KR20010085266A - Ocular iontophoretic apparatus handle - Google Patents

Abstract

PURPOSE: Ocular iontophoretic apparatus handle is provided, which is exactly and easily mountable and removable to and from a patient. CONSTITUTION: The iontophoretic apparatus comprises a housing member, a current distribution member, a medicament containment member and a handle member. The current distribution member is associated with the housing member. The medicament containment member is associated with the current distribution member. The handle member is associated with the housing member. The handle member facilitates the positioning and placement of the iontophoretic apparatus.

Description

Ion penetrating device of eye {OCULAR IONTOPHORETIC APPARATUS HANDLE}

The present invention relates to an iontophoretic device of the eye, and in particular to a handle for holding, positioning and positioning the device.

The use of iontophoretic devices in the eye is known in the art. Such devices have been used to process chemicals using electromotive force to deliver ionic chemicals through the cornea so that they can be absorbed into adjacent tissue or blood.

Among other problems, the difficulty of placing such a device on the patient's eye surface has arisen. In particular, because some of these devices are designed for use only in a portion of the eye, such devices are very small in size. Therefore, it is difficult for the physician to position the device in the proper direction. In addition, once placed in the eye of the patient, it is difficult to reposition it or to adjust the position of the device.

It is therefore an object of the present invention to provide an adjustment element for holding, positioning and placing the eye ion permeation device.

It is also an object of the present invention to be able to rearrange after placing on the surface of the eye.

It is also an object of the present invention to provide a handle element that can be tightened to allow the device to bend during placement or removal of the ion penetrating device into the patient's eye.

These and other objects will be more apparent from the following description and claims.

The ion permeation device according to the invention comprises a housing element, a current distribution element, a chemical storage element and a handle element. The current distribution element is coupled with the housing element. The chemical storage element is connected to the current distribution element. The handle element is associated with the housing element and is responsible for the positioning and placement of the ion permeation device.

In a preferred embodiment, the handle element has a first handle area and a second handle area that extends outward with respect to the handle element. Each of the first and second regions is spaced a predetermined distance apart. In one such embodiment, the first and second regions are spaced apart from each other. These first and second regions are preferably molded from each other with the housing element.

In another preferred embodiment, at least a portion of the first and second handle regions comprise grip regions. The grip area allows the user to completely grasp the handle area while positioning and placing the device. In another such embodiment, the first and second regions include grip regions that join the handle regions into a single handle region.

In another preferred embodiment, the first and second regions comprise a device capable of bending the housing element. In one such embodiment, the first and second regions comprise a device for limiting the bending of the housing element. In one embodiment, the bend limiting device adjusts the position of the first and second handle regions in the away position. The direction away from the gap substantially corresponds to the desired maximum bending of the housing element.

In another such embodiment, the bending limiter also includes a device for aligning the first and second handle regions. The alignment device eliminates unexpected misalignment of the first and second handle regions during the bending process.

1 is a perspective view of a first embodiment of the device according to the invention;

2 is a perspective view of a first embodiment of the device according to the invention;

3 is a perspective view of a first embodiment of the device according to the invention;

4 is a perspective view of a first embodiment of the device according to the invention;

5 is a perspective view of a first embodiment of the device according to the invention;

6 is a perspective view of a first embodiment of the device according to the invention;

7 is a perspective view of a second embodiment of the device according to the invention;

8 is a perspective view of a third embodiment of the device according to the invention;

* Code Description

10 ... Ion Penetrator 12 ... Housing Elements

16 ... chemical storage element 18 ... handle element

20,22 ... handle area 32 ... alignment device

40 ... outer surface 42,46,52 ... first end

44,48,54 ... second end 45 ... upper region

46,47 ... rim 50,56 ... grip area

51 ... pod region 60,62,64 ... distal end

68,70 ... alignment element 101 ... center axis

While the invention may be embodied in many different forms, several are shown in the drawings and will be described in detail, it is to be understood that the examples presented are intended to illustrate the principles of the invention and not to limit the invention.

The ion permeation device 10 is shown in FIGS. 1 and 2 and includes a housing element 12, a current distribution element 14, a chemical storage element 16 and a handle element 18. The housing element, current distribution element and chemical storage element are each described in detail in the patent application entitled "Method and Apparatus for Ion Penetration of the Eye" of serial number 09 / 318,181 (IOM-P020), which is hereby incorporated by reference. Included for reference. As described in more detail therein, the housing element comprises an outer surface 40, a first distal end 42, a second distal end 44, an upper region 45 and a rim 47. In general, the housing is made of plastic material and molded into the desired shape to position the device on the patient's eye.

As will be understood later, the housing element 12 may be of any size or shape. Various embodiments of the housing element may have various shapes depending on the drug to be dispensed and also depend on the particular shape of the patient's eye and the specific area of the eye to be applied. Of course, the handle element is not limited to the shape of any particular housing element and can be used with such various types of devices. In addition, the drug contained in the drug storage element for distribution is not limited to a particular drug, virtually any drug that can penetrate through the eye can be used with the ion permeation device.

The handle element 18 is shown in FIGS. 1 and 5, the first handle region 20, the second handle region 22, the device 24 for bending the handle region and the device for limiting the bending of the handle element. (26). In general, the handle element 18 is molded with each other with the housing element 12, but it is contemplated that the handle element comprises a separate part that is welded, attached or coupled with the housing element 12. The handle element is also generally connected to the upper region 45, which allows for example to position the device along the lower edge of the eye below the patient's lower eyelid. In addition, such handle arrangements minimize the interference of the handle elements and the discomfort suffered by the patient and give flexibility.

The first handle region 20 of the handle element is shown in FIGS. 3 and 4 and includes a first distal end 46, a second distal end 48 and a first grip region 50. The first distal end 46 is connected with the outer surface 40 closest to the first distal end 42 of the housing element. The second distal end 48 extends therefrom and extends in a direction generally away from the second handle region 22 of the handle element. The first grip region 50 is located closest to the second distal end 48 of the first handle region 20. In general, the first grip area 50 includes an area that is sized and shaped so that it can be easily seen while a physician or other specialist places the ion penetrating device in the patient's eye. As shown in Figures 5 and 6, the first grip area 50 is substantially flat and away from the housing element at a sufficient distance to allow the doctor to easily grip the grip area without accidentally touching or hitting the patient. In some embodiments, the grip region includes a substantially flat pod region 51 (FIG. 7).

It can be seen that the second handle region 22 is substantially similar to the first handle region 20 and includes a first distal end 52, a second distal end 54 and a second grip region 56. Although various shapes can be considered, in general, the first and second regions are substantially mirror images (and are substantially symmetrical) about each with respect to the central axis 101 of the housing element.

In the embodiment shown in FIG. 8, the grip region 50 of the first handle region 20 and the grip region 56 of the second handle region 22 are shaped like a single loop for the grip region with respect to each other. It's integrated to make it. In such an embodiment, the integrated grip region extends from the second distal end 48 of the first handle region 20 toward the second distal end 54 of the second handle region 22. The integrated grip area is substantially parallel to the housing element and generally follows the surface shape of the outer surface 40 of the housing element 12.

In the embodiment shown in FIGS. 5 and 6, the grip area 50 of the first handle area 20 and the grip area 56 of the second handle area 22 are used to bend the housing by a predetermined distance from each other. Away to provide a means. In particular, and as will be described in more detail with respect to operation, if a physician or specialist tightens the first and second grip areas 50,56 with respect to each other at the second distal ends of the handle areas 20,22, respectively, the force Bend the element. Better engagement and improved placement can be achieved by bending the housing element during insertion or placement on the surface of the eye. In practice, the first and second grip areas are not joined to form a single integrated grip area by positioning the first and second handle areas at opposite ends of the housing element, the tightening of which facilitates bending of the housing element. do.

Determining the gap size between the first and second grip areas defines the device 36 that limits the bending of the housing element. In particular, the grip regions 50 and 56 extend from each second end of each handle region to be substantially parallel to the outer surface 40 of the housing element 12. The two grip regions extend essentially toward each, until the distal end 60 of the first grip region 50 is separated from the distal end 64 of the second grip region 56 by a gap. Thus, when the user grips the grip elements, the distance separating the two grip areas becomes smaller until the distal end 62 of the first grip area contacts the distal end 64 of the second grip area 56. In such a case, each grip area can no longer be tightened and no additional bending of the housing element is possible.

As shown in Figures 5 and 6, the bending limiting device also includes a device for aligning each distal end of the grip area. In particular, the alignment device 32 comprises a first alignment element 68 connected with the distal end 60 of the grip region 50 and a second alignment element 70 connected with the distal end 62 of the grip region 56. . As will be appreciated, when the user bends the distal end, the alignment elements cause the distal end 60 of the grip region 50 to align with the distal end 62 of the grip region 56, so that the bending interacts with the two distal ends. And may be limited by contact. Indeed, without the alignment elements, the bending of each end will occur to an undesired degree without limitation due to accidental misalignment of the ends.

It is additionally contemplated that the electrical leads that attach the power source to the electrodes delivering the medicine are molded with the handle elements.

During operation, the physician, physician's assistant or other specialist first determines the appropriate form among different sizes, shapes and forms of medication. As noted above, the device is not limited to any particular form or particular drug. Once selected and ready for placement by the doctor or assistant in the patient's eye, the device is gripped by the grip elements and placed on the surface of the eye.

In particular, in the embodiment of FIG. 1, the surgeon first presses each grip area 50, 56 in each direction to bend the housing element 12. Once bent as desired, the user places the housing element on the patient's eye surface. Upon initial contact with the eye surface, the surgeon slowly releases the tightening grip on the grip area, the housing element 12 returns to its original direction, and the entire outer rim 46 contacts the surface of the eye. By pressing the grip area prior to placement, improved surface matching between the outer rim and the eye and improved patient comfort can be obtained. Improved control is also possible to provide improved accuracy for placement on the eye surface.

Once fully deployed, the physician initiates current transfer from the current distribution element. The electrical current delivers the drug contained within the drug storage element through the cornea of the patient's eye. Treatment continues for a predetermined amount of time depending on the type and amount of medication to be delivered to the patient.

Once treatment is complete, the current delivered by the current distribution element stops. At that time, delivery of the drug through the patient's cornea also stops. At the end of the treatment, the device is removed from the patient. In particular, the surgeon again grips the grip area of the handle element 12 and pulls the housing from the eye surface.

In the embodiment shown in FIG. 1, the user presses grip areas 50 and 56 until the housing element 12 is bent. The bending of the housing element also facilitates the release of the housing element from the eye surface in a controlled manner.

In the embodiment shown in FIG. 7, the user may individually separate each grip element to release the housing element from the eye surface. Similarly, in the embodiment shown in FIG. 8, the surgeon may take the grip element used to release the housing element from the eye surface.

The foregoing description is merely illustrative of the present invention and is not intended to be limiting, as determined by the appended claims, and those skilled in the art to which the present invention pertains may make modifications without departing from the scope of the present invention.

By using the handle of the eye ion permeation device of the present invention, improved surface matching between the outer rim of the device and the eye and improved patient comfort can be obtained. In addition, improved control is possible to provide better accuracy for placement on the eye surface.

Claims (10)

In the ion penetrating device: A housing element; A current distribution element coupled with the housing element; A chemical storage element in connection with the current distribution element; And a handle element associated with the housing element, wherein the handle element facilitates positioning and positioning of the ion penetrating device. The ion permeation of claim 1, wherein the handle element comprises a first handle region and a second handle region extending outwardly from the handle element, wherein the first and second handle regions are separated by a predetermined distance. Device. 2. The ionically penetrating device according to claim 1, wherein at least one of the first and second handle regions includes a grip region, the grip region promoting displacement of the handle region by a user. The ion permeation device of claim 1, wherein the first and second handle regions extend apart with respect to each other. 4. The ion seepage device of claim 1, wherein the first and second handle regions comprise grip regions engaging the handle regions into a single handle region. 2. An ion permeation device according to claim 1, wherein the first and second handle regions comprise a device for bending the housing element. 7. The ion permeation device of claim 6, wherein the first and second handle regions comprise a device to limit the bending of the housing element. 8. The ion permeation of claim 7, wherein the bending limiting device places at least a portion of each first and second handle region in a spaced apart direction, substantially corresponding to the desired maximum bending of the housing element. Device. 9. The ion seepage device of claim 8, wherein the bending limiting device also includes a device for removing accidental misalignment to align the first and second handle regions. The ion permeation device of claim 1, wherein the first and second handle regions are molded with each other with the housing element.