EP0227754A1

EP0227754A1 - Internally applied self energising healing electrodes

Info

Publication number: EP0227754A1
Application number: EP86904033A
Authority: EP
Inventors: Noel Desmond Gray
Original assignee: Individual
Current assignee: Individual
Priority date: 1985-06-20
Filing date: 1986-06-20
Publication date: 1987-07-08
Also published as: EP0227754A4; WO1986007543A1; JPS63500221A

Abstract

Procédé d'aide à la cicatrisation comprenant deux ou plusieurs électrodes conductrices ou semiconductrices physiologiquement compatibles, conçues pour être insérées au moins partiellement dans des tissus vivants, y compris des os. Un premier matériau (5) forme ou recouvre la première électrode et un deuxième matériau (6) forme ou recouvre une ou plusieurs électrodes adjacentes, de telle sorte que, lorsque les électrodes sont placées dans les tissus vivants de manière adjacente l'une à l'autre, une différence de tension se produit entre lesdites électrodes. Celles-ci peuvent être solidaires avec des agrafes (1), des aiguilles ou des vis utilisées généralement dans des opérations chirurgicales.A healing aid method comprising two or more physiologically compatible conductive or semiconductor electrodes, designed to be inserted at least partially into living tissue, including bone. A first material (5) forms or covers the first electrode and a second material (6) forms or covers one or more adjacent electrodes, so that when the electrodes are placed in living tissue adjacent to each other 'other, a voltage difference occurs between said electrodes. These can be secured with staples (1), needles or screws generally used in surgical operations.

Description

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INTERNALLY APPLIED SELF ENERGISING HEALING ELECTRODES The present invention relates to living tissue regeneration and pain reduction and to apparatus for achieving such ends by use of electrical energy. The human body and indeed those of animals have quite remarkable inbuilt healing mechanisms whereby flesh wounds of quite substantial proportions may display substantial tissue regeneration within say seven days such that the risk of infection is minimised as is discomfort to the patient. As however in many instances infection in a surgically created wound or a trauma wound may be life threatening any product or process which may enhance or speed up tissue regeneration and hence reduce the risk of infection would be an important advance. Such a product or process may be of particular use in conjunction with patients who, due to age, diet or other factors, have a sub¬ standard ability to regenerate tissue.

Research indicates that small electronic currents in the vicinity of a flesh wound enhance tissue regeneration and hence healing of the wound even in cases where the patients natural healing ability may be sub-standard. Research furthermore indica that such current in the vicinity of a wound has the effect of reducing pain perceived by the patient as eminating from the woun

Bone growth stimulators wherein electrodes with external power sources are utilised to generate current flow adjacent a fracture in order to promote osteogenesis are also known.

It is the object of the present invention to provide a method and apparatus for applying a small electronic current proximal to a wound utilising internally applied conductive or semi-conductive electrodes without an external power source.

According to the present invention there is provided two or more conductive or semi-conductive physiologically compatible electrodes adapted for insertion at least partly into living tissue; the first electrode comprising or being coated with a first material and an adjacent electrode comprising or being coated with a different material such that when the two electrodes are placed in living tissue adjacent each other a potential difference exists between the two electrodes which causes a small current to flow through tissue between the electrodes. The present invention has application not only in the field of encouraging osteogenesis in the case of fractured bones but additionally has application in cases where it is desired to enhance the healing of soft tissue wounds.

In order that the invention may be better understood two embodiments of the invention will now be described with reference to the accompanying drawings in which:

Figure 1 is a perspective view of a pair of electrodes in accordance with the present invention formed as a surgical staple; Figure 2 is a side elevation of a segment of a human long bone incorporating electrodes in accordance with the present invention formed as pins; and Figure 3 is a cross-section through a human long bone incorporating electrodes in accordance with the present invention formed as pins.

Figure 1 discloses a surgical staple 1 having a first leg 2 and a second leg 3. Both legs are coated with a layer of plastic insulating material 4.- Leg 2 is additionally provided with a gold coating 5 whereas leg 3 is additionally provided with a zinc coating 6.

In use the legs 2 and 3 of the staple would penetrate the soft tissue of say a flesh wound (not shown) either side of the wound line (not shown) in the conventional manner. The legs would then remain embedded in the flesh for some period of time.

Once embedded in human tissue legs 2 and 3 begin to operate as electrodes, the fluids present in the body serving as an electrolyte. Leg 2 will act as an inert electrode due to its coating of gold whilstthezinc coating 6 on leg 3 will cause that leg .to operate as the active or sacrificial electrode. In this example utilising gold and zinc will create a potential difference of 2.12 volts between legs 2 and 3 causing a current to flow across the wound line (not shown). Several combinations of physiologically compatible electrode materials are available and in this regard it is contemplated that the coatings which result in the potential - <h - difference causing the current flow need not necessarily be metalic but may be any other eLsTEns orchemical compoundswhich result in a potential difference. Naturally the metals, elements or com¬ pounds must be physiologically compatible although as much work has been done in this area in recent years a number of alternative combinations will be readily apparent to those skilled in this art. Lithium iodide cells for example are well known and may have application in certain embodiments of the present invention.

The rate of decay of the active electrode may be impeded by the inclusion of an inert substance in the coating 6 or by other means.

Present research indicates that where one is trying to stimulate healing in soft tissue currents in the order of 40 to 300 microamps give good results whereas with embodiments intended for use as bone growth stimulators currents in the range of 5 to 100 microamperes may be more appropriate. It should also be appreciated that as the conductivityof.bcneiisgenerally less than that of flesh greater potential differences may be necessary in the case of bone growth stimulators in order to generate a given current than would be the case with soft tissue.

It is envisaged that electrodes in accordance with the present invention should be capable of delivering currents in the range of 1 to 500 microamps being the range within which satisfactor accelerated healing appears to occur. Potential differences in the order of .01-3 volts should be readily achievable provided the - s - electrode materials are correctly chosen in accordance with a galvanic table or like reference.

Figure 1 depicts an example where two legs of a staple are coated with different materials so as to cause a single staple to generate a current when implanted in flesh. It should be appreciated that a similar result could be achieved by insertion of multiple staples with say alternate staples being fabricated from or coated with different materials such that a potential difference will arise between such adjacent staples. A second embodiment of the present invention is depicted at figures 2 and 3 wherein there is depicted proximal 7 and distal 8 parts of a human long bone either side of a fracture 9. It is - common practice to pin the proximal and distal parts of the bone in their correct relationship in order to ensure correct alignment of the bone after osteogenesis. To this end holes 10 are drilled into the bones in order to facilitate insertion of pins 11 and 12.

In accordance with the principles of the present invention these pins are comprised of or coated with dissimilar materials displaying a potential difference which in the environment .of the human body forms a battery causing a current to flow along the fracture 8 in the area between the pins 11 and 12. The pins may be wholly or merely partially sacrificial electrodes. An embodiment as lastmentioned consequently renders the installation of mechanical fixing means such as pins, screws or the like and the installation of a bone growth stimulator a single operative procedure little more complex than the mere installation of mechanical fixing means themselves. Previously it was the case that if adequate osteogenesis had not occurred within six weeks a separate surgical procedure was required in order to install electrodes and necessary wires to corrrπunicate with an external power source. Naturally these electrodes furthermore required yet another surgical procedure in order that they may be removed. These two additional surgical procedures in addition to the surgical procedure necessary to install the mechanical fixing means necessarily result in additional risk to the patient as well as unnecessary expense.

The two embodiments above described should not be considered exhaustive of the applications of the present invention. Indeed it is not essential that the electrodes of the present invention be incorporated with mechanical fixing means or other articles used in the human body such as pins, screws, discs, wires, plugs or staples. For example the electrodes of the present invention may comprise washers used in conjunction with say conventional screws or alternatively the electrodes may be implanted entirely independently of any other device.

The term living tissue where used herein shall include bone.

Claims

The claims defining the invention are as follows:

1. A healing aid comprising two or more conductive or semi- conductive physiologically compatible electrodes adapted for insertion at least partly into living tissue; the first electrode comprising or being coated with a first material and an adjacent electrode comprising or being coated with a different material such that when the electrodes are placed ih living tissue adjacent each other a potential difference exists between the electrodes which causes a small current to flow through tissue between the electrodes.

2. A healing stimulator in accordance with claim 1 wherein the materials from which the electrodes are fabricated or with which they are coated are selected such that when implanted in the body the electrodes will set up a current of between 1 and 500 microamps.

3. A healing stimulator in accordance with any one of the preceding claims wherein one or more of the electrodes is integral with traditional bone fixing means such as pinsor screws.

4. A healing stimulator in accordance with any one of claims 1 - 2 wherein the electrodes are integral with articles traditionally used in soft tissue such as staples.

5. A healing stimulator in accordance with any one of claims 1 - 2 hereof wherein at least one of the electrodes is a - 0 - washer adapted for use in conjunction with a conventional surgical screw.

6. A method of implanting a bone growth stimulator in accordance with the present invention comprising the steps of: a) selecting at least tv/o electrodes in accordance with any one of claims 1-5 hereof, b) implanting the electrodes at least partially within the body adjacent the wound site such that a current of between 1 and 500 microamps flows between the electrodes an proximate thewound site.