Abstract: A medical sensor electrode includes an electrically conductive adhesive for establishing electrical contact with a mammalian body to enable the electrode to monitor physiological electrode potentials from the body. A first sensor element includes a flexible electrically conductive plate disposed on the conductive adhesive with the plate having substantial smaller dimension that the dimension of the conductive adhesive. A second sensor element includes an electrical conductive member disposed over the first sensor element and adhesive. The conductive member includes a non-conductive sheet coated with multiple layers of a metal and metal halide. A non-conductive backing is disposed over the second sensor element and conductive adhesive with the backing and the second sensor element having apertures for providing access to the first sensor element.

Abstract: A medical electrode includes a first conductive polymerizable gel layer for electrically coupling the electrode to a body and a flexible porous electrical conductor disposed on the first gel layer. A second conductive polymerizable gel layer disposed on the flexible porous electrical conductor and polymerized with the first layer through the porous conductor. An electrical connector disposed in connect with the second gel layer enables the electrical connection to an outside power source, or monitoring device, and an insulative backing is adhered to the second gel layer to prevent inadvertent contact therewith.

Abstract: An electrode for acquiring bioelectrical signals employs an array of spikes that penetrate the viable epidermis layer of the skin of a patient. The spikes may be conductive to provide the bioelectrical signal. Or, the spikes may extend through a conductive layer that provides the bioelectrical signal. The signal obtained from the patient may be amplified using an amplifier and battery circuit present on the electrode body. The electrode may be used with or without conductive paste or gel.

Abstract: Disposable electro-cardiogram (ECG) transmitter device and a facilitator for proper placement of electro-cardiogram electrode nodes on a body, such as a human body. The device includes a substrate, integral non-replaceable battery and encapsulated waterproof electronics, and at least one data relay conduit integrally disposed on the substrate and capable of operative contact with a human body. Another embodiment includes a human-shaped or other anatomically shaped substrate and at least one data relay conduit integrally disposed on the human-shaped substrate and capable of operative contact with said human body. In this way, data relay conduits may be more easily and properly placed on the human body by placing the conduits at locations corresponding to their human-shaped substrate locations.

Abstract: A process for coating a perforated substrate with a gel (e.g. a polymerised acrylate hydrogel or a xerogel) without substantial occlusion of the perforations comprises (i) forming a layer of a liquid pregel mixture, comprising one or more monomers, on a web coated with a silicone, polyethylene, Teflon (R) or other coating having a surface energy less than the surface energy of the liquid pregel mixture. Preferably at least part of the curing takes place while the liquid pregel mixture is in contact with both the perforated substrate and the web. The process is especially applicable to the manufacture of attachment tabs for wigs and toupees, wound dressings, patches for transdermal drug delivery, therapeutic patches or biomedical electrodes.

Abstract: A sensor device in the form of a substantially flat package for receiving and transmitting signals, to be monitored and/or recorded, comprising, in combination a first layer in the form of an annulus having an undersurface to adhere to the skin of a patient; a second layer in the form of a conductive sensing layer peripherally bounded by the first layer and having an undersurface adapted for contact with the skin of the patient; a conductive terminal extending above the second layer in adjacent and conductive relation therewith; a protector extending in shallow dome configuration over the first and second layers and over the terminal; and a conductive lead extending over edges defined by the first and second terminals, and under the protector, for protected contact with the terminal, and to transmit signals for monitoring or recording.

Abstract: An array of electrodes is constructed to allow the user to easily adjust to the correct size of the patient's head. The array is self-adhesive, pre-gelled and disposable. The array fits easily over the temple and forehead areas where EEG signals can be acquired by specially designed monitors for purposes of monitoring a number of bodily phenomena, including but not limited to, depth of anesthesia, and/or ischemia, and burst suppression. The array is connected to the monitor via a tab connector that is integral to the disposable device. The tab connector is insertible into a reusable connector that is part of a monitoring system.

Abstract: A medical electrode includes a first conductive polymerizable gel layer for electrically coupling the electrode to a body and a flexible porous electrical conductor disposed on the first gel layer. A second conductive polymerizable gel layer disposed on the flexible porous electrical conductor and polymerized with the first layer through the porous conductor. An electrical connector disposed in connect with the second gel layer enables the electrical connection to an outside power source, or monitoring device, and an insulative backing is adhered to the second gel layer to prevent inadvertent contact therewith.

Abstract: An electrocardiogram (ECG) electrode patch for attachment to a neonatal or infant patient. The ECG electrode patch includes a plurality of at least three electrodes coupled to a substrate. The plurality of at least three electrodes includes at least one electrode capable of measuring the electrical activity of the right side of the patient's heart. A plurality of electrical conductors are coupled to the plurality of electrodes and to the substrate.

Abstract: Disposable electrocardiogram (ECG) transmitter device and a facilitator for proper placement of electro-cardiogram electrode nodes on a body, such as a human body. The device includes a substrate, integral non-replaceable battery and encapsulated waterproof electronics, and at least one data relay conduit integrally disposed on the substrate and capable of operative contact with a human body. Another embodiment includes a human-shaped or other anatomically shaped substrate and at least one data relay conduit integrally disposed on the human-shaped substrate and capable of operative contact with said human body. In this way, data relay conduits may be more easily and properly placed on the human body by placing the conduits at locations corresponding to their human-shaped substrate locations.

Abstract: A medical electrode includes a first conductive polymerizable gel layer for electrically coupling the electrode to a body and a flexible porous electrical conductor disposed on the first gel layer. A second conductive polymerizable gel layer disposed on the flexible porous electrical conductor and polymerized with the first layer through the porous conductor. An electrical connector disposed in connect with the second gel layer enables the electrical connection to an outside power source, or monitoring device, and an insulative backing is adhered to the second gel layer to prevent inadvertent contact therewith.

Abstract: A patient-specific electrode positioning apparatus and method allow EKG testing and delivery of therapeutic electrical impulses to the heart to be performed in an accurate and consistent manner by eliminating individual positioning of precordial electrodes for all but the first EKG test on a particular patient. Each electrode is slidably mounted on a platform aligned on the torso of the patient. Each electrode is adjusted until it is properly positioned and then it is permanently fixed in place by a lock-down mechanism, leaving the electrodes permanently positioned on the platform so that, when the platform is aligned properly on the particular patient's torso utilizing an adjustable position indicator, the electrodes will be properly positioned for a repeat administration of the EKG test and for delivery of therapeutic electrical impulses.

Abstract: A physiological sensor device for attachment to a mammalian subject including first and second regions of sensors attachable to a subject in use, which first and second regions of sensors are separated by a flexible web adapted to enable variable separation of the first and second sensor regions from one another in use. The physiological sensor device is manufactured by forming a strip of electrically conductive material on a flexible electrically non-conductive substrate and cutting a slot through both the flexible substrate and conductive strip to define a pair of adjacent edges of conductive material separated by a non-conductive gap thereby also to define adjacent electrode sensors each having one of the pair of adjacent edges formed in the strip of conductive material. The physiological sensor device is attached to the subject for measurement of numerous physiological parameters for a period of time, such as 24 hours, and is then thrown away.

Abstract: Disclosed is an electrode placement with a series of electrodes disposed therein to be used for a one-step placement of electrodes. The device is shaped to allow it to be positioned and placed on a patient so that accurate placement of electrodes is achieved.

Abstract: A universally functional biomedical electrode is disclosed, where the electrode has a resistive element that reduces edge effect by a redistribution of current within the electrode and in mammalian tissue contacting the electrode. In one embodiment, the electrode has at its perimeter in one layer the resistive element that provides a cross-sectional area to reduce edge effect regardless of the type of biomedical instrumentation connected thereto. With the construction of other layers suitable for multifunctional electrode usage, this electrode can serve as a single item in inventory at health facilities.

Abstract: A gel layer retained in a retaining member 15, such as non-woven fabric, is placed on one side of an electrode element 1. The electrode element 1 is held by a flexible and extendable tape 11, and the tape 11 adheres to a biological surface tissue. When being plastered onto the biological surface tissue, the tape 11 is covered with cover films 12 and 13, thereby preventing occurrence of a kink in the tape 11. After the tape 11 has been attached to the biological surface tissue, a butt-joined portion between two sub-divisions constituting a cover film 12 is exfoliated to the outside, thus preventing removal of the tape 11.

Abstract: An epicardial pacer wires shield comprising a base element with a pair of spools mounted to the base element. Each of spool of the pair of spools has a slit in a top surface thereof for securing the epicardial pacer wires to the spool. A cover element is configured to be secured to the base element, and has an adhesive layer on a back surface. A tab is mounted on an edge of the cover element for removing the cover element from the base element when the cover element and base element are secured together.

Abstract: This invention defines a system for monitoring the brain activity of a human patient under anesthesia in order to determine the patient's level of consciousness. The system uses a plurality of receptors which are mounted in predetermined anatomical positions on the patient's head. The receptors are secured by adhesive foam patches. The appliance fits snugly to the head with the aid of self-adjusting strip that carry imbedded electrical circuitry for the receptors. Electrical connectivity in locations where scalp hair is most likely to be present is improved by the use of braille-tip electrodes fitted with large gel reservoirs.

Abstract: A self-contained remotely interrogated biomedical sensor (10) includes an on-board regenerative power source (52/54), data processing capability (42) and data transmission capability (42). The sensor (10) is adapted to be secured to a subject and interrogated remotely using radio-frequency technology. The present invention is applicable for use with any sensing device (76) that is capable of providing a signal in response to being placed in thermal, electrical, chemical, acoustical or otherwise in contact with the subject.

Abstract: A biomedical electrode for an electrocardiograph or similar device is provided. The biomedical electrode includes a disposable electrode having an electrically conductive gel layer and a reusable leadwire adapter having the relatively expensive metallic conductive material. The disposable electrode interfaces with the reusable leadwire adapter through the adhesive characteristics of the gel layer. The reusable leadwire includes a stud member which snaps into a standard leadwire connector.

Abstract: This invention relates generally to medical electrode systems and, in particular, to an independently deployable sealed defibrillator electrode for use with an automatic or semi-automatic external defibrillator (AED). The invention also relates to the method of use thereof. More specifically, this invention relates to an electrode system comprising an electrode layer and a releasing layer which are hermetically sealed together. Each layer contains a pull-tab or gripper for allowing the user to deploy the electrode in one step by pulling apart the two layers. This invention is also directed to a method of using an electrode system of the invention wherein the electrode is deployed in one step by pulling the electrode layer and the releasing layer apart.

Abstract: An electro-dermal connector device includes a flexible non-conductive sheet and electrode sensors V1 to V6 disposed on the non-conductive sheet in a dimensional array and adapted for electrical connection with the skin for receiving and transmitting electrical impulses. On the non-conductive sheet the distance between electrodes V1 and V2 is 2.00 inches ±0.56 inches, and the distance between V2 and V4 is about 3.5 inches ±1.00 inch, with V3 located substantially midway between V2 and V4 and V5 is generally equidistant between V4 and V6.

Abstract: This invention is directed to a medical electrode system having a flexible substrate with two electrodes in electrical communication disposed at either end along its length. The electrode system also has one or more sensors for detecting the rate and pressure at which CPR is administered. The electrode is adjustable in length and protects the user from the potential of incidental shock when using the electrode in conjunction with a defibrillator.

Abstract: Electrode assemblies are particularly used with a precordial overlay to obtain a quick and accurate positioning of electrodes for an electrocardiographic test. Each electrode assembly comprises an electrode to receive a lead wire, an underlying non-conductive pad secured to the electrode, and an overlying plastic sheet secured to the electrode in a manner whereby its peripheral areas are unattached. Preferably, the electrode assembly also has an underlying adhesive layer secured to the non-conductive pad and a removable backing strip. The precordial overlay has a set of slots in which the electrode assemblies are slidably mounted. The underlying non-conductive pad and the overlying plastic sheet of the assemblies effectively trap the electrode assemblies in the slots to allow sliding electrode movement. The sliding movement of the electrodes allows for limited but quick movement from an approximate chest area location to a precise chest area location for a reliable electrocardiographic test.

Abstract: A skin abrader for a biomedical electrode is disclosed wherein the abrader has a geometrically structured surface abrasive selected to provide sufficient abrasive effect to easily remove a portion of the stratum corneum of mammalian skin with minimal skin irritation, in order to reduce skin impedance encountered during diagnosis or monitoring of a mammalian patient.

Abstract: This invention defines a system for monitoring the brain activity of a human patient in order to monitor a patient's brain electrical activity. The system uses a plurality of receptors which are mounted in predetermined anatomical positions on the patient's head. The receptors are secured by adhesive foam patches. The appliance fits snugly to the head with the aid of self-adjusting strap that carry imbedded electrical circuitry for the receptors. Electrical connectivity in locations where scalp hair is most likely to be present is improved by the use of braille-tip electrodes fitted with large gel reservoirs.

Abstract: A patient-specific electrode positioning apparatus and method allow the standard twelve-lead EKG test to be performed in an accurate and consistent manner by eliminating individual positioning of the six precordial electrodes for all but the first test on a particular patient. Each electrode is slidably mounted on a platform aligned on the torso of the patient. The mount containing each electrode is adjusted until the electrode is properly positioned for the test and then the mount is permanently fixed in place by a lock-down mechanism, leaving the electrodes permanently positioned on the platform so that, when the platform is aligned properly on the particular patient's torso utilizing a pre-adjusted index marker, the electrodes will be properly positioned for a repeat administration of the EKG test. In one embodiment, the platform is flexible plastic with a "reversed S" shape and embedded wires accessible at one end of the platform for connection to the EKG machine.

Abstract: An electrode system includes a release liner separating a pair of electrodes. The release liner includes a first portion having electrically conductive and non-stick characteristics and a second portion having electrically non-conductive and non-stick characteristics. An electrically conductive portion of the electrode is disposed over the first portion while an adhesive only, electrically non-conductive portion of the electrode is disposed over the second portion. The release liner includes a pair of electrically non-conductive sheets and an electrically conductive sheet interposed between the non-conductive sheets. The non-conductive sheets include an aperture to expose a portion of the conductive sheet for providing electrical conductivity between the pair of electrodes.

Abstract: A biomedical electrode for an electrocardiograph or similar device is provided. The biomedical electrode includes a disposable electrode having an electrically conductive gel layer and a smooth layer film. The disposable electrode interfaces with a reusable leadwire connector having the relatively expensive metallic conductive material. The reusable leadwire adapter includes a vinyl top layer which attaches to the smooth layer film of the disposable electrode through surface attraction. The reusable leadwire adapter may include a suction cup which attaches to the disposable electrode through a partial vacuum. The reusable leadwire also includes a stud member which snaps into a standard leadwire connector.

Abstract: A medical electrode includes a conductive flexible member with a non-conductive flexible sheet disposed on a top side thereof. A connector is provided for establishing electrical contact between the conductive flexible member and an external electrical device and a conductive adhesive adhered to a bottom side of the conductive flexible member provides electrical conductivity to a patient's skin. The conductive adhesive includes a contact surface for application to a patient's skin and an edge perimeter subtending the contact surface and the conductive flexible member. A non-conductive coating is disposed on the edge perimeter of the conductive adhesive for providing an environmental and electrical barrier.

Abstract: A transcutaneous medical electrode includes a highly conductive grid, having a plurality of arrays of electrical conductors, for controlling current distribution of directed electrical pulses. Electrical connectors are provided for establishing electrical communication with the conductive grid for enabling selective electrification of the electrical conductors in each array. The conductive grid is supported by a moderately conductive sheet, or film, and a conductive adhesive is provided for removably coupling the sheet or film and the conductive grid to a user's body.

Abstract: A precordial overlay is configured for precise electrode placement on a patient as part of an electrocardiographic test. It is especially useful by emergency medical personnel who are often called upon to obtain an ECG. The precordial overlay has an elongated band having a first generally rectangular-shaped section, a second generally rectangular-shaped and an intermediate section connecting the first and second sections. Electrodes are slidably mounted in the three sections to allow for limited but quick movement from an approximate chest area location to a precise chest area location for a reliable electrocardiographic test.

Abstract: An electrode for attachment to a patient comprises a flexible planar member, an electrically conductive member embedded in said flexible member and adapted for contact with the patient, a layer of electrically conductive adhesive applied to the conductive member and the flexible planar member on a side of the flexible planar member facing the patient. Through holes extend completely through the electrode and, optionally, may also extend through the layer of adhesive. Alternatively, a permeable electrode having a permeable member which allows a solvent to pass through to the adhesive may be used to eliminate the need for through holes in the electrode. The permeable electrode may also be coated with sodium chloride or potassium chloride and used in conjunction with an applicator containing an alcohol gel which liquefies upon contact with the sodium chloride or potassium chloride.

Abstract: An electrical conductor and a biomedical electrode using the electrical conductor are disclosed. The electrical conductor has a flexible, non-conductive film and two different carbon-containing coatings on a major surface of the film. The electrical conductor coatings are a low porous carbon-containing coating and a high porous carbon-containing coating. The low porous carbon-containing coating contacts the film and the high porous carbon-containing coating contacts the low porous carbon-containing coating. A tab/pad style of biomedical electrode using the electrical conductor has a field of ionically conductive media containing electrolyte contacting the high porous carbon-containing coating. The electrolyte diffuses into the high porous carbon-containing coating for electrochemical advantages.

Abstract: A biomedical electrode for an electrocardiograph or similar device is provided. The biomedical electrode includes a disposable electrode having an electrically conductive gel layer and a reusable leadwire adapter having the relatively expensive metallic conductive material. The disposable electrode interfaces with the reusable leadwire adapter through the adhesive characteristics of the gel layer. The reusable leadwire includes a stud member which snaps into a standard leadwire connector.

Abstract: An electro-dermal connector device includes a flexible non-conductive sheet and electrode sensors V.sub.1 to V.sub.6 disposed on the non-conductive sheet in a dimensional array and adapted for electrical connection with the skin for receiving and transmitting electrical impulses. On the non-conductive sheet the distance between electrodes V.sub.1 and V.sub.2 is 2.00 inches .+-.0.56 inches, and the distance between V.sub.2 and V.sub.4 is about 3.5 inches .+-.1.00 inch, with V.sub.3 located substantially midway between V.sub.2 and V.sub.4 and V.sub.5 is generally equidistant between V.sub.4 and V.sub.6.

Abstract: A transcutaneous medical electrode includes a highly conductive grid, having a plurality of arrays of electrical conductors, for controlling current distribution of directed electrical pulses. Electrical connectors are provided for establishing electrical communication with the conductive grid for enabling selective electrification of the electrical conductors in each array. The conductive grid is supported by a moderately conductive sheet, or film, and a conductive adhesive is provided for removably coupling the sheet or film and the conductive grid to a user's body.

Abstract: A harness for placing on a patient's chest allows ECG measurements to be quickly made. The harness includes a strip of nonconductive film having a connector terminal at one edge for connection to an ECG measuring devise. The strip has a number of electrodes formed on it, each having leads extending to the connector terminal. At least some of the electrodes are grouped into sets. Each of the sets has a pattern of electrodes spaced for placement on a patient of a different size. Each of the electrodes within the sets has a corresponding electrode in another of the sets with which it is in electrical common. A backing layer may be peeled-off to expose the electrodes. The backing layer has separate zones, one for each of the sets of electrodes.

Abstract: An electrode for attachment to a patient comprises a flexible planar member, an electrically conductive member embedded in said flexible member and adapted for contact with the patient, a layer of electrically conductive adhesive applied to the conductive member and the flexible planar member on a side of the flexible planar member facing the patient. Through holes extend completely through the electrode and, optionally, may also extend through the layer of adhesive. Alternatively, a permeable electrode having a permeable member which allows a solvent to pass through to the adhesive may be used to eliminate the need for through holes in the electrode. The permeable electrode may also be coated with sodium chloride or potassium chloride and used in conjunction with an applicator containing an alcohol gel which liquefies upon contact with the sodium chloride or potassium chloride.

Abstract: A DC biopotential sensing electrode assembly is provided for an apparatus for sensing DC biopotentials present at the skin of a subject. An electroconductive medium for transmitting ions from the skin which has a chloride ion content within a range of from 6-15 grams per hundred grams of such medium is formulated for use with the electrode. To reduce the corrosive effect of this electroconductive medium, each electrode includes only one metallic component, and to provide an electrode with a low AC impedance, this metal is uniformly coated upon nonmetallic sensor and terminal bodies with a coating thickness within a range of from 0.5 to 1.5 mil. To insure a complete electrical path through both the sensor and the terminal bodies, the nonmetallic portions are formed of conductive plastic.

Abstract: An ECG harness is positioned on the chest of patient for making electrocardiographic measurements. The harness includes a strip of nonconductive film having a plurality of slots spaced along the length of the strip at selected anatomical positions. A connector terminal is formed at one edge of the strip for connection to a monitoring device. Electrically conductive border traces extend around the slots. The border traces are exposed on the outer side of the strip and insulated from the inner side of the strip. Conductive leads extend from the connector terminal to the border traces. Electrode pads are placed on the outer side of the strip at least partially extending over the slots. Each of the electrode pads has a conductive inner side for electrical contact with one of the border traces and the skin of the patient.

Abstract: An electrode assembly adapted to be attached to the skin over selected facial muscle groups picks up signals to be analyzed by an anesthesia adequacy monitor that measures the level of awareness of a living animal, typically a human being. Also disclosed is a method of manufacturing the electrode assembly by printing a pattern of electrically conductive material through a silk-screen onto a flexible layer, and then coating the result with a non-conducting adhesive except at points corresponding to sensing points for the desired muscle groups. Finally, a method for using such sensing means is shown in maintaining an appropriate level of patient awareness under anesthesia.