unit 2, there is a series of trigger pulses with a fixed number of pulses in a series, for example, two or three pulses in the series, and the code output 13 the sequence of codes in accordance with which switches the outputs of the block 3. Thus, when the "search" mode, a series of two pulses alternately applied to the electrodes 45 with numbers from 1 to N through e-managed keys 9-1 to 9-n feedback Signal received at the input 12 of the node 17 is converted into digital form by the ADC 25 and 26 STS measurement parameters (option) feedback signal. Next SYSTEM 27 is determined by the rate of change of the parameters of the feedback signal from the first trigger pulse in the series to the last (second or third) -Δ2P. Defined for the current series of trigger pulses, the rate of change of the parameters of the feedback signal SV 28 is compared with a threshold rate of change of the parameters, and if it is equal to the sludge is more in ST. 28 is fixing the value of this speed -Δ2PAand code numbers electrode 45 - NAin subblock 37. As a result, when the operation mode "search" are those electrodes, feeding on which electro-neuron signal is observed above the threshold rate of change of the parameters of the feedback signal. After busting codes (Ntech=NKon- the current number is equal to the end) on a code output FCS 24 code is set non NAand includes the mode of "stimulation". When operating in this mode, the output 15 of the unit 2, there is a continuous sequence of trigger pulses or series of pulses, number of pulses which is not normalized, and the output 13 of the code numbers of the electrode included in the "active electrode" - NA. In SF 28 is the dimension changes of the parameters of the feedback signal, and when this change will be absent, i.e. when the parameters of the previous feedback signal will be equal to the parameters of the subsequent feedback signal, the exposure stops. When applying the electrode device 10 to a new area of innervation of the back on the "search" mode the signal at the input 30 of the subsequent 24. The second option electrodeionization stimulator (figure 2, 5 and 6) differs from that in "search" mode initially launching impul the si output 15 1an input key of the amplifier 41and to the input of the switch 11 is the command to connect to its output section with a large number of turns of two high-q inductor 51. When alternately applying electro-stimulation signal to the electrodes 1...N, as described previously, identifies the electrodes with the rate of change of the parameters above threshold. If, however, such electrodes will be absent, or if their number is less than specified, which could indicate a lack of effectiveness of incentives, exit 16 FCS 24 to the input of the switch 11 is instructed to connect to its output section with a large number of turns of the two coils 52triggering pulses from the output 152an input key of the amplifier 42 and repeats the operation in the "search"mode, after which enabled mode "stimulation" and the electro-stimulation action is applied to all the electrodes identified for inclusion in the active electrode" in the process of working in both modes "search", when the input switch 11 is instructed to connect the sections with a large number of turns of the two high-q inductor 5, when the connection which the number of electrodes identified for inclusion in PE is named "active electrode" was great. Demand in the second variant electrodeionization stimulator due to the fact that the larger the size of the zone of innervation there are differences in the impedance subelectrode tissue in patients. The authors experimentally found that to provide the required range of frequencies of electrical oscillations in a resonant circuit formed by the inductance of the coil inductance and impedance subelectrode tissue electrostimulation, enough options two high-q inductors 51and 52differed 1.5...2.5 times.

Declare electroneurography stimulator may be replaceable electrode device 10 different configurations, designed to impact on different areas of innervation, such as lumbosacral, collar, zone of direct projection of the bronchial tree and lungs, etc. are Placed electrodes 45 on the substrate 44 at distances from each other within process tolerances with minimum distance when applying to the area of innervation of 1.5 to 2.0 mm From all other Pacer claimed differ primarily in that each electrode can function as both an active and a passive electrode. To localize the area of impact, it is desirable that the active electrode would be the least spatial surrounded passive electrodes. This is possible when placing electrodes 45 on the substrate in the nodes of the grid as shown in Fig and 14, with the restriction that the extreme electrodes 45 in the starting and ending rows of the grid can only be enabled in the mode of "passive electrode". The placement of the electrodes 45 in the nodes of the grid ratio grid coordinates 1:(Fig) allows you to surround a single active electrode six passive electrodes. The electrode device 10 with such a placement of the electrodes 45 is used for the innervation zone of direct projection of the bronchial tree and lungs. The placement of the electrodes 45 in the nodes of a uniform grid (Fig) allows you to surround a single active electrode four passive electrodes. The electrode device 10 with such a placement of the electrodes 45 is used for the innervation area of the rhombus of Michaelis, direct projection of the pancreas, etc. of the Electrode device 10 with the linear placement of the electrodes 45 is used innervation zone "three tracks", projection zones of the gallbladder, the area of the cervical rings, etc.

Use of the claimed electrode device can significantly reduce the time of treatment and to increase its efficiency through improved dosing accuracy and orientation.

1. Electroneurography stimulant, containing the third constant current source, key the amplifier, the control unit and the formation of trigger pulses, the signal output of which is connected to the signal input key of the amplifier, the electrode unit comprising N electrodes N electronic controlled switches enable the electrodes of the electrode device in the active electrode and two high-q coil inductance, sections of which are included according to the point of connection of the sections is connected with the first pole of the DC source, a second end section with a smaller number of turns through the key amplifier is connected with the second pole of the DC source, and the second end section with a large number of coils is connected to the input of the feedback control unit and formation starts pulses and switched the input of each of the N electronic controlled switches enable the electrodes of the electrode device in the active electrode, characterized in that it additionally contains N electronic controlled switches enable the electrodes of the electrode device in the mode "passive electrode, and a setting unit assignment electrodes, the code input connected to the code output control unit and the formation of trigger pulses, a control input to control the output of the control unit and the formation of trigger pulses, a 2N in the moves - with the appropriate control inputs N electronic controlled switches enable the electrodes of the electrode device in the active electrode and the N electronic controlled switches enable the electrodes of the electrode device in the mode "passive electrode, a switching input of each of the N electronic keys enable the electrodes of the electrode device in the mode "passive electrode connected to the first pole of the DC source, the output of each of the N electronic controlled switches enable the electrodes of the electrode device in the active electrode is combined with the output of the corresponding e-managed key activate the electrodes of the electrode device in the mode "passive electrode and connected with the respective input electrode device.

2. Electroneurography stimulator according to claim 1, characterized in that the shaping unit trigger pulses contains the node set operating modes, including at least controls the energy level of the stimulus and the element of power, the host display and the host analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), with the installation inputs VLSI connected to the output node of the job modes, the inputs of the node display is connected to the information output VLSI, signals the initial release of VLSI signal is output to the control unit and the formation of trigger pulses, code output VLSI is code output control unit and the formation of trigger pulses, control output VLSI is a control output of the control unit and the formation of trigger pulses, a signal input VLSI is the input signal of the feedback control unit and the formation of trigger pulses, and VLSI has at least two modes, the first of which on the pulse output of the control unit and the formation of trigger pulses are present series of trigger pulses with a fixed number of pulses in the series, and the coded output sequence of codes from 1 to N, where N is the number of managed electronic keys, change the code in which each a series of trigger pulses and the second pulse on the output of a continuous sequence or sequence series of trigger pulses, the code output - invariant code.

3. Electroneurography stimulator according to claim 2, characterized in that the node analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), contains connected in series generator pulsing pulse scheme of the formation of trigger pulses, a method of forming the control signals and serially connected analog-to-digital Converter, the circuit measure the s parameters of the feedback signal, the circuit for measuring the rate of change of the parameters of the feedback circuit isolation feedback signal with the maximum rate of change of the parameters and fixing scheme in the absence of changes of the parameters of the feedback signal, and the analog-digital Converter is input feedback signal, the output of the circuit formation of the trigger pulse signal is output VLSI and connected with the second input of the differential measurement of the rate of change of the parameters of the feedback signal, the first output of the shaping circuit control signals is to control the output of the ASIC, and the second output code output VLSI and connected with the second input of the differential selection of the feedback signal with the maximum rate of change of the parameters, the second output measurement of the rate of change of the parameters of the feedback signal is connected to the second input of the differential fixation of the absence of changes of the parameters of the feedback signal, the second output of the circuit selection feedback signal with the maximum rate of change of the parameters connected with the second input of the differential generation of control signals, a third input which is connected to the first output of the circuit commit the absence of changes of the parameters of the feedback signal, the second output of the circuit commit the absence of changes of the parameters of the feedback signal and the third you the odes scheme of measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with a maximum change of the parameters are informational outputs VLSI.

4. Electroneurography stimulator according to claim 1, wherein the setting unit assignments electrodes contains connected in series subunit storing results of the "search"mode, the sub assignment definitions of the electrodes and the subunit include electrodes according to the assignments, and the entrance subunit storing results of the "search" mode is code input setting unit assignments electrodes, and the second input subunit assignment definitions electrode input control unit assignments electrodes.

5. Electroneurography stimulator according to claim 1, characterized in that two high-q inductor has an inductance of 0.1-2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0.05 to 0.3, and q of the inductor is greater than 100.

6. Electroneurography stimulator that contains the constant current source, key amplifier, the control unit and the formation of trigger pulses, the signal output of which is connected to the signal input key of the amplifier, the electrode unit comprising N electrodes N electronic controlled switches enable the electrodes of the electrode device in the active electrode and two high-q of the inductor section to the ora is enabled according to the the point of connection of the sections is connected with the first pole of the DC source, a second end section with a smaller number of turns through the key amplifier is connected with the second pole of the DC source, characterized in that it additionally contains N electronic controlled switches enable the electrodes of the electrode device in the mode "passive electrode, a second key amplifier, a signal input connected to the second signal output of the control unit and the formation of trigger pulses, the second two high-q coil inductance, sections of which are included according to the point of connection of the sections with the first pole of the DC source, and the second end section with a smaller number of coils through the second key amplifier with the second pole of the DC source, the switch, the inputs of the switching of which is connected with the second ends of the sections with a large number of turns of the first and second two-piece high-q inductors, and the output - input feedback signal of the control unit and the formation of trigger pulses and switched the input of each of the N electronic controlled switches enable the electrodes of the electrode device in the active electrode", and the setting unit assignment electrodes, the code input connected to the new access control unit and the formation of trigger pulses, the control input is a first control the output of the control unit and the formation of trigger pulses, a 2N outputs from the respective control inputs N electronic controlled switches enable the electrodes of the electrode device in the active electrode and the N electronic controlled switches enable the electrodes of the electrode device in the mode "passive electrode, a switching input of each electronic key activate the electrodes of the electrode device in the mode "passive electrode connected to the first pole of the DC source, a second control input of the control unit and the formation of trigger pulses is connected to the control input of the switch, the output of each of the N electronic controlled switches enable the electrodes of the electrode device mode "active electrode" is combined with the output of the corresponding e-managed key activate the electrodes of the electrode device in the mode "passive electrode and connected with the respective input electrode of the device.

7. Electroneurography stimulator according to claim 6, characterized in that the shaping unit trigger pulses contains the node set operating modes, including at least controls the energy level of the stimulus and the element of power, the host display and the host analysis, control and inspire the Finance pulses, carried in the form of very large integrated circuits (VLSI), while the installation log VLSI coupled to the output node of the job modes, the inputs of the node display is connected to the information output VLSI, the first and second signal outputs VLSI are the first and second signal outputs of the control unit and the formation of trigger pulses, a code output VLSI is code output control unit and the formation of trigger pulses, the first and second control outputs VLSI are the first and second control outputs of the control unit and the formation of trigger pulses, a signal input VLSI is the input of the feedback signal processing unit trigger pulses, and VLSI has as at least two modes, the first of which on one of the signal outputs of the control unit and the formation of trigger pulses are present series of trigger pulses with a fixed number of pulses in the series, and the coded output sequence of codes from 1 to N, where N is the number of managed electronic keys, change the code in which each series of trigger pulses, and the second one of the signal outputs a continuous sequence or sequence series of trigger pulses, the code output - invariant code.

8. Electroneurography the first stimulator according to claim 7, characterized in that the node analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), contains connected in series generator pulsing pulse scheme of the formation of trigger pulses, a method of forming the control signals and serially connected analog-to-digital Converter, the circuit for measuring parameters of the feedback signal, the circuit for measuring the rate of change of the parameters of the feedback circuit isolation feedback signal with the maximum rate of change of the parameters and fixing scheme in the absence of changes of the parameters of the feedback signal, and the analog-digital Converter is input feedback signal, the second input pattern triggering pulse is an installation log VLSI, second and third outputs of the circuit of formation of trigger pulses is first and second signal outputs VLSI, the fourth output of the circuit formation of trigger pulses is connected with the second input of the differential measurement of the rate of change of the parameters of the feedback signal, the first and second outputs of the formation pattern of the control signals is the first and second control outputs of the ASIC, and the third output code output VLSI and connected with the second input of the differential selection of feedback signal SV is due to the maximum rate of change of the parameters, the second output of the circuit measuring the rate of change of the parameters of the feedback signal is connected to the second input of the differential fixation of the absence of changes of the parameters of the feedback signal, the second output of the circuit selection feedback signal with the maximum rate of change of the parameters connected with the second input of the differential generation of control signals, a third input which is connected to the first output of the circuit commit the absence of changes of the parameters of the feedback signal, the second output of the circuit commit the absence of changes of the parameters of the feedback signal and the third output circuit measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with a maximum change of the parameters are informational outputs VLSI.

9. Electroneurography stimulator according to claim 6, wherein the setting unit assignments electrodes contains connected in series subunit storing results of the "search"mode, the sub assignment definitions of the electrodes and the subunit include electrodes according to the assignments, and the entrance subunit storing results of the "search" mode is code input setting unit assignments electrodes, and the second input subunit assignment definitions electrode input control unit assignments electrodes.

10. E is chromatogaphy stimulator according to claim 6, characterized in that each of the high q inductor has an inductance of 0.1-2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0.05 to 0.3, the q of the inductor is greater than 100 and they differ from each other in inductance 1.5-2.5 times.

11. Electrode device containing connector electrodeionization stimulator, the current-carrying conductors and electrodes, characterized in that it further comprises a flexible substrate mounted on it contact sockets for connection of electrodes, each contact of the connector electrodeionization stimulator current-carrying conductor is connected with a corresponding contact terminal and the electrodes and the contact socket for connection are located on opposite sides of the flexible substrate.

12. Electrode device according to claim 11, wherein the elastic substrate is made of silicone rubber with a thickness of 2-8 mm, and the current-carrying wire and the contact socket bonded to an elastic substrate self-hardening double-sided tape.

13. Electrode device according to claim 11, characterized in that the contact socket is placed on the elastic substrate in a checkerboard pattern in the nodes of the grid with equal increments of the coordinates.

4. Electrode device according to item 13, wherein the contact socket is placed on the elastic substrate in a checkerboard pattern in the nodes of the grid ratio grid coordinates equal to 1:.

15. Electrode device according to p. 11, characterized in that each electrode is connected to its corresponding contact socket button connection between the electrodes and the elastic substrate placed a sanitary pad.

16. Electrode device according to item 15, wherein the contact socket is placed on the elastic substrate in a checkerboard pattern in the nodes of the grid with equal increments of the coordinates.

17. Electrode device according to item 15, wherein the contact socket is placed on the elastic substrate in a checkerboard pattern in the nodes of the grid ratio grid coordinates equal to 1:.

18. Electrode device according to claim 11, characterized in that the contact socket is placed on the elastic substrate with a uniform pitch along the line.



 

Same patents:

FIELD: medicine, pediatrics, juvenile neuropathology.

SUBSTANCE: one should affect with neurosimilar impulse currents due to altering the disposition of electrodes daily: the first day - for the area of projection of atlanto-occipital symphysis and paravertebrally at the level of 5-6 thoracic vertebra (Th 5-6) from both sides, the second day - for the area of brachioscapular symphysis and paravertebrally at the level of 5-6 thoracic vertebra (C5-6) from both sides. The innovation provides the impact upon pathogenetic disease mechanisms.

EFFECT: higher efficiency.

3 dwg, 3 ex, 3 tbl

FIELD: medicine, gynecology.

SUBSTANCE: iodine-bromine baths should be indicated along with interference currents at abdominal-sacral application of electrodes daily at frequency ranged 0-100 Hz twice daily per 20 min both 1 h before and 1 h after the bath mentioned for 10 d.

EFFECT: higher efficiency of therapy.

2 ex

FIELD: medicine, cardiology.

SUBSTANCE: atria should be applied with netting at 2-3 mm pace designed as current conductors located in mutually crossing directions and different specific resistance and supplied with insulation in points of conductors' juncture. One should force current impulses at 300-380 V tension onto the netting.

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3 ex

FIELD: medicine.

SUBSTANCE: method comprises intraoperative setting of electrodes in abdominal cavity. One of the electrodes is secured in the root of the mesentery of the small intestine, and the other one is secured to the ileum. The ends of the electrodes are brought outside throughout the layers of the anterior abdominal wall and connected with the electrocardiostimulator. The intestine is stimulated during 10-15 min with an interval of 10-30 min until peristaltic occurs. The electrostimulation is synchronized with the systole.

EFFECT: reduced traumatizing.

2 ex

FIELD: medicine.

SUBSTANCE: method involves setting electrodes into the abdominal cavity during operation. One of them is subserously introduced into pyloric region of the stomach. The second one is subserously attached to the ileum in the ileocecal angle. The electrodes are fixed in endosurgical way by means of clepator. The ends are drawn through all layers of the anterior abdominal wall outside and connected to low frequency therapy apparatus. Intestine electrostimulation is carried out during 10-15 min with 10-30 min long pauses until peristalsis manifestations occur. Stimulation is carried out at 0-5 mA, with current intensity growing. Myorhythm 040 is applied as the low frequency therapy apparatus.

EFFECT: reduced risk of traumatic complications.

3 cl

FIELD: medicine.

SUBSTANCE: method involves recording conduction time from St2-A2 or St2-V2 intervals at each electrostimulation stage. Working myocardium refraction index is calculated by using distance between distal and proximal electrode poles relative and effective refraction period of atrium and ventricles and intra-atrial and intraventricular conduction speeds. Electric state of myocardium is evaluated from refraction index value.

EFFECT: high accuracy of estimation.

5 dwg, 1 tbl

FIELD: medicine.

SUBSTANCE: method involves carrying out epicardial electrophysical study during operation on heart after having done the thoracotomy and exposing pericardium cavity. Programmed electrostimulation with continuously reducing extrastimulus delay is performed on the left atrium via an electrode. Relative refraction period of the right pedicle of His bundle, effective refraction period of the right atrium and effective refraction period of the atrioventricular node is found. The effective refraction period of the atrioventricular node being greater than the effective refraction period of the right atrium, postoperative atrioventricular heart block risk at the level of atrioventricular node is to be predicted. The relative refraction period of the right pedicle of His bundle value being greater than value being greater than the effective refraction period of the atrioventricular node, postoperative atrioventricular heart block risk at the level of His bundle and its branches is to be predicted.

EFFECT: high accuracy of prognosis.

3 dwg

FIELD: medicine.

SUBSTANCE: method involves suturing two electrodes to right ventricle myocardium during operation on heart after having done the basic stage and restoring cardiac activity. Superficial cardiogram is recorded. Asynchronous ventricular electric stimulation is carried out in postoperative period in the cases of total atrioventricular heart block. Then, ventricular pacemaker function recovery time is measured and relative ventricular pacemaker function recovery time is calculated. Distal and proximal atrioventricular heart block is documented from the ventricular pacemaker function recovery time and relative ventricular pacemaker function recovery time values.

EFFECT: enhanced effectiveness in following atrioventricular disorders dynamics.

1 dwg

FIELD: medicine.

SUBSTANCE: method involves carrying out pacing in demand mode using electrode for doing temporary pacing beginning from a frequency being 10 pulses per 1 min greater than spontaneous cardiac rhythm. The frequency is reduced without interrupting stimulation to reach spontaneous escape rhythm or hemodynamically critical pacing rhythm. Pacemaker addiction index is calculated from formula comprising initial pacing frequency and frequency manifesting occurrence of the spontaneous escape rhythm or hemodynamically critical frequency. The pacemaker addiction index value is interpreted in terms of low or high Pacemaker addiction degree.

EFFECT: enhanced effectiveness in quantitatively describing pacemaker addiction of a patient.

1 dwg

FIELD: medicine.

SUBSTANCE: method involves determining motor wave amplitude in pyloroantral stomach region by means of pulse motorografy with following draining operation expedience being estimated. Motor wave amplitude being equal to or less than 10 mm, both vagus trunks electrostimulation is to be carried out. Motor wave amplitude is repeatedly determined in the pyloroantral stomach region. The value being equal to or less than 10 mm, draining operation expedience is to be estimated. Electrostimulation is carried out with rectangular pulses of duration not less than 10 s, current intensity of 90-100 mA and frequency of 1±0.2 kHz.

EFFECT: enhanced effectiveness of surgical treatment method selection.

2 cl

FIELD: medical engineering.

SUBSTANCE: device has power supply source and two electrode sequences connected to electrodes. The power supply source enables one to produce amplitude-modulated oscillatory signals on electrodes independently from each other. The lining has flexible textile or polymer material strip with a set of electrode mounted thereon. The electrodes have pins connected to unit for producing electric signal. The second lining version is designed as a strip having anatomical configuration matching the appropriate body part shape.

EFFECT: enhanced effectiveness of treatment; wide range of functional applications.

25 cl, 16 dwg

Endoscopic ph-probe // 2261647

FIELD: medical engineering.

SUBSTANCE: device has measuring antimony electrode tightly connected to sealed polymer tube end by means of thin-walled metal bushing partially fixed in the polymer tube with polymer glue. The electrode is shaped as cylindrical ring having external diameter close to external diameter of the polymer tube. The device also has comparison chlorine-silver skin electrode and conductors connecting electrodes to the connector unit. Lesser tube portion protruding from sealed polymer tube end opening has length that is less than that of the antimony electrode. It is fixed therein with soldering. Internal cavities of the antimony electrode, bushing and polymer tube are sealed with dielectric polymer humidity-resistant material at the depth of not greater than 2-5 mm in the case of polymer tube. Antimony electrode end face has convex protrusion manufactured from humidity-resistant electric insulation polymer.

EFFECT: high accuracy in measuring acidity on mucous membrane surface.

1 dwg

Electrode device // 2257235

FIELD: medical equipment; electrostimulation.

SUBSTANCE: electrode device has dielectric case and electrodes with electric outputs fastened to the case. Electrodes are made in form of three L-shaped narrow bands mounted on the case in parallel to each other. Thickness of each band equals to 0,5-3,0 mm, width equals to 3-10 mm, length of short part varies within 15-30 mm, length of long part varies within 50-100 mm, distance between adjacent electrodes equals to 2-15 mm. Increment in inter-electrode reactive resistance is provided as well as ability of influencing parts of body which are hard be reached.

EFFECT: improved efficiency of usage of electroneuro-adaptive stimulator.

3 cl, 4 dwg

Electrode device // 2254882

FIELD: medical equipment.

SUBSTANCE: device can be used for diagnostics in dentistry. Electrode device has holder and removable contact element provided with metal tubular electrodes inside which electrodes the paper adsorbing pins are inserted for absorbing dental fluid which is registered after chewing on different surfaces of tooth. Distance among tubes is 4,5 mm.

EFFECT: improved precision of diagnosing.

3 dwg

FIELD: medicine, stomatology.

SUBSTANCE: one should inject richlocaine simultaneously as irrigations of mouth cavity, as applications onto gingival mucosa and into gingival pouches, as gingival electrophoresis and submucous injection in therapeutic dosages. The present innovation enables to prolong remission terms and decrease the number of disease relapses due to stabilizing pathological processes in parodontium tissues.

EFFECT: higher efficiency of therapy.

1 ex, 5 tbl

Electrode device // 2252793

FIELD: medical equipment.

SUBSTANCE: device can be used in multichannel in electrical neuron-adaptive stimulators. Electrode device has joint for connecting multichannel neuron-adaptive stimulator and flat multiwired flexible cable. Each wire of cable is connected with corresponding contact of joint for switching stimulator in. Mounting shoes provided with fixing bushings are installed along the whole length of flexible cable. Electrodes are inserted into fixing bushings. Each contact of mounting shoe is connected with corresponding contact of joint via wire of flat multiwired flexible cable. Fixing metal bushing is connected contact of mounting shoe through conductor. Connection is made in such a way that number of contact corresponds to number of mounting shoe, to number of wire of multiwired flexible cable and to number of contact of joint.

EFFECT: improved efficiency of electro-therapeutic influence when treating prolonged pathological areas.

2 dwg

FIELD: medical engineering.

SUBSTANCE: device has polymer tube with spindle-shaped elongated end piece and measuring electrodes spaced at some distance from each other, chlorosilver comparison electrode and plug for connecting them to the measuring unit of acidogastrometer device. Thin radiopaque conductor is placed inside of pH-probe with an option of making it rigid. The end piece weight is 2.5 g, diameter is 6 mm and length is 10 mm.

EFFECT: improved probe position in gastrointestinal tract.

1 dwg

FIELD: medical engineering.

SUBSTANCE: device has metal corrugated ribbon for combining flexibility and rigidity of electrode. The electrode is of multiple use without visible disorders in mechanical integrity and quality of received signals. Gel or conducting fluid is retained in corrugation grooves owing to capillary effect acting. No drying takes place and reliable contact to skin is retained during prolonged time period. Distance between neighboring corrugated surface waves and linear dimensions of contacting corrugated surface areas are predetermined not equal to each other in manufacturing period depending on places where signals are taken off or delivered to body.

EFFECT: enhanced effectiveness of treatment.

2 cl, 1 dwg

FIELD: medicine; cosmetics; medical engineering.

SUBSTANCE: device has DC power supply source, unit for controlling and producing starting pulses, demultiplexor unit, two-sectioned, inductance coil of high figure of merit, key amplifiers and electrode unit having coaxial active and passive electrodes. The electrode unit has electric insulating casing and external passive electrode and internal active electrode coaxially mounted on end and/or lateral casing surface. The electrodes are connected to stimulator device output via outgoing wire leads. The casing is designed as hollow truncated tetrahedral pyramid. Contact surfaces of the electrodes have revolution body surface which radius is 3-10 or more times as large as maximum external electrode size. Method involves applying the stimulator device by smoothly moving or changing place of the electrode unit having coaxial active and passive electrodes along massage lines of face and/or neck. The electrodes are connected to the inductance coil of high figure of merit (greater than 100) periodically saturated with electromagnetic energy in connecting several coil loops to DC power supply source poles for given time of 0.5-500 mcs having 1.0-12.0 V voltage. Repeated connection is carried out not earlier than in twice the connection time duration. The first electric oscillation half-wave amplitude is equal to A=20-800 V and oscillation period T=0.1-200 mcs. Treatment with electric current is administered at least every second day during 21-25 days with total treatment time being 10-40 min per day.

EFFECT: enhanced effectiveness of treatment; high stability of contact to skin; accelerated treatment course.

21 cl, 11 dwg

FIELD: medicine; dentistry.

SUBSTANCE: method involves determining tooth color, carrying out X-ray examination of periapical tissues, withdrawing filling and removing carious dentine as well as root filling insulation. Bleaching agent is applied in the amount required for filling tooth cavity and introducing warmed instrument. Electrocoagulator needle electrode heated in advance to at power of 10 W is applied as warming agent. Heating temperature is gradually increased to at power of 13 W depending on individual tolerance and bleaching intensity with exposure time of 3-7 min and treatment session number of 1 to 3.

EFFECT: stable temperature mode; careful periodontium treatment.

2 dwg

FIELD: medicine; dentistry.

SUBSTANCE: method involves determining tooth color, carrying out X-ray examination of periapical tissues, withdrawing filling and removing carious dentine as well as root filling insulation. Bleaching agent is applied in the amount required for filling tooth cavity and introducing warmed instrument. Electrocoagulator needle electrode heated in advance to at power of 10 W is applied as warming agent. Heating temperature is gradually increased to at power of 13 W depending on individual tolerance and bleaching intensity with exposure time of 3-7 min and treatment session number of 1 to 3.

EFFECT: stable temperature mode; careful periodontium treatment.

2 dwg

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