TR201709896A2 - CONSTRUCTION OF AN ELECTRODE FOR A VAGUS NERVE STIMULATOR - Google Patents

Abstract

A fixed gripper arm (232) defining a nerve canal (237) through which the nerve passes, and clamps configured side by side on a body (23) comprising an adjustable gripper arm (234), and a conductive components placed in said clamps facing the nerve canal (237). The electrode (10) is characterized in that the fixed gripper arm (234) is passed through the adjustable gripper arm (234) in such a way as to change the length of the part forming the nerve canal (237) of said adjustable gripper arm (234) in order to provide adjustment of the size of the nerve canal (237) according to the changing diameter of the nerve 232), it comprises an adjustment opening (233) and adjustment barriers (235) configured on the adjustable gripper arm (234), based on the said adjustment opening (233) in order to fix the adjustable gripper arm (234) in the desired position. Figure 2

Description

TECHNICAL FIELD The invention is specifically intended for use in the treatment of neurological disorders. A fully implanted electrode developed for a vagus nerve stimulator relates to the build.

PRIOR ART Neurology; brain, brain stem, spinal cord and peripheral nervous system and muscles It is a branch of science that deals with diseases. Neurological diseases of the nervous system It can have an effect in various and different parts of the body and can be associated with a wide variety of complaints in individuals. may arise. Treatment in neurological diseases according to the disease and the individual. is being implemented. Epilepsy, depression, panic attack, alzheimer's, sleep apnea etc. vagus nerve in the treatment of diseases or to help treatment stimulators are used. Vagus nerve used in the treatment of epilepsy The most important feature expected from stimulators is that stimulators prevent epilepsy attacks. minimizing its frequency and severity. Epileptic attacks patient's instant immunity It breaks the resistance of the patient and also, according to the severity of the attack, complications can be seen in the patient. causes its development.

Nerve placed inside the body with vagus nerve stimulators in epilepsy patients Stimulation and regeneration of nerves that have lost their function by means of excitatory components is made functional. To 'perform these functions' an electrode placed in the neck region in conjunction with the signal generator is being used. The electrical signals used in the stimulators are completely human. It is compatible with the natural activity of neurophysiology. electrical with electrodes These signals are transmitted to the nerves.

The electrodes used in vagus nerve stimulators are helical electrodes.

Positioning of the electrodes in the wrong position during the operation, requires a change of location. Otherwise, the signal warning efficiency is declining. In addition, removal of the electrodes in some cases and may need to be renewed. Location changes, renewal, etc. in cases this Removing the helical electrodes from the nerve is a very difficult procedure. and the risk of nerve damage is quite high. To prevent damage In order to pass, it is possible to cut the electrodes and leave them in the patient. is happening. Besides, adapting the electrodes is a training process and requires a field of application depending on the personal experience of the surgeon. Therefore It needs to be done by specialist surgeons.

Due to these disadvantages, instead of helical electrodes, clamps electrodes are used. As an example of clamp-shaped electrodes can be displayed. In the application in question, it surrounds the nerve at one end and from a structure formed by wrapping it around itself from the other end. is mentioned. Adaptation of the electrode to the nerve is a relatively simple operation. can be performed and accordingly its removal can be compared to helical type electrodes. It prevents nerve damage. Another similar application an electrode with an elastic structure is wound. This electrode Despite the advantages of structuring, there is also a significant disadvantage.

The diameters of the nerves vary according to the age of the patient. Therefore, different nerves It is necessary to use electrodes that are compatible with their diameters. In these inventions Since the electrode is wound on itself, the resulting diameter is reduced to a certain diameter. they can be reduced and their use for smaller diameters is not possible.

As a result, all the above-mentioned problems are a novelty in the relevant technical field. does not make it mandatory.

BRIEF DESCRIPTION OF THE INVENTION The present invention is designed to eliminate the above mentioned disadvantages and effective and safe in appropriate nerve regions to bring new advantages to the field. vagus nerve stimulator electrode developed to provide stimulation It is related to.

The main object of the invention is to use a device that can be removed and inserted without causing damage to the nerve. electrode structure is to reveal.

Another object of the invention is to provide an electrode suitable for use for different nerve diameters. structure is to show.

Another aim of the invention is to provide a training to use before surgical operation. an electrode that does not require structure is to show.

All the above-mentioned purposes that will emerge from the detailed description below. The present invention to 'realize' is a method that defines a nerve canal through which the nerve passes. side by side on a 'body' comprising a fixed gripper arm and an adjustable gripper arm structured clamps and said clamps will face the nerve canal It is an electrode containing conductive components arranged in a shaped manner. Accordingly, it is The characteristic of the electrode is that the size of the nerve canal depends on the changing diameter of the nerve. the nerve canal of the said adjustable gripper arm to enable the of the gripper arm adjusted to change the length of the a configured adjustment at the end of the fixed gripper arm through which to ensure that the opening and the adjustable gripper arm are fixed in the desired position. Containing configured adjustment barriers.

A preferred embodiment of the invention is adjustment on said adjustable gripper arm. barriers include a configured safety barrier in succession.

Another preferred embodiment of the invention is downstream from said body. at least one negative clamp configured to extend and said negative a negative conductor component positioned in the gripper arms in the clamp it contains.

Another preferred embodiment of the invention is downstream from said body. at least one positive clamp configured to extend and said positive a positive conductive component positioned in the gripper arms in the clamp it contains.

Another preferred embodiment of the invention is the said embodiment lying in the body. It contains a negative conductor cable that carries a signal to the negative conductor component.

Another preferred embodiment of the invention is the said embodiment lying in the body. It contains a positive conductor cable that carries a signal to the positive conductor component.

Another preferred embodiment of the invention is at least one of said clamps. It is a stabilizer clamp.

BRIEF DESCRIPTION OF THE FIGURES Figure 1 shows the general view of the vagus nerve stimulator.

In Figure 2, the general view of the electrode configuration is given.

Another general view of the electrode is given in Figure 3.

Figure 4 shows the side perspective view of the electrode.

A detailed view of the electrode is given in Figure 5.

REFERENCE NUMBERS IN THE FIGURES Vagus Nerve Stimulator 11 Signal Generator 111 Covers 112 Cable Slot 113 Top Planting Hole 114 Lateral Sewing Hole Electrode 21 Connectors 22 Cable Tubes 221 Negative Conductor Cable 222 Positive Conductor Cable 23 Body 231 Channels 232 Fixed Grip Arm 233 Adjustment Clearance 234 Adjustable Grip Arm 235 Gauge Barrier 236 Safety Barrier 237 Nerve Canal 24 Stabilizer Clamp Negative Clamp 251 Negative Conductor Component 26 Positive Clamps 261 Positive Conductor Component DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the inventive electrode 20 is only better than the subject. with examples that will not have any limiting effect on understanding. is explained.

Referring to Figure 1, the general view of the implanted part of the body is given. The vagus nerve stimulator (10) is an electrode (20) adapted to the vagus nerve and Adapted by sewing to tissues in the body, transmitting a signal to said electrode (20) consists of a signal generator (11). Signal generator (11) external to the body, it is associated with an external charger and a magnetic wristband.

There is a cover (111) on the signal generator (11) and said cover (111) has a cable slot (112) at one end. This cable slot mentioned Associating the signal generator (11) with the electrode (20) via (112) is provided. Adaptation of the signal generator (11) on tissues (114) is over.

Electrode (20); a connector (21) placed in the cable housing (112), said a cable tube (22) located downstream of the connector (21) and said cable It consists of a body (23) configured in the continuation of the tube (22).

On the said body (23) there is a fixing clamp (24), a negative clamp (25) and three clamps 'constructed side by side' to be a positive clamp (26) are available. Distance between negative clamp (25) and positive clamp (26) is 5-6 mm. A negative from the signal generator (11) in the cable tube (22). conductive cable (221) and a positive conductor cable (222). Said the negative conductor cable (221) extends to the negative clamp (25) and the negative clamp A negative conductor provided in (25) is connected to component (251).

Said positive conductor cable (222) extends to the positive clamp (26) and it is connected to a positive conductor component (261) provided in the clamp 26.

All body (23) components that make up the electrode (10) configuration are made of silicon. It is manufactured and does not contain any conductive material. Body (23) connection it is a monolithic structure that does not contain the elements and said clamps are removed from the body. they are configured to extend downward. The body (23), a duct (231) and downstream of said channel (231), forming identical clamps a fixed gripping arm 232 configured to extend and said fixed an adjustable gripper arm (234) configured opposite the gripper arm 232 contains. A structured at the end of said fixed gripper arm (232). adjustment opening (233) is located and said adjustable gripper arm (234), it is passed through this adjustment opening (233). Adjustable grab handle (234) A safety barrier (236) is configured in the continuation of the barriers (235).

Fixing the adjustable gripper arm (234) in the adjusted position (233) It is realized by limiting it with said adjustment barriers (235). Adjustable the gripper arm (234) passes through the adjustment opening (233) with the fixed gripper arm (232). fixed gripper arm (232) and adjustable gripper arm (234) A nerve canal (237) is defined between them. (237) of the aforementioned nerve canal size, over the setting barriers (235) to which the adjustment opening (233) is associated can be changed.

Said 'upper planting hole (113) and lateral planting hole (114) of the signal generator (11) is being done. In this direction, first of all, the nerve is first clamped with the fixative clamp (24). comprehension is achieved. Then the negative clamp (25) and the positive the clamp (26) grips the nerve. Stabilizer clamp (24) electrode (10) negative clamp (25) and the positive clamp (26) provides signal transfer to the nerve. vagus nerve retention, in a sense, means that the clamps located next to the nerve It is provided by extending in channels (237). nerve of handcuffs fixed gripper so that the adjustable gripper arm (234) surrounds the border It is provided by passing the arm (232) through the adjustment opening (233). to the diameter of the nerve fixed gripper of the adjustable gripper arm (234) with the adjustment barriers (235) selected according to It is provided to be fixed on the arm 232. during the operation or said safety against a possible slipping problem in the electrode (20) after damage to the nerve by preventing the opening of the adjustable gripper arm (234) with barriers (236). prevents its formation. Then the nerve, grasped by the clamps, and signal on the positive conductor cable (222) and the positive conductor component (261). transmits. Negative conductor component (251) and positive conductor component (261) fixed extending over the inner surfaces of the gripper arm 232 and the adjustable gripper arm 234. and they allow a signal to be obtained over the region surrounding the nerve.

Thus, nerve stimulation is achieved by transferring the signal from the signal generator (11) to the nerve. is being realized.

The electrode (10) is independent of the nerve size (diameter) thanks to the structure of the clamps. as applicable. Therefore, patients of all age groups can easily reach the nerve. able to hold on. Also negative conductor component (251) and positive conductor While contacting the vagus nerve with the curved structure of the component (261), it also it wraps around. Thus, more efficient signal transfer to the nerves. can be provided. This wrapping effect provided at the electrode 20 It also prevents nerve damage that may occur during the operation. Also fixed Due to the flexible structures of the gripper arm (232) and adjustable gripper arms (233), can be realised.

The scope of protection of the invention is stated in the appended claims and it is absolutely detailed explanation cannot be limited to what is told for the purpose of illustration. Because in technique what has been described above by a specialist without departing from the main theme of the invention It is clear that similar structuring can occur in the light of this.

Claims (7)

REQUESTS . Clamps configured side-by-side on a body 23 comprising a fixed gripping arm 232 and an adjustable gripper arm 234 defining a nerve canal 237 through which the nerve passes, and a conductive component comprising conductive components located in said clamps facing the nerve canal 237. is an electrode (10), the feature of which is the fixed gripper arm ( 232) includes an adjustment opening (233) configured at the end and adjustment barriers (235) configured on the adjustable grab handle (234) based on the said adjustment opening (233) to ensure that the adjustable grab handle (234) is fixed in the desired position. . It is an electrode (10) according to claim 1, characterized in that it includes a safety barrier (236) configured in succession of the adjustment barriers (235) on the said adjustable gripper arm (234). . It is an electrode (10) according to Claim 1, characterized in that it contains at least one negative clamp (25) configured to extend downwards from said body (23) and a negative conductive component (251) positioned in the gripping arms in said negative clamp (25). . It is an electrode (10) according to claim 1, characterized in that it comprises at least one positive clamp (26) configured to extend downwards from said body and a positive conductive component (261) positioned in the gripping arms on said positive clamp (26). . It is an electrode (10) according to claim 1 or 3, characterized in that it contains a negative conductor cable (221) extending inside the body (23) and carrying a signal to said negative conductor component (251). 6. An electrode (10) according to claim 1 or 4, characterized in that it comprises a positive conductor cable (222) extending inside the body (23) and carrying a signal to said positive conductor component (261). 7. An electrode (10) according to claim 1, characterized in that at least one of said clamps is a fixing clamp (24).