ELECTRODE ARRAY FOR STIMULATING NERVES

Based on a text content of the under with reference to a drawing of the present invention in the embodiment to in the present invention is in the field of the person with skill in the art easily embodiment. as further described can be. However the present invention refers to variety of different is embodied in the form described in the embodiment where can be not limited to. Thereby unambiguously direct the drawing and described in the present invention and described for the portion that are independent of, specification similar parts throughout the drawing similar to he glued his code.

Also in the embodiment according to Figure 1 shows a a of the present invention is surface indicative of the electrode array.

Also 1 with a, a in the embodiment according to electrode array of the present invention, plurality of electrodes (110), and a pair of supports (121 and 122), hinge part (130), and locking member (140) includes. A pair of circular support of Figure 1 (a) (121,122) is opened which shows the state that the, a pair of circular support of Figure 1 (b) (121,122) shown closed is of wet liquid to flow down.

Plurality of electrodes (110) the, a biocompatible a driving power to the conductor can be fabricated with, and a pair of supports (121,122) is supported by the. And a pair of supports (121,122) is closed, the Image pickup a plurality of electrodes (110) can be inserted into depth in the dermis at which nerve bundle. Plurality of electrodes (110) has a length of can be all different. Bundle or for the manufacture of a medicament of the present invention in the embodiment according to a use purpose of an array of electrodes according to the length of the each electrode site may vary between :. In Figure 1 of a hinge (130) locking members (140) direction of the electrode is becoming so that a one in the embodiment shown of wet liquid to flow down. Plurality of electrodes (110) is the end which is tapered acicular (needle type), double-sided adhesive sheets width of a predetermined size (plate type) or, acicular and a board-like is controlled by a use for goods may be in the form.. Plurality of electrodes (110) the neural leather is part when the male part is inserted, plurality of electrodes (110) the nerve fibers neural a half-automatic removing mode included in bundle penetrates into space between nerve fibers can be can take the elastic material so as. Furthermore, plurality of electrodes (110) rather than rigid and hardness of bundle neural has (hardness) (hardness_electrode > hardness_{nervous cluster}), can occurrence of rather than nerve fibers (hardness_electrode < hardness_{nervous fiber}). Plurality of electrodes (110) form a family of bundle with the exception of a neuroprotective rotation of support, can be placed into the recess, which has been toasted into longitudinally member is United to the, a key may be fabricated so as to spread into a shape.

While, plurality of electrodes (110) the control unit the electrode array (not shown) and a plurality of leads (150) may be connected to through. Control portion has a plurality of leads (150) the respective electrode can be deliver a current, measured at each electrode car notebook plurality nerve signal (150) the control unit and passed to the.

And a pair of supports (121,122) has a plurality of electrodes (110) to support the. Also shown in 1 a of the present invention support and support circular in the embodiment according to, .also elliptical the shape of the support. And a pair of supports (121,122) are coupled through an inductive component of the hinge part (130) control inducting layer are connected to a, the second end the locking member (140) s are connected thereto. And a pair of supports (121,122) each support at one end in the connected part (130) the other party by using a stereo from one another with respect to the support can be rotating. And a pair of supports (121,122) away relative to each other to as to be rotatable in the direction (support opening) the, neural user of the present invention in the embodiment according to the periphery of the bundle to be able to place such a electrode array. After, user a pair of stand (121,122) by in a shrinks, neural bundle and a pair of supports (121,122) can be and encircling. The, and a pair of supports (121,122) is supported by a plurality of electrodes (110) the neural bundle in which the can be easily inserting. Plurality of electrodes (110) the neural bundle in which the easily after insertion, and a pair of supports (121,122) connected at one end in other locking member (140) the pair of stand (121,122) a circular (or elliptical) can be maintain the shape into.

On the other hand, and a pair of supports (121,122) and bundles of in nerve that is in direct contact with the material inside the biocompatible is verified. can be attached. Or, and a pair of supports (121,122) the biocompatible is verified can be fabricated and material, and a pair of supports (121,122) the. non-conducting. According to of the present invention in the embodiment, locking member (140) the pair of stand (121,122) is fixed in the even when, each support (121,122) correlation-removed data in sufficiently face up, the distance between the support (121,122) there is insufficient hardness of material used in nerve is arranged on a support does not is urged by.

Hinge part (130) the, each support is connected at one end in the each support hinge support each directly connected by variable shaft rotate relative to one another can allow. While, plurality of electrodes (110), each connected with the plurality of leads (150) the hinge part (130) fastening elements which are provided (not shown) can be held by. Or a plurality of wire (150) a pair of stand (121,122) the fixing unit is is can be stationary.

Locking member (140) the, plurality of electrodes (110) the neural bundle in which the easily after insertion, and a pair of supports (121,122) neural bundle movement relative to the pair of stand a fixing a (121,122) circular (or elliptical) shape of the supporting.. In electrode array in the embodiment according to a of the present invention, locking member (140) the, button, ring, tie (tie), locking iron, magnet plate pair of stand by an amount of. for fixing are open on the side of the. In addition locking member (140) the, plurality of leads (150) is connected to according to the control of the controller a pair of support received in the reception part while electromagnet, a key may be fabricated. The, locking member (140) the, microelectromechanical (microelectromechanical system, MEMS) techniques or the like based on fabrication techniques micro-machining techniques of, a key may be fabricated. According to of the present invention in the embodiment, locking member (140) the pair of stand is fixed by, electrical stimulation by either applying neural a mobile station to measure the signal during outer in bundle neural support.

Also in the embodiment according to Figure 2 shows a other of the present invention is surface indicative of the electrode array.

2 also refers to surface, other in the embodiment according to electrode array of the present invention, plurality of electrodes (210), and a pair of supports (221 and 222), a hinge portion (230), and locking member (240) includes. A pair of polygonal support of Figure 2 (a) (221,222) is opened which shows the state that the, of Figure 2 (b) a pair of polygonal support (221,222) shown closed is of wet liquid to flow down.

Plurality of electrodes (210) the, a biocompatible a driving power to the conductor can be fabricated with, and a pair of supports (221,222) is supported by the. Also a plurality of electrodes shown in 2 (210) also length, also a feature of the material includes one shown in 1 a plurality of electrodes (210) equals. Plurality of electrodes (210) the control unit the electrode array (not shown) and a plurality of leads (250) may be connected to through. Control portion has a plurality of leads (250) the respective electrode can be deliver a current, measured at each electrode car notebook plurality nerve signal (250) the control unit and passed to the.

And a pair of supports (221,222) has a plurality of electrodes (210) to support the. Support 2 also shown in and support polygonal in the embodiment according to other of the present invention, the shape of the support triangle, rectangular of a polyimide resin, such polygonal.. At one end in the connected part (230) each support can be connected, and a pair of supports (221,222) has the guide protrusions to the upper when the second end is connected to a locking part and (240) by closed or broken shapes purpose: an instrument for an endoscope. Also shown in 2 a pair of stand (221,222) also other features of the pair of stand a shown in 1 (221,222) .the same.

Hinge part (230) the, each support is connected at one end in the and directly connected each support, each support hinge inclination by variable shaft rotate relative to one another can allow. Also the hinge part shown in 2 (230) also other features of the hinge part shown in 1 (130) .the same.

Locking member (240) the, plurality of electrodes (210) the neural bundle in which the easily after insertion, and a pair of supports (221,222) is neural bundle of relative movement with respect to. secured. Locking member (240) a pair of support (221,222) fixed to surface, and a pair of supports (221,222) shape of polygon cross-section of the. can be maintained. Also shown in a locking part and 2 (240) also other features of the locking member shown in 1 (140) .the same.

Such as on, of the present invention in the embodiment according to electrode array neural of the nerve injury can be applied to the electrical stimulation to bundle, neural in. nerve signal. Furthermore, of the present invention in the embodiment according to the neural electrode of an array of electrodes after insertion into the bundle, neural of an array of electrodes relative to the bundle can be minimizes the motion. Medical device implantable electrode array of the present invention in the embodiment according to can be applied to, neural science field of can be using experiments.

At least one fatty acid of the present invention in the embodiment of the present invention but on the range rights and then not limited to a defined in if using a variety of one skilled in the art of the present invention basic general outline form and improved modified. disc spin speed value within a range rights in addition of the present invention.