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Publication numberUS3662757 A
Publication typeGrant
Publication dateMay 16, 1972
Filing dateApr 14, 1970
Priority dateApr 25, 1969
Also published asDE2018239A1, DE2018239C2
Publication numberUS 3662757 A, US 3662757A, US-A-3662757, US3662757 A, US3662757A
InventorsBlackett John Harold
Original AssigneeMatburn Holdings Ltd
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Diathermy plate electrode
US 3662757 A
This invention relates to a plate electrode for use in surgical diathermy or electrosurgical apparatus. The electrode is a thin flexible sheet of metal foil backed by a flexible film of plastics material.
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Description  (OCR text may contain errors)

United States Patent Frisbiem, ..l74/l l7 Blackett [4 1 May 16, 1972 541 DIATHERMY PLATE ELECTRODE 3,547,103 12/1970 Paine..... ..l28/2.06 [72] Inventor: I John HaroldBlackett, London, England 22: [73] Assignee: Matbum (Holdings) Limited, London, En- 1,353,814 1932 Huth gland 1,889,272 11/1932 Zerne ....l28/416 1,662,446 3/1928 Wappler ....128/4l6 [221 2,843,829 7/1958 Slate ..336/200 FOREIGN PATENTS OR APPLICATIONS 4 19 24 Fmig 111907 122m A .25,1969 G tB't' ..21,180 69 pr M am y I v OTHER PUBLICATIONS 52 us. c1. ..l28/416, 174/117 FF, 336/232 & 5101 e ri v01, 7, pp. 341- 343, Dec. 28, [5 1] Int. Cl. ..A61nl/06 9 3 [58] Field of Search... 1 28/416, 2.06 E, DIG. 4, 303.13;

1 17 1 17 1 17 232 Primary Examiner-Kyle L. Howell Attorney-William R. Liberman [56] References Cited [57] ABSTRACT UNITED STATES PATENTS This invention relates to a plate electrode for use in surgical 1,989,282 1/1935 Klmble et a1 ..128/416 diathermy or electrosm-gical apparatus The electrode is a hi 315431760 12/1970 Bolduc flexible sheet of metal foil backed by a flexible film of plastics 3,572,322 3/1971 Wade material 3,229,030 1/1966 Baermann... 2,628,998 2/ l 953 6 Claims, 2 Drawing Figures DIATHERMY PLATE ELECTRODE BACKGROUND OF THE INVENTION Diathermy is a process by which heat is developed in the human body by the passage of a high frequency alternating electric current. A typical surgical diathermy apparatus has two electrodes. One of these electrodes is called the active electrode and is the electrode used for cutting and coagulating the tissue. This electrode has a very small surface area and the current passing from this electrode to the' tissues has an intense heating effect. The other electrode is necessary to complete the electrical. circuit and is termed the indifferent ground or plate electrode. This electrode is muehlarger in area than the active electrode in order to reduce the, current intensity and therefore its heating effect. In order to prevent the occurrence of burns, it is important that a high proportion of the area of the plate electrode is maintained in good electrical contact with the skin.

Plate electrodes are usually of lead or stainless steelwhich can be moulded to conform to the sites of application to the patients, usually the thighs. To maintain good contact with the skin, the plate electrode is. placed in a gauze bag and dipped in saline solution before use. Conductive creams or jellies may also be used in the case of stainless steel plates. When a'lead plate has been bent a number of times, it tends to become corrugated, so that the larger area of contact is reduced to a number of ridges, and this can lead to burns at'the site of the plate electrode. Such burns may be very serious.

The conventional plate electrodes also suffer from other disadvantages. Thus, the connecting lead to the diathermy apparatus has to be fitted on to'the plate with a connector or attachment of some sort, and this always involves the possibility of bad electrical contact or breakage, which may also result in the patient being burnt. The high thermal mass of the conventional plates in particular large, thick lead plates, combined with the cooling effect of the saline, can produce a serious fall in body temperature in the treatment of infants and young children. Furthermore, lead plates are very heavy, and there is always the danger that they will slip out of place if notbound firmly to the patient.

An object of the present invention is to provide a plate electrode which avoids the disadvantages of known plate electrodes.

SUMMARY OF THEINVENTION A plate electrode according to the present invention comprises a thin and flexible sheet of metal foil backed by a flexible film of plastics material. The thickness of the metal foil lar, or circular. Different shapes may be more convenient for certain sites on the body, and for different methods of attachment.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of an electrode according to the invention, and

FIG. 2 is a section to a greatly exaggerated scale.

DESCRIPTION OF THE PREFERRED EMBODIMENTS An electrode 1 is of circular shape with a diameter of about prevent' accidental contact with other apparatus or with the 15 centimeters. The electrode consists of a thin, flexible and conductive metal foil with a backing 2 of thin flexible plastics material. Such an electrode has the great advantage over conventional plate electrodes that it is very flexible and always provides excellent electrical contact with the skin of the patient over the whole surface area of the electrode. The electrode plate is used dry, eliminating the need of saline contact solution or jelly. The electrode is also very light in weight and may be easily and securely fitted to the patient by means of an adhesive plaster or a bandage or the like.

The metal foil l canbe of any convenient conductive material. It may, for example, be of copper or aluminum or stainless alloy. The backing 2 may be or any suitable flexible plastics film such as polyvinyl chloride, polyethylene, or a polyester such as that known under the registered trade mark of Mylar.

The electrode is preferably provided with two integral flexible conductor leads 3 or 4. More than two leads canbe provided if desired. Where two leads are provided, both leads are made of flexible metal foil backed by flexible plastics film and the conductive metalfoil may have a covering 5 of insulating material. The insulating covering 5 to the conductor leadmay conveniently be of any flexible plastics'film' material such as polyvinyl chloride, polyethylene or a polyester, or it may be of a plastics coating applied in liquid form.

The purpose of a second conductor lead is to enable the electrical continuity of the plate electrode to be monitored continuously, by passing a small electrical current down one of theconductors to the plate electrode and back via theother conductor through a current sensing circuit, which may be arranged to provide a warning signal if there is a discontinuity in the plate circuit. This current is a secondary current which is not in any way connected with the high frequency diathermy current.

The leads 3 and 4 have terminal portions6 and 7.

The plate electrode may be made by first producing a laminate consisting of a flexible metal foil backed by the flexible plastics material after which the electrode and, if desired, its lead is produced simply by cutting it out of the laminated sheet. However, the electrode and its lead are advantageously manufactured by printed circuit techniques. For example the metal foil'of the laminate can be etched to the desired shape, after first covering the required metal area with an etch resistant coating. i

An advantageof using an etching technique instead of the mechanical cutting is that as shown in the drawing, a border 8 of non-conducting plastics material is left surrounding the metal foil of thejelectrode and the integral lead. This provides an insulated edge to'the lead conductor or conductors to body of the patient.

It has been found both convenient and economical to produce the conductor leads 3 and 4 in the form of a coil or coils surrounding the plate electrode; In such a case, a portion of the plastics film of the backing may extend between adjacent coils and may be cut in a continuous spiral which upon extension forms a longitudinally. extending lead of sufficient length (approximately 2 meters) to reach from the diathermy generator to the patient. Preferably however, thin radial portions or bridges" of the plastics film may be left between adjacent turns sufficient to hold the coils in position for packing, but which will break if pulled, to allow the lead to be extended.

After the electrode and its lead has been produced in this manner, they may be backed by a suitable material to keep the lead in position for packing and storage purposes until the electrode is required for use when the backing material is removed to allow the leads to be extended.

What we claim is:

1 A'plate electrode device for use in surgery comprising a thin flexible metal foil sheet electrode, a thin flexible plastic' leads integrally formed at their innerends in one piece with said metal foil sheet and extendable therefrom, said conductor leads being spaced from one another throughout their entire length, a thin flexible electrically non-conductive backing superimposed on one face of and joining said pair of metal foil bands and an electrically insulating layer covering the other face of said bands.

2. The plate electrode device of claim 1 wherein said sheet 5 electrode and bands are substantially coplanar and said pair of bands are spirally wound about said electrode.

3. The plate electrode device of claim 2 wherein the confronting edges of successive convolutions of said band pair are

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1662446 *Jan 14, 1924Mar 13, 1928Wappler Electric Company IncMetal-foil electrode
US1853814 *Mar 4, 1931Apr 12, 1932Huth John ADiathermy electrode
US1889272 *Sep 29, 1931Nov 29, 1932Zerne Gustav ADiathermic electrode and applicator
US1975518 *Aug 27, 1932Oct 2, 1934Rose Edgar JElectrode means for therapeutic purposes
US1989282 *Aug 19, 1933Jan 29, 1935Gen Electric X Ray CorpElectrode
US2628998 *Nov 8, 1945Feb 17, 1953Gilbert Co A CSplittable cable with visible conductors
US2843829 *Dec 30, 1952Jul 15, 1958Du Mont Allen B Lab IncElectrical inductance
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US3229030 *Oct 26, 1961Jan 11, 1966Max BaermannWire with magnetic insulation
US3543760 *Mar 11, 1968Dec 1, 1970Medical Plastic IncDisposable ground plate electrode
US3547105 *Aug 29, 1968Dec 15, 1970NasaFlexible conductive disc electrode
US3572322 *Oct 11, 1968Mar 23, 1971Hoffmann La RocheTransducer assembly
DE394385C *Jan 7, 1923Apr 17, 1924Hans Lewin DrElektrode fuer Diathermiebehandlung
FR371553A * Title not available
Non-Patent Citations
1 *Med. & Biol. Engineering, Vol. 7, pp. 341 343, Dec. 28, 1968.
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3812861 *Nov 15, 1972May 28, 1974Peters RDisposable electrode
US4197851 *Jan 27, 1978Apr 15, 1980Fellus Victor MApparatus for emitting high-frequency electromagnetic waves
US4305115 *Mar 14, 1979Dec 8, 1981Harry H. LeveenElectrostatic shield
US4353372 *Feb 11, 1980Oct 12, 1982Bunker Ramo CorporationMedical cable set and electrode therefor
US4419091 *Feb 12, 1981Dec 6, 1983Sybron CorporationMetalized medical treatment electrode with insulated edge
US4793356 *Aug 14, 1985Dec 27, 1988Picker International, Inc.Surface coil system for magnetic resonance imaging
US4887614 *Apr 18, 1989Dec 19, 1989Kureha Kagaku Kogyo Kabushiki KaishaMedical electrode device
US5063932 *Oct 3, 1989Nov 12, 1991Mieczyslaw MirowskiControlled discharge defibrillation electrode
US5111812 *Jan 23, 1990May 12, 1992Cardiac Pacemakers, Inc.Defilbrillation electrode having smooth current distribution
US5191901 *Aug 29, 1991Mar 9, 1993Mieczyslaw MirowskiControlled discharge defibrillation electrode
US5348007 *Mar 24, 1993Sep 20, 1994Conmed CorporationFor establishing electrical connections between a leadwire and a surface
US7515950 *Jan 13, 2006Apr 7, 2009Healy James WBiomedical electrodes and biomedical electrodes for electrostimulation
WO1994021172A1 *Mar 24, 1994Sep 29, 1994Conmed CorpBiomedical electrode
U.S. Classification607/152, 336/232, 174/117.0FF
International ClassificationA61N1/04
Cooperative ClassificationA61N1/04
European ClassificationA61N1/04
Legal Events
Mar 20, 1987ASAssignment
Effective date: 19861027