JP2013215475A - Medical lead - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a medical lead capable of allowing electrodes to have contact with a nerve with appropriate pressure.SOLUTION: A medical lead 1 having a pair of nerve stimulation electrode parts 16 includes: an annular member 3 with a first ring and a second ring formed therein; a first elastic lead 12A where one of the nerve stimulation electrode parts 16 is formed at one end and that is arranged in the annular member 3; and a second elastic lead 12B with elastic flexibility where the other one of the nerve stimulation electrode parts 16 is formed at one end and that is put through the second ring. The respective elastic leads 12A, 12B are elastically deformed when they are freely advanced/retreated inside the annular member 3, having contact with the annular member 3. The other one between the first electrode part 17A and the second electrode part 17B is in contact with an axon so as to hold the axon by elastically deforming respective elastic leads 12A, 12B. Thus, conduction is obtained with respect to the axon to thereby allow a nerve stimulation signal to be applicable.

Description

  The present invention relates to a medical lead. More particularly, the present invention relates to a medical lead for applying electrical stimulation to tissue in vivo.

Conventionally, it is known to treat a living tissue such as a nerve by applying an electrical stimulus. For example, Patent Document 1 discloses a self-expanding electrode cuff that applies a nerve stimulation signal to the hypoglossal nerve for the purpose of treating sleep apnea syndrome.
The self-expanding electrode cuff described in Patent Document 1 has an inner diameter that passively changes in accordance with the diameter of the nerve to which the electrode cuff is attached. For this reason, the electrode cuff can be brought into close contact with the nerve by selecting an electrode cuff having an inner diameter smaller than the outer diameter of the nerve to be attached.

Special table 2011-519627 gazette

However, in the self-expanding electrode cuff described in Patent Document 1, after the electrode cuff is introduced into the body in order to attach the electrode cuff, the nerve exceeds the range of the outer diameter of the nerve allowable by the electrode cuff. If it is too thick or too thin, it must be replaced with an appropriately sized electrode cuff.
For example, if the self-expanding electrode cuff described in Patent Document 1 is attached to a thin nerve that is less than the allowable outer diameter range, there is a risk that a gap is generated between the nerve and the nerve cannot be stimulated appropriately. . Further, when the self-expanding electrode cuff described in Patent Document 1 is attached to a thick nerve beyond the allowable outer diameter range, there is a risk of squeezing the nerve and damaging the nerve.

  This invention is made | formed in view of the situation mentioned above, The objective is to provide the medical lead which can make an electrode contact a nerve with an appropriate pressure.

In order to solve the above problems, the present invention proposes the following means.
The medical lead of the present invention is a medical lead provided with a pair of nerve stimulation electrode parts, and a ring member in which a ring is formed and one of the nerve stimulation electrode parts is formed at one end part of the ring member. And a flexible elastic lead having the other end of the nerve stimulation electrode portion formed at one end and inserted into the ring and having elasticity, and the elastic lead freely passes through the ring member. It is elastically deformed by advancing and retreating and contacting the ring member, and the one of the nerve stimulation electrode portions and the other of the nerve stimulation electrode portions are arranged so as to sandwich an axon by elastically deforming the elastic leads. A medical lead which is in contact with an axon and conducts so that a nerve stimulation signal can be applied to the axon.

  Moreover, you may further provide the control means which controls the movement of the said elastic lead with respect to the said ring member.

  The ring may be provided with a sheath communicating with the inside of the ring, and the lead and the elastic lead may be inserted into the sheath.

  In addition, the one of the nerve stimulation electrode parts includes a conductor part that contacts the axon and an insulating part that is covered with insulation, and the other of the nerve stimulation electrode parts includes a conductor part that contacts the axon; The lead and the elastic lead may be held by the ring member in a state where each conductor is directed to the axon.

  In addition, the one or the other of the nerve stimulation electrode portions may include a positive electrode and a negative electrode that are in contact with the axon, and an insulating portion that is insulated.

Further, in the medical lead of the present invention, the ring member further includes a second ring having an independent ring shape different from the ring, and the lead is inserted into the second ring so as to freely advance and retract, A part of the lead may be connected.
The lead may be fixed to the ring member.

  The lead may have elasticity.

  Further, in the positional relationship in which the axon is sandwiched between one of the nerve stimulation electrode portions and the other of the nerve stimulation electrode portions, the one and the other are separated from each other in the longitudinal direction of the axon. You may contact the axon.

  Further, at least one of the nerve stimulation electrode part and the other may have a groove extending in a longitudinal axis direction of the axon, and a part of the axon may be arranged in the groove.

  Further, at least one of the nerve stimulation electrode part and the other may have a cylindrical concave surface in contact with the axon.

  In addition, one and the other of the nerve stimulation electrode portions may be in contact with portions of the outer surface of the axon that face each other in the radial direction of the axon.

  The medical lead of the present invention can contact an electrode with a nerve with an appropriate pressure.

It is a perspective view of the medical lead of a 1st embodiment of the present invention. It is a perspective view showing a part of the medical lead. It is a front view of the medical lead. It is sectional drawing in the aa line of FIG. It is a perspective view which shows a part of the medical lead in a partial cross section. It is a perspective view showing a part of the medical lead. It is sectional drawing which shows a part of the medical lead. It is a perspective view which shows one process at the time of use of the medical lead. It is a front view which shows one process at the time of use of the medical lead. It is a typical side view which shows the medical lead of 2nd Embodiment of this invention. It is a typical front view of the medical lead of the embodiment. It is sectional drawing in the bb line of FIG. It is a typical side view showing a medical lead of a 3rd embodiment of the present invention. It is a typical front view of the medical lead of the embodiment. It is sectional drawing in the cc line of FIG. It is a perspective view which shows the medical lead of 4th Embodiment of this invention. It is a perspective view which shows the medical lead of 5th Embodiment of this invention. It is sectional drawing in the dd line of FIG. It is a perspective view which shows the medical lead of 6th Embodiment of this invention. It is a schematic diagram which shows the medical lead of 7th Embodiment of this invention. It is a perspective view which shows the medical lead of 8th Embodiment of this invention. It is a side view which shows one process at the time of use of the medical lead of the embodiment.

(First embodiment)
The medical lead according to the first embodiment of the present invention will be described.
First, the configuration of the medical lead of this embodiment will be described. FIG. 1 is a perspective view of the medical lead of the present embodiment. FIG. 2 is a perspective view showing a part of the medical lead. FIG. 3 is a front view of the medical lead. 4 is a cross-sectional view taken along line aa in FIG. FIG. 5 is a perspective view showing a part of the medical lead in partial cross section. FIG. 6 is a perspective view showing a part of the medical lead. FIG. 7 is a cross-sectional view showing a part of the medical lead.

The medical lead of this embodiment is a medical instrument used for applying electrical stimulation to tissue in a living body.
As shown in FIG. 1, the medical lead 1 includes a sheath 2, a ring member 3, a lead portion 5, and a lead fixing mechanism 19 (regulating means).

  The sheath 2 is a long hollow tubular body. As the material of the sheath 2, a flexible elastic material having high biocompatibility can be appropriately selected and employed. Specifically, examples of the material of the sheath 2 include polyurethane, silicone, and ethylene / tetrafluoroethylene copolymer (ETFE).

  The ring member 3 is fixed to the distal end of the sheath 2 and has an annular shape. The inside of the ring (the first part 3a and the second ring 3b) of the ring member 3 and the inside of the sheath 2 communicate with each other. The ring member 3 is harder than the sheath 2, and as shown in FIGS. 2 and 3, the opening on the distal end side is divided into two by a pin 4. The opening bisected by the pin 4 has a first part 3a through which the first elastic lead 12A provided in the lead part 5 is inserted so as to freely advance and retract, and a second elastic lead 12B provided in the lead part 5 is freely movable back and forth. It is set as the 2nd ring 3b penetrated by. Further, the opening on the distal side of the ring member 3 is formed such that a portion to which the pin 4 is fixed projects to the distal side. Furthermore, the open end on the distal side of the ring member 3 has a rounded corner.

As shown in FIG. 4, the lead part 5 includes a core tube 6, a wiring part 7, a covering part 10, a pair of elastic leads 11, and a pair of nerve stimulation electrode parts 16 (first electrode part 17A and second electrode). Electrode portion 17B).
The core tube 6 is a hollow tubular body having flexibility and has an outer diameter smaller than the inner diameter of the sheath 2.
The wiring portion 7 has a connector 8 disposed at the proximal end of the core tube 6 and a plurality of metal wires 9 having one end connected to the connector 8 and the other end connected to each of the conductor portions 14A and 14B described later. doing. In this embodiment, the metal wire 9 is provided with two or more with respect to each conductor part 14A, 14B in order to reduce the influence at the time of a disconnection. As a material of the metal wire 9, 35NLT (registered trademark), 35NLT (registered trademark) containing silver, or the like can be used.

  The covering portion 10 is made of, for example, polyurethane, silicone, ethylene / tetrafluoroethylene copolymer (ETFE), or the like, and is covered on the outer surface of the core tube 6. In the present embodiment, the metal wire 9 of the wiring part 7 is arranged between the covering part 10 and the core tube 6. In this embodiment, the material of the coating | coated part 10 is the same material as the insulator which coat | covers a pair of elastic lead 11 mentioned later, and is integrally molded.

  The pair of elastic leads 11 includes a first elastic lead 12 </ b> A and a second elastic lead 12 </ b> B inserted into the sheath 2 and the ring member 3 while being fixed to the distal end of the core tube 6. The first elastic lead 12 </ b> A and the second elastic lead 12 </ b> B are elastic members that protrude from the distal end of the ring member 3. The first elastic lead 12 </ b> A is inserted into the first part 3 a of the ring member 3, and the second elastic lead 12 </ b> B is inserted into the second ring 3 b of the ring member 3. Within the sheath 2, the first elastic lead 12 </ b> A and the second elastic lead 12 </ b> B are coupled to each other by being fixed to the distal end of the core tube 6.

  The pair of nerve stimulation electrode portions 16 are provided at the distal ends of the pair of elastic leads 11. That is, the first electrode portion 17A is provided at the distal end of the first elastic lead 12A, and the second electrode portion 17B is provided at the distal end of the second elastic lead 12B. The first electrode portion 17A and the second electrode portion 17B are attached to nerve axons in order to stimulate the nerve when the medical lead 1 is used.

  The first elastic lead 12A has an elastic core portion 13A, and a first electrode portion 17A is provided at the distal end of the core portion 13A. In the present embodiment, the core portion 13A is made of a conductor such as metal. In addition, a part of the first electrode portion 17A and the core portion 13A are covered with an insulator. The distal end of the first elastic lead 12A is bent in an L shape or a J shape toward the second elastic lead 12B on the distal side from the first electrode portion 17A.

  The first electrode portion 17A includes a conductor portion 14A that is in contact with a nerve axon to which the medical lead 1 is attached, and an insulating portion 15A that is covered with insulation. In the present embodiment, the conductor portion 14A is fixed to the core portion 13A and is electrically connected to the core portion 13A. Further, the conductor portion 14A is provided with an insulating portion 15A by having an opening through which a part of the conductor portion 14A is exposed and fixing the above-described covering portion 10. As the material of the conductor portion 14A, pure platinum, an alloy containing platinum and iridium, or the like can be used. Further, a plurality of metal wires 9 provided in the above-described wiring portion 7 are fixed to the core portion 13A of the first elastic lead 12A, and the conductor portion 14A and the metal wire 9 are electrically connected.

  In the conductor portion 14A, the portion where the opening of the covering portion 10 (insulating portion 15A) is located is a smooth flat surface or a smooth curved surface, and is a contact portion 18A that contacts the outer surface of the nerve axon. . In the present embodiment, the conductor portion 14A is in a twisted position (for example, the direction vector is vertical) with respect to the longitudinal direction of the axon when the medical lead 1 is attached to the nerve axon. It has a cylindrical shape with a central axis extending.

  The second elastic lead 12B has a core part 13B having elasticity, and a second electrode part 17B is provided at the distal end of the core part 13B. In the present embodiment, the core portion 13B is a single wire or a stranded wire made of a conductor such as metal. A part of the second electrode portion 17B and the core portion 13 are covered with an insulator. The distal end of the second elastic lead 12B is bent in an L shape or a J shape toward the first elastic lead 12A on the distal side of the second electrode portion 17B.

  The second electrode portion 17B includes a conductor portion 14B that is in contact with a nerve axon to which the medical lead 1 is attached and an insulating portion 15B that is covered with insulation. In the present embodiment, the second electrode portion 17B is disposed closer to the proximal end than the first electrode portion 17A. Thus, the conductor portion 14B of the second electrode portion 17B is in contact with the conductor portion 14A of the first electrode portion 17A at a different position on the outer surface of the axon. Specifically, the core portion 13B of the second elastic lead 12B is formed shorter than the core portion 13A of the first elastic lead 12A, whereby the second electrode portion 17B is on the proximal end side of the first electrode portion 17A. Is located. In the present embodiment, the conductor portion 14B is fixed to the core portion 13B and is electrically connected to the core portion 13B. As the material of the conductor portion 14B, pure platinum, an alloy containing platinum and iridium, or the like can be used. Further, the conductor portion 14B has an opening through which a part of the conductor portion 14B is exposed, and the covering portion 10 is fixed to form an insulating portion 15B. A plurality of metal wires 9 provided in the wiring portion 7 are fixed to the core portion 13B of the second elastic lead 12B, and the conductor portion 14B and the metal wire 9 are electrically connected.

  In the conductor portion 14B, the portion where the opening of the covering portion 10 (insulating portion 15B) is located is a smooth flat surface or a smooth curved surface, and serves as a contact portion 18B in contact with the outer surface of the nerve axon. . In the present embodiment, the conductor portion 14B has a cylindrical shape in which when the medical lead 1 is attached to a nerve axon, the center axis is located in a position twisted and perpendicular to the longitudinal direction of the axon. It has become.

  The first elastic lead 12 </ b> A and the second elastic lead 12 </ b> B extend so as to be separated from each other as they go from the proximal end to the distal end when no external force is applied. When the first elastic lead 12A and the second elastic lead 12B are drawn into the sheath 2, the first elastic lead 12A and the second elastic lead 12B are arranged so that the first electrode portion 17A and the second electrode portion 17B are close to each other. The ring member 3 is elastically deformed.

  As shown in FIGS. 5 to 7, the lead fixing mechanism 19 is provided to restrict the movement of the lead portion 5 with respect to the ring member 3, and has a male screw portion 20 fixed to the proximal end of the sheath 2, The sheath 2 is inserted into the inside and has a fastening tool 22 having an internal thread portion 23 formed on the inner surface.

  The male screw portion 20 is a substantially tubular member coaxial with the sheath 2, and a slit 21 parallel to the central axis is formed from the intermediate portion toward the proximal end. In the present embodiment, four slits 21 are formed every 90 °, and the proximal end of the male screw portion 20 is divided into four.

The fastening tool 22 has a female screw portion 23 that is screwed into the male screw portion 20 on the inner surface, and an inner diameter of the proximal end that is smaller than an outer diameter of the proximal end of the male screw portion 20. It is a cylindrical member. Thereby, when the male screw part 20 and the female screw part 23 are screwed together and the fastening tool 22 is moved to the distal end side of the male screw part 20, the male screw part is formed at the proximal end of the fastening tool 22. The proximal end of 20 is pushed and moved radially inward. As a result, the proximal end of the male screw portion 20 is pressed against the outer surface of the lead portion 5 by the fastener 22 or is separated from the outer surface of the lead portion 5. That is, the lead fixing mechanism 19 restricts the advancement / retraction and rotation of the lead part 5 with respect to the sheath 2.
In the present embodiment, a gripping cylinder 24 that is gripped by the operator is fixed to the fastening tool 22.

  In the present embodiment, a stylet harder than the core tube 6 can be inserted into the core tube 6 of the lead portion 5. The stylet has a configuration in which a grip portion is attached to an end portion of a linear member made of, for example, a superelastic alloy, and the lead portion 5 and the sheath 2 are linearly inserted by inserting the linear member into the core tube 6. It can be. In the present embodiment, the stylet preferably has a linear member having a length that reaches a fixed portion between the core tube 6 and the pair of elastic leads 11. When the medical lead 1 has a stylet, the medical lead 1 can be in a straight state as necessary. When the stylet is made of a superelastic alloy, the medical lead 1 in a state where the stylet is inserted has flexibility and is easily in a straight state by the restoring force of the stylet.

Next, the operation of the medical lead 1 of this embodiment will be described. FIG. 8 is a perspective view showing a process during use of the medical lead. FIG. 9 is a front view showing one process during use of the medical lead.
When the medical lead 1 shown in FIG. 1 is used, the distal end of the medical lead 1 is guided toward a nerve to which the medical lead 1 is attached. As a method of guiding the medical lead 1, for example, the medical lead 1 is inserted into the treatment instrument channel of the endoscope from the distal end side, and the medical lead 1 is used with reference to the endoscopic image. The lead 1 is moved. If necessary, the stylet may be inserted into the core tube 6 (see FIG. 4) when the medical lead 1 is desired to be linear. In addition, you may guide the medical lead 1 toward the nerve used as attachment object, without using an endoscope.

  When the distal end of the medical lead 1 is guided to the nerve to be attached, the pair of nerve stimulation electrode portions 16 and the nerve axon to be attached are aligned on the distal end side of the medical lead 1. I do. The alignment between the pair of nerve stimulation electrode portions 16 and the nerve axon to be attached is performed by rotating the medical lead 1 around the axis or by moving the medical lead 1 forward and backward in the treatment instrument channel of the endoscope. To do. Alternatively, all of the medical lead 1 may be manipulated from the treatment instrument channel, and the medical lead 1 may be moved endoscopically using, for example, forceps.

  Since the pin 4 is provided on the ring member 3 at the distal end of the sheath 2, if one of the proximal end of the sheath 2 and the proximal end of the lead portion 5 is rotated, The other of the proximal end and the proximal end of the lead portion 5 rotates following the one by engaging with the pin 4. Note that the intermediate portion and the distal end of the sheath 2 and the intermediate portion and the distal end of the lead portion 5 may be rotated during alignment with the nerve.

  Subsequently, as shown in FIGS. 2 and 8, the sheath 2 is moved to the proximal end side with respect to the lead portion 5, and the first electrode portion 17A and the second electrode portion 17B are separated from each other. Thereby, as shown in FIG. 2, a gap for inserting an axon is made between the first electrode portion 17A and the second electrode portion 17B. The conductor portion 14A of the first electrode portion 17A and the conductor portion 14B of the second electrode portion 17B are held by the ring member 3 in a state where each is directed to the axon.

  Subsequently, an axon is inserted between the first electrode portion 17 </ b> A and the second electrode portion 17 </ b> B, and the sheath 2 is moved to the distal end side with respect to the lead portion 5. Then, the first elastic lead 12A and the second elastic lead 12B are elastically deformed by contacting the ring member 3, and as shown in FIG. 8, the conductor portion 14A of the first electrode portion 17A and the conductor portion of the second electrode portion 17B. 14B approaches. Thereby, each conductor part 14A and 14B touches an axon so that an axon may be inserted | pinched.

  In the positional relationship in which the axon is sandwiched between the first electrode part 17A and the second electrode part 17B, the first electrode part 17A and the second electrode part 17B are axons at positions separated in the longitudinal axis direction of the axon. To touch.

  After that, when the lead portion 5 is fixed to the sheath 2 by the lead fixing mechanism 19 shown in FIGS. 5 to 7, the movement of the pair of elastic leads 11 with respect to the ring member 3 is restricted, and the conductor portions 14A and 14B The medical lead 1 is attached to the nerve while being in contact with the outer surface (see FIG. 9). In this state, the medical lead 1 is electrically connected to the axon in a state where a nerve stimulation signal can be applied to the axon, and if a nerve stimulation device (not shown) is connected to the connector 8 (see FIG. 4), A neural stimulation signal can be applied to the axon.

  As described above, according to the medical lead 1 of the present embodiment, the first electrode portion 17A and the second electrode portion 17B are opened and closed by moving the sheath 2 forward and backward with respect to the lead portion 5. Accordingly, the first electrode portion 17A and the second electrode portion 17B are opened and closed corresponding to individual differences in the thickness of the nerve axon to be attached, and a gap suitably corresponding to the thickness of the axon is formed. It can be generated between the first electrode portion 17A and the second electrode portion 17B. As a result, conduction between the first electrode portion 17A and the second electrode portion 17B and the axon can be ensured, and the first electrode portion 17A and the second electrode portion 17B can be brought into contact with the nerve with an appropriate pressure.

  Moreover, since the lead | read | reed part 5 can be fixed to the sheath 2 with the lead fixing mechanism 19, after attaching the medical lead 1 to a nerve, it is hard to remove the medical lead 1 from a nerve. In addition, since the male screw portion 20 is pressed against the outer surface of the lead portion 5 by the fastener 22 in the lead fixing mechanism 19 of the present embodiment, the medical lead 1 can be easily obtained by loosening the fastener 22. Can be removed from the nerve.

  In addition, since the first part 3a and the second ring 3b that form mutually independent rings are formed in the ring member 3, the positional relationship between the lead members 5 in the circumferential direction of the ring member 3 and the sheath 2 is greatly shifted. It is prevented. For this reason, when the proximal end of the medical lead 1 is rotated in the circumferential direction, the distal end of the medical lead 1 follows and rotates, so that the operability is good.

  Further, in the state where the medical lead 1 is attached to the nerve, the pair of elastic leads 11 is held by the ring member 3 with the contact portions 18A and 18B in the respective conductor portions 14A and 14B facing the axon. The periphery of the contact portions 18A and 18B is insulated. Thereby, it is possible to prevent a nerve stimulation signal from being applied to tissues other than nerves and nerves other than attachment targets.

  In the present embodiment, as long as the metal wire 9 is directly connected to the conductor portions 14A and 14B, the core portions 13A and 13B of the elastic leads 12A and 12B may not be conductors.

(Second Embodiment)
Next, a medical lead 1A according to a second embodiment of the present invention will be described. FIG. 10 is a schematic side view showing the medical lead of the present embodiment. FIG. 11 is a schematic front view of a medical lead. 12 is a cross-sectional view taken along line bb of FIG.

As shown in FIGS. 10 to 12, the medical lead 1 </ b> A of the present embodiment has a first electrode portion 30 </ b> A and a second electrode portion 30 </ b> B that extend in parallel with a nerve axon to be attached.
The first electrode portion 30A and the second electrode portion 30B have a cylindrical shape, and are provided with conductor portions 31A and 31B at positions facing each other in a front view. The conductor portions 31A and 31B of the present embodiment extend in parallel with nerve axons. In this embodiment, 31 A of conductor parts of 30 A of 1st electrode parts are formed so that the contact area with respect to a nerve may become smaller than the conductor part 31B of 30 B of 2nd electrode parts.

Even with such a configuration, the same effects as those of the first embodiment described above can be obtained.
Note that either the first electrode portion 30A or the second electrode portion 30B may have the conductor portions 14A and 14B similar to those in the first embodiment described above.

(Third embodiment)
Next, a medical lead 1B according to a third embodiment of the present invention will be described. FIG. 13 is a schematic side view showing the medical lead of the present embodiment. FIG. 14 is a schematic front view of the medical lead of the embodiment. 15 is a cross-sectional view taken along the line cc of FIG.

  As shown in FIGS. 13 to 15, the medical lead 1 </ b> B of the present embodiment has a first electrode part 30 </ b> A and a second electrode part 30 </ b> B similar to the second embodiment described above, which are nerve axons to be attached. In addition, grooves 32A and 32B extending in the longitudinal axis direction of the axon are provided. A part of the axon is arranged in the groove 32A formed in the first electrode part 30A and in the groove 32B formed in the second electrode part 30B.

Conductor portions 33A and 33B similar to those described in the first embodiment are disposed on the inner surfaces of the grooves 32A and 32B. In the present embodiment, the conductor portions 33A and 33B have curved contact portions 34A and 34B that follow the inner surface shape of the grooves 32A and 32B. In the present embodiment, each of the grooves 32A and 32B has a cylindrical concave surface, and the contact portions 34A and 34B are also cylindrical concave surfaces.
The shape of the groove is preferably set based on the diameter of the nerve axon to be attached.

  Further, the first electrode portion 30A and the second electrode portion 30B are arranged with a gap in the longitudinal direction of the axon. The gap between the first electrode portion 30A and the second electrode portion 30B can be used as a nerve branch passage.

  In the present embodiment, since each groove has a cylindrical surface shape, at least line contact is made with respect to the outer surface of the nerve axon, and the axon is not easily detached from the first electrode portion 30A and the second electrode portion 30B. .

(Fourth embodiment)
Next, a medical lead 1C according to a fourth embodiment of the present invention will be described. FIG. 16 is a perspective view showing the medical lead of the present embodiment.
As shown in FIG. 16, the medical lead 1 </ b> C of the present embodiment includes a fixed lead 40 extending in parallel with the extension of the central axis of the sheath 2, and a second electrode portion 30 </ b> B described in the third embodiment. The second embodiment is different from the third embodiment in that the second elastic lead 41 is provided.

The fixed lead 40 in the present embodiment is fixed to the ring member 3 and is harder than the first elastic lead and the second elastic lead described in the above embodiments. The fixed lead 40 is provided with the first electrode portion 30A described in the third embodiment.
The second elastic lead 41 is not connected to the fixed lead 40 and is different from the third embodiment in that the second elastic lead 41 can freely advance and retract within the sheath 2 and the ring member 3 independently of the fixed lead 40.

  When using the medical lead 1 </ b> C of the present embodiment, for example, the first electrode portion 30 </ b> A provided on the fixed lead 40 fixed to the ring member 3 is brought into contact with the nerve axon and the second elasticity is applied to the sheath 2. By moving the lead 41 to the proximal end side, the second electrode portion 30B is brought into contact with the axon.

Even with such a configuration, the same effects as those of the above-described embodiments can be obtained.
In the present embodiment, the fixed lead 40, the ring member 3, and the sheath 2 may be integrally formed.

(Fifth embodiment)
Next, a medical lead 1D according to a fifth embodiment of the present invention will be described. FIG. 17 is a perspective view showing the medical lead of the present embodiment. 18 is a cross-sectional view taken along the line dd in FIG.
As shown in FIGS. 17 and 18, the medical lead 1 </ b> D of this embodiment includes a first elastic lead 50 provided with a first electrode portion 30 </ b> A and a second electrode portion 30 </ b> B. The configuration is different from that of the third embodiment in that it has the second elastic lead 51 that does not have the described second electrode portion 30B and does not have a function as an electrical contact with a nerve.
In the first elastic lead 50, the first electrode portion 30A is disposed on the distal side, and the second electrode portion 30B is disposed on the proximal side with a gap from the first electrode portion 30A. In the present embodiment, the first electrode portion 30A is a negative electrode, and the second electrode portion 30B is a positive electrode.
Further, in the front view of the first elastic lead 50, the conductor part 33A of the first electrode part 30A and the conductor part 33B of the second electrode part 30B are located on the outer surface of the axon at positions facing the radial direction of the axon. It comes to touch.
Even with such a configuration, the same effects as those of the above-described embodiments can be obtained.
In the present embodiment, since the first electrode portion 30A and the second electrode portion 30B are both provided on the first elastic lead 50, the positional relationship between the first electrode portion 30A and the second electrode portion 30B is fixed. Has been. Thereby, the precision of the contact position of 30 A of 1st electrode parts and the 2nd electrode part 30B in an axon is high.

(Sixth embodiment)
Next, a medical lead 1E according to a sixth embodiment of the present invention will be described. FIG. 19 is a perspective view showing the medical lead of the present embodiment.
As shown in FIG. 19, the medical lead 1 of this embodiment is different from the above-described second embodiment in that a spring portion 61 is interposed between the elastic leads 12 </ b> A and 12 </ b> B.
In this embodiment, by providing the spring portion 61, the pressing force transmitted from the first electrode portion 30A and the second electrode portion 30B to the nerve when the sheath 2 is moved relative to the lead portion 5 is adjusted. can do. In addition, by appropriately setting the spring constant of the spring portion 61, it is possible to obtain a medical lead that is in close contact with the nerve and further prevents damage to the nerve.
In the present embodiment, the lengths of the elastic leads 12A and 12B may be equal to each other. In this case, the first electrode portion 30A and the second electrode portion 30B are in contact with each other in the radial direction of the nerve axon and at the same position in the longitudinal axis direction of the nerve axon.

(Seventh embodiment)
Next, a medical lead 1F according to a seventh embodiment of the present invention will be described. FIG. 20 is a schematic view showing the medical lead of the present embodiment.
As shown in FIG. 20, the medical lead 1F of the present embodiment is different in that a lead fixing mechanism 70 having a different configuration is provided instead of the lead fixing mechanism 19 described in the first embodiment. .
The lead fixing mechanism 70 includes a cylindrical portion 71 fixed to the proximal end of the sheath 2, a sleeve 72 in which the lead portion 5 is fixed inside and advances and retracts in the cylindrical portion 71, and a sleeve 72 that penetrates the cylindrical portion 71. And a grom screw 73 capable of abutting on the outer surface.

  Further, a projection 71 a is formed on the inner surface of the intermediate portion of the cylindrical portion 71 so as to protrude radially inward of the cylindrical portion 71, and a protrusion protruding outward in the radial direction of the sleeve 72 is formed at the distal end of the sleeve 72. 72a is formed. The protrusion 71 a formed on the cylindrical portion 71 and the protrusion 72 a formed on the sleeve 72 are engaged with each other to prevent the sleeve 72 from coming off from the cylindrical portion 71.

In the present embodiment, by screwing the tube screw 73 into the tube portion 71, the tube screw 73 contacts the outer surface of the sleeve 72, and the tube portion 71 and the sleeve 72 are fixed. Thereby, the lead portion 5 is fixed to the sheath 2.
Further, since the female screw 73 is not in direct contact with the lead portion 5 but in contact with the sleeve 72, the possibility that the metal wire provided in the lead portion 5 is disconnected is low.

(Eighth embodiment)
Next, a medical lead 1G according to an eighth embodiment of the present invention will be described. FIG. 21 is a perspective view showing the medical lead of the present embodiment. FIG. 22 is a side view showing one process during use of the medical lead.
As shown in FIGS. 21 and 22, the medical lead 1G of the present embodiment has a pair of elastic leads 80 (first elastic lead 81A) having a different shape from the pair of elastic leads 11 described in the third embodiment. And a second elastic lead 81B).
That is, in the present embodiment, the first elastic lead 81A is parallel to each other on the proximal side and the distal side, and is bent so as to extend at an angle with respect to the proximal side and the distal side in the intermediate portion. Yes. Similarly, the second elastic lead 81B is parallel to each other on the proximal side and the distal side, and is bent at the intermediate portion so as to extend inclined with respect to the proximal side and the distal side.

In this embodiment, in a state where the first electrode portion 30A and the second electrode portion 30B are in contact with the nerve axon, the sheath 2 is positioned away from the axon so as to be parallel to the axon. That is, the sheath 2 is disposed at a position offset with respect to the axon.
Thereby, when the medical lead 1G is attached to the nerve, the possibility that the medical lead 1G and the nerve interfere with each other can be reduced.

As mentioned above, although embodiment of this invention was explained in full detail with reference to drawings, the concrete structure is not restricted to this embodiment, The design change etc. of the range which does not deviate from the summary of this invention are included.
For example, as another configuration of the lead fixing mechanism, a friction member such as an O-ring that frictionally engages the outer surface of the lead portion may be provided on the ring member.
In addition, the constituent elements shown in the above-described embodiments can be combined as appropriate.

1, 1A, 1B, 1C, 1D, 1E, 1F, 1G Medical lead 2 Sheath 3 Ring member 3a First part 3b Second ring 4 Pin 5 Lead part 6 Core tube 7 Wiring part 8 Connector 9 Metal wire 10 Covering part DESCRIPTION OF SYMBOLS 11 A pair of elastic lead 12A 1st elastic lead 12B 2nd elastic lead 13, 13A Core part 13B Core part 14A, 14B Conductor part 15A, 15B Insulation part 16 A pair of nerve stimulation electrode part 17A 1st electrode part 17B 2nd electrode part 18A, 18B Contact part 19 Lead fixing mechanism 20 Male thread part 21 Slit 22 Fastening tool 23 Female thread part 24 Grasping cylinder 30A First electrode part 30B Second electrode part 31A, 31B Conductor part 32A, 32B Groove 33A, 33B Conductor part 34A, 34B Contact 40 Fixed lead 41 Second elastic lead 50 First elastic lead 51 Second elastic lead 61 Spring part 0 lead-fixing mechanism 71 cylindrical portion 71a projection 72 the sleeve 72a projecting 73 set screw 80 pair of elastic lead 81A first elastic lead 81B second elastic lead

Claims (12)

A medical lead having a pair of nerve stimulation electrode parts,
A ring member formed with a ring;
One of the nerve stimulation electrode portions is formed at one end and a lead provided on the ring member,
A flexible elastic lead having the other end of the nerve stimulation electrode part formed at one end and inserted through the ring;
The elastic lead is elastically deformed by freely advancing and retreating in the ring member and contacting the ring member,
One of the nerve stimulation electrode portions and the other of the nerve stimulation electrode portions are in contact with the axon so as to sandwich the axon when the elastic lead is elastically deformed, and a nerve stimulation signal to the axon A medical lead characterized in that it conducts so that can be applied. The medical lead according to claim 1,
The medical lead further comprising a restricting means for restricting movement of the elastic lead with respect to the ring member. The medical lead according to claim 1,
The ring is provided with a sheath communicating with the inside of the ring,
The medical lead, wherein the lead and the elastic lead are inserted into the sheath. The medical lead according to claim 1,
The one of the nerve stimulation electrode parts has a conductor part in contact with the axon and an insulating part coated with insulation,
The other of the nerve stimulation electrode parts has a conductor part in contact with the axon and an insulating part coated with insulation,
The medical lead, wherein the lead and the elastic lead are held by the ring member in a state where each conductor portion is directed to the axon. The medical lead according to claim 1,
The one or the other of the nerve stimulation electrode portions includes a positive electrode and a negative electrode that are in contact with the axon, and an insulating portion that is insulated and coated. The medical lead according to claim 1,
The ring member further has an independent ring-shaped second ring different from the ring,
The lead is inserted into the second ring so as to freely advance and retract,
The elastic lead and the lead are partially connected to each other. The medical lead according to claim 1,
The medical lead, wherein the lead is fixed to the ring member. The medical lead according to claim 1,
The medical lead, wherein the lead has elasticity. The medical lead according to claim 1,
In the positional relationship in which the axon is sandwiched between one of the nerve stimulation electrode portions and the other of the nerve stimulation electrode portions, the one and the other are spaced apart in the longitudinal axis direction of the axon at the axis. A medical lead characterized by contact with the cord. The medical lead according to claim 1,
At least one of the nerve stimulation electrode part and the other has a groove extending in the longitudinal axis direction of the axon, and a part of the axon is disposed in the groove. For lead. The medical lead according to claim 1,
At least one of the nerve stimulation electrode part and the other has a cylindrical concave surface in contact with the axon. The medical lead according to claim 1,
One of the nerve stimulation electrode portions and the other are in contact with portions of the outer surface of the axon that are opposed to each other in the radial direction of the axon.

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