Abstract: A stretchable electrode for use in physiologic measurements on a human body, such as peripheral impedance plethysmography, is disclosed. One embodiment of the stretchable electrode comprises an uninsulated stainless steel wire braid formed into a tubular conductor surrounding an elastic core and attached to an elastic substrate or base. Other embodiments of the stretchable electrode include a garter spring, a flat braided or woven conductor and an undulating wire. The electrode is placed about a limb of a human body and elastically stretched so that the conductor is in substantially continuous circumferential electrical contact with the skin of the limb. A method of attaching the stretchable electrode to the limb of a human body is also disclosed.

Abstract: A medical system that includes an identification patch having a memory that stores identification information associated with the patch. A monitoring device to be used with the identification patch interrogates the patch to obtain the identification information stored within the memory of the patch. The monitoring device determines whether the identification information is valid and, if so, measures values representing one or more parameters of the patient. If the identification information is not valid, monitoring device does not measure values representing the one or more parameters of the patient.

Abstract: A method and apparatus for the collection of physiological data from a patient is disclosed herein. An electrode assembly comprises an external label identifying an anatomical location and an electrode identifying circuitry that produces a signal indicative of the anatomical location to which the electrode assembly is to be attached. The electrode assembly transmits both the collected physiological signal and the identification signal to a data monitor for collection and processing physiological data.

Abstract: Textile-based electrodes include a fabric portion having stretch-recovery non-conductive yarns and an electrically conductive region having stretch-recovery electrically conductive yarn filaments. The electrodes can further include float yarns and can be configured in a textured or ribbed construction. When incorporated into a garment, the electrodes can be used to monitor biophysical characteristics, such as the garment wearer's heart rate.

Abstract: Two garments with textile based electrodes are disclosed. First, a wrist band for use with a cardiac patient remote monitoring system includes two fabric layers with integral textile-based electrodes. The textile based electrodes include a fabric portion having stretch-recovery non-conductive yarns and an electrically conductive region having stretch-recovery electrically conductive yarn filaments. The skin contacting surface of the band includes a conductive region formed as a continuous ring or stripe. A connector links the conductive region to a lead to a device. Second, an infant garment includes textile based electrodes at the torso region and optionally at other regions in order to monitor the infant's biophysical characteristics as the garment is worn.

Abstract: An implantable anchor for anchoring a lead or catheter relative to biological tissue, implantable system including such an anchor and a lead or catheter, and a method of use of such anchor. The anchor comprises a body having a channel adapted to receive a catheter or lead, and a cover mounted on the body for pivoting motion along a lateral axis, that is an axis that extends generally in the lateral direction perpendicular to the catheter or lead, between an open position in which the anchor is adapted to allow a lead or catheter to be placed in or moved along the channel, and a locked position in which the anchor is adapted to retain a lead or catheter within the channel.

Abstract: A biomedical sensor is disclosed that provides at least first and second electrical nodes for connection to medical equipment. The biomedical sensor includes a plurality of protruding electrodes that extend from a common base. At least one of the protruding electrodes is coupled to the first electrical node, and at least two of the protruding electrodes are coupled to the second electrical node. At least one of the plurality of protruding electrodes is adjustable in length such that each of the plurality of protruding electrodes is adapted to contact a non-planar surface of a subject.

Abstract: Disclosed is a lead anchor comprising a body made of an elastomeric material and defining a first opening and a second opening through which a lead can pass, one or more fasteners disposed within the body, with the ends of the fasteners protruding from the body, wherein the ends are configured and arranged to be clamped down to secure a lead passing through the body.

Abstract: Provided herein is an electrode device comprising an interface comprising at least one magnetic contact. The interface can be adaptable to be in communication with an electronic member, wherein the magnetic contact on the interface is adaptable to align and position the electronic member with respect to the interface. The interface can be further adaptable to remain affixed to a patient while an electronic member is removed and/or inserted from the interface. Further provided herein are methods of using the electrode device and kits.

Abstract: A method for position sensing includes inserting a probe comprising at least one electrode into a body of a subject, and passing electrical currents through the body between the at least one electrode and a plurality of locations on a surface of the body. Respective characteristics of the currents passing through the plurality of the locations are measured in order to determine position coordinates of the probe.

Abstract: Disclosed herein is a mountable unit for biological signal measurement, including: three electrodes; and a support body configured to support the three electrodes at positions corresponding to a positional relationship among a predetermined position on a forehead on one side of a face bounded by a midline, a temple position on the one side of the face, and a predetermined position on a zygomatic body on the one side of the face.

Abstract: The present invention relates to an EKG cable for connection to an EKG machine. The cable has a root cable with a connector for connection to the EKG machine. The root cable is connected to a cable connector. The cable connector has at least two branch cables connected thereon. Each of the branch cables has a plurality of nodes disposed thereon. Each of the nodes has two connections each being capable of being connected to an electrode disc. Each of the nodes have opposing upper and lower surface. Each of the surfaces may have indicia disposed thereon. Each of the surfaces may be color-coded. The indicia and the color-coding may be used independently of each other or in combination with each other.

Abstract: A disposable “Enhance Dynamic Flow Data” electrode, including: a flexible strips EDFD electrode and leads cable and voltage socket. Electrode with affixed program micro control chip, the chip having a positioned inside, the strips electrode have six electrode on one electrode with (V1,V2,V3,V4,V5,V6) attached of a receptor pad end connection with the skin for receiving electrical impulses and signal which is adapted for connection with an electro-cardiologram measuring on body chest apparatus. The specific enhance the dynamic flow signal configuration propriety for electrocardiography recording. An embodiment of the invention will be described in greater detail below with reference to the accompanying drawings which show an EDFD electrode and wire or wireless leads cable connect with device embodying the invention. Enhance bio-electrical signal's purity, thus enhances the test for more accuracy analysis finally.

Abstract: An implantable tissue-stimulating device comprising an elongate electrode carrier member (11) having a plurality of electrodes thereon. The electrodes are preferably disposed in a linear array on the carrier member (11) and are adapted to apply a preselected tissue stimulation to the cochlea. The carrier member (11) is preformed from a resiliently flexible biocompatible silicone and extends from a distal end (12) to a stop member (13). The carrier member (11) is adapted for intracochlear but extraluminar insertion within the cochlea of an implantee. In particular, the carrier member (11) is adapted to be implanted in the crevice (21) between the spiral ligament (22) and the endosteum (23) of the lateral wall of the cochlea (20). This is a quite different location to the normal placement of the cochlear implant electrode array in the scala tympani (24) of the cochlea (20).

Abstract: The embodiments relate to a sensor strip (13) and to a flexible support strip (12) for receiving the sensor strip and for fixing the strip to a surface e.g. to the back of a test person. According to the embodiments, the sensor strip (13) has a reference point (18), (for example a snap fastener connection), with which it can be fixed to a reference surface (16) of the support strip. This allows the position of the sensor strip (13) to be unambiguously defined on the support strip (12). The further extension of the sensor strip (13) lies in a pocket (23) so that it can slide, allowing the relative movement between the support strip and the sensor strip if the support strip is lengthened (represented by a dot-dash line). The entire sensor unit is thus advantageously more comfortable to wear, as the elastic support strip (12), for example, can freely follow the back movements of the test person.

Abstract: A method for making a medical electrical lead electrode assembly includes the steps of: forming an insulative carrier from an insulative material; coupling at least one conductive component to the carrier by inserting at least one tab of the at least one conductive component through the carrier, the tab extending away from an electrode portion of the component such that, after the tab is inserted, the electrode portion is disposed on a first side of the carrier and the tab is disposed on a second side of the carrier; coupling an elongate flexible conductor to the tab of the at least one component; and forming an insulative layer over the tab and the conductor on the second side of the carrier.

Abstract: Apparatus and methods are provided for determining in near realtime the position of a probe placed within a living body. Electric currents are driven between one or more electrodes on the probe and electrodes placed on the body surface. The impedance between the probe and each of the body surface electrodes is measured, and three-dimensional position coordinates of the probe are determined based on the impedance measurements. Dynamic compensation is provided for changing impedance of the body surface and its interface with the electrodes, resulting from such causes as electrode peel-off and changes in moisture and temperature. The compensation improves the accuracy of, inter alia, medical procedures, such as mapping the heart or performing ablation to treat cardiac arrhythmias.

Abstract: A medical electrical lead electrode assembly includes an insulative carrier and at least one conductive component. The at least one conductive component includes an electrode portion disposed on a first side of the carrier and at least one tab extending away from the electrode portion, through the carrier to a second side of the carrier. The electrode portion of the at least one component includes an outward facing contact surface and an inward facing surface, the inward facing surface being disposed opposite the contact surface and against a surface of the first side of the carrier. The electrode assembly further includes a joint coupling a flexible elongate conductor to the tab of the at least one component on the second side of the carrier, and an insulative layer extending over the joint and the tab and the conductor, the insulative layer being bonded to the second side of the carrier.

Abstract: An insulative body of a medical electrical lead electrode assembly includes a pre-formed channel having a section extending at an angle to a longitudinal axis of the body. An electrode portion of a conductive component has an electrode contact surface facing outward from a first side of the body and a coupling portion embedded in the body. A conductor, which is coupled to the coupling portion of the component, is disposed in the channel.

Abstract: Methods, lead retention assemblies and systems may provide a secure connection of electrical leads to an implantable medical device, such as a pacemaker or a defibrillator. The method may include: providing a lead retention assembly including a support member, a first side clamp and a second side clamp, a first port and a second port each defining a respective receptacle in conjunction with the support, and a fastener configured to urge both the first and second side clamps toward the support upon actuation of the fastener; providing at least two electrical lead bodies each including a respective proximal end portion; inserting the respective proximal end portions into the respective receptacles to be in electrical communication with a respective electrical contact in the respective receptacles; and actuating the fastener to thereby clamp the proximal end portions of the respective electrical lead bodies within the first and second ports.

Abstract: An ECG monitoring device comprises an integral handheld device including a ECG electronic module and an electrode patch having a plurality of electrodes which contact a subject by conductive hydrogel. A release liner covers and protects the hydrogel prior to use and is removed to expose the hydrogel. A second release liner is removed to expose a pressure sensitive adhesive by means of which the device is attached to a subject. The first and second release liners may be parts of a single release liner layer. After use the electrode patch is disposable and the ECG electronic module is detached from the patch for reuse.

Abstract: A physiological measurement display comprises: a strip having: at least one conductive portion at an inner side thereof; an electronic device connected to the conductive portion; the electronic device having at least one physiological measure unit; and a display panel at an outer side of the electronic device for displaying physiological data from the physiological measure unit. The electronic device is installed with a level meter, or alarm lights or a speaker. The display panel is pivotally installed to the electronic device and is turnable for viewing. Two ends of the electronic device have buckling grooves and two ends of the strip have buckles engageable to the buckling grooves. The buckles and buckling grooves are conductive. The electronic device is installed with an auxiliary conductive portion or a conductive rubber.

Abstract: An electrode for measuring an electrocardiogram. The electrode comprises a signal detector operable to detect an electrocardiogram signal. An electrolytic gel is coated onto a first surface of the signal detector. The gel is electrically conductive and operable to adhere to a skin. A connector is electrically connected to the signal detector.

Abstract: Embodiments of the invention generally relate to an anchor used to secure a position of a device or component relative to internal tissue of a patient and prevent migration of the component relative to the tissue of the patient. In one embodiment, the anchor is combined with an electrode lead that is configured for implantation in a patient. The electrode lead comprises a lead body having a proximal end and a distal end, a stimulating electrode and an anchor. The stimulating electrode is attached to the lead body at the distal end. The anchor is attached to the distal end of the lead body and comprises an anchor body and mesh attached to the anchor body.

Abstract: An electrode structure made of noble metal or a noble metal alloy having a thickness of ?100 ?m is provided for implants. The electrode structure has an electrode core made of gold, silver, copper, or an alloy of at least two of these elements, and the electrode core is completely encased by a first coating, which is formed from platinum, iridium, or ruthenium.

Abstract: A flexible electrode assembly comprises a central portion having electrical contacts disposed thereon and a plurality of elongated portions extending radially outwards from the central portion. One or more of the elongated portions has an electrode disposed in the vicinity of a distal end thereof. The electrodes are electrically coupled to respective ones of the electrical contacts disposed on the central portion. An apparatus for measuring electrophysiological signals in a human or animal body that incorporates the flexible electrode assembly is also disclosed.

Abstract: A system and apparatus for enabling independent, highly reliable and accurate self-application of an anti-tremor means by a disabled patient, without requirement for application fixtures, wherein anti-tremor means comprises a single unit, self adhesive stimulation and recording electrode with an integrated supply of energy and a control unit, further comprising an alignment, and application means for applying said anti-tremor means configured to enable independently self application by a severely handicapped patient, wherein system and method for tremor reduction is by means of closed-loop functional electrical stimulation, including a sensor for sensing muscle movements, and Functional Electrical Stimulation (FES) apparatus for providing FES to a muscle, the FES apparatus being in communication with the sensor via a band pass filter for filtering around a tremor frequency to ignore slow movements and high frequency noise.

Abstract: A device (1) for restraining attached couplers (4, 5) of a percutaneous lead assembly (7). The device (1) comprises a body (14) including two engagement means (8) positioned at opposite ends that engage with the respective couplers (4, 5) to resist disconnection, and an attachment means (9) to attach the device (1) to the outer epidermis of a patient to limit movement of the device (1), when in use.

Abstract: An apparatus and method for detecting physiological function, for example, nerve conduction, is described. In one embodiment the apparatus includes a housing including a stimulator shaped to fit a first anatomical site and a detector shaped to fit a second anatomical site. The housing automatically positions the detector substantially adjacent to the second anatomical site when the stimulator is positioned substantially adjacent to the first anatomical site. The detector contains a plurality of individual detection elements, whereby the response evoked by stimulation at the first anatomical site is measured using one or more of these detection elements at the second anatomical location.

Abstract: A sports clothes including an inner layer structure and an outer layer structure is suitable to be worn on a human body. The inner layer structure includes a main part, an elastic structure, at least two fabric electrodes, and at least one fastener. The elastic structure is connected with the main part. The two fabric electrodes suitable for contacting with the skin of the human body are directly knitted on the elastic structure. The fastener is nailed on the elastic structure and electrically connected with the two fabric electrodes. The parts of the outer layer structure and that of the inner layer structure corresponding to at least one of the shoulder, partial neck portion, and armpit are connected. The outer layer structure covers the inner layer structure completely.

Abstract: A set of electrodes suitable for being attached to the skin of an animal or human being at locations normally used for attaching single-lead electrodes with a single sensor point. The electrodes of the set of electrodes have at least three sensors arranged to define two linearly independent directions, which allows sensing corresponding electrical potential differences in the two directions. Signals representing sensed potential differences can be transmitted wirelessly or via conductors to a processing apparatus for being transformed into electrical potentials that approximate traditional potentials obtained with wired single-sensor electrodes. A method is also presented.

Abstract: An implantable lead device and method for implanting the lead, wherein the lead device electrically stimulates tissue within a patient's body and more particularly the lead device stimulates gastrointestinal tissue. The implantable lead may be inserted through the tissue with minimal expansion of the penetration tunnel and attached to the tissue being stimulated with minimal efforts or apparatus. The implantable lead has flexible properties thus minimizing the potential for electrode erosion, maximizing tissue compliance, and minimizing the mechanical stress concentration that may result in fatigue failure in the lead.

Abstract: Textile-based electrodes include a fabric portion having stretch-recovery non-conductive yarns and an electrically conductive region having stretch-recovery electrically conductive yarn filaments. The electrodes can further include float yarns and can be configured in a textured or ribbed construction. When incorporated into a garment, the electrodes can be used to monitor biophysical characteristics, such as the garment wearer's heart rate.

Abstract: A transdermal medicament patch includes a biocompatible substrate having a therapeutic face on one side configured for disposition against the skin of a patient, a biocompatible adhesive on the therapeutic face, a planar medicament matrix covering a portion of the therapeutic face, and a release liner covering the portion of therapeutic that is not obscured by the medicament matrix. An aperture formed through the release sheet affords direct access by medicament to the entire surface of the medicament matrix opposite from the therapeutic face of the substrate. An active electrode positioned between the medicament matrix and the therapeutic face of the substrate includes an electrically conductive backing layer positioned against the therapeutic face of the substrate and a pH-control layer covering less than all of the side of the backing layer opposite from the therapeutic face of the substrate.

Abstract: Embodiments relate to methods and systems for monitoring bioelectric potentials. In some instances, an electrode is applied to a patient's skin. The electrode may be at least partly inserted into the patient's skin, such as by inserting at least part of one or more teeth underneath the skin.

Abstract: The invention is a precordial pad for positioning EKG electrodes on a patient for anatomically correct and repeatable placement. Data can be transmitted from the EKG pad of the invention by wire or wireless means. The pad includes a sizing aid, and a positioning device. The invention is also a system for obtaining and sending EKG data.

Abstract: Electrodes providing excellent recording and physical stability. The present invention encompasses electrodes that include a plurality of small teeth that possess a novel design shape and orientation. The shallow and relatively long teeth preferably run parallel to the rim of the electrode that presses against the patient's skin. When the electrode is twisted onto skin, the tiny teeth penetrate the stratum corneum and move nearly horizontally under the stratum corneum, thus anchoring the electrode securely to the skin. The electrodes of the present invention cause minimal discomfort to the patient since the small teeth do not extend to the pain fibers which are located in deeper layers of the skin. The electrodes may house a wide diversity of electronic components to enable numerous experimental and medical implementations. The electrodes the present invention may also be used wirelessly either singularly or as an array so that no electrode leads extend away from the patients body.

Abstract: Methods and apparatus for non-invasively assessing physiological hard of soft tissue of human and other species are described. In a preferred embodiment, tissue is vibrationally stimulated in vivo through a frequency spectrum. The tissue reacts against the stimulus and the reaction is preferably measured and recorded. Based on analytical algorithms or comparisons with previously taken measurements, changes within the tissue can be detected and used for diagnostic purposes. Further embodiments describe the usage of the device and methods for in vivo intra-operative and post-operative implant evaluations and as a therapeutic tool.

Abstract: An implant device for bone anchored hearing aids of the type that include a screw-shaped anchoring element for anchorage in the bone tissue, an abutment sleeve for skin penetration and arranged to be connected to the fixture with a screw connection and a tool for installing the implant into the bone tissue. The fixture and the abutment sleeve are made as a pre-mounted unit that unit is arranged to be installed in one step by means of the tool, which is arranged to cooperate with a tool engaging portion on the abutment sleeve. This arrangement requires fewer pieces to handle for the surgeon during the installation, which means that the surgical procedure can be carried out in a simpler and predetermined way, at the same time as the advantages inherent in a two-piece implant device are maintained.

Abstract: Disclosed herein is a hair-grasping EEG electrode and an insertion tool for placement of the electrode on the scalp. The electrode has a novel two-piece clamping design formed of cooperating halves that capture and tension the hair, pulling the electrode snuggly against the scalp before locking together to anchor the electrode in place. The insertion tool allows easy manipulation and fast and consistent installation without need for lengthy user training and practice. Moreover, the insertion tool assumes some of the functionality so that the electrode can be simplified, allowing a smaller footprint and part count, as well as allowing the non-conductive portions of the electrode to be disposable. Dispensing of electrolytic gel is a convenient option to improve the interface, and this may be readily dispensed from the tool, or from reservoirs integral to the electrode. The combination greatly reduces EEG study setup time and technician labor costs.

Abstract: An apparatus includes a fitting device and an actuator movably coupled to the fitting device. The fitting device is configured to be disposed about a portion of a body. An inner surface of the fitting device has an attachment portion configured to removably couple an electrode to the inner surface of the fitting device. The actuator is configured to decouple the electrode from the attachment portion of the fitting device when the fitting device is disposed about the portion of the body.

Abstract: A contact lens with a conductive outer shell (one electrode of a two-electrode electrophoresis device) and a preferably soft, preferably disposable contact lens for contacting a patient's eye, assists in delivering dilation drops or other medicaments to a patient's eye. Advantageously, the lens is used with a relatively small hand-held power source. Electrophoresis can be used to help deliver dilation drops more rapidly, regardless of the delivery apparatus used for the electrophoresis.

Abstract: The invention relates to a sensor (42) placed on the skin, which can advantageously be integrated in a garment and has a contact layer in contact with the skin containing conductive fibres for receiving signals and a moisture retentive moisture layer (41) on top of the contact layer.

Abstract: An electrode belt for impedance tomography shall be improved such that it has a simple design and makes possible good contacting of the electrodes (2) with the body of the test subject to be examined. The electrode belt (1) has at least 16 electrodes (2) on an electrode holder or belt material (3), which is elastic at least in some sections. The belt formed of one or more belt material sections completely surrounds a test subject to be examined on the circumference of the body. Electrode feed lines (63) extend along the electrode holder (3). The electrode feed lines and are connected to a feed line (6) at least at one feed point (4) on the electrode holder (3).

Abstract: Textile-based electrodes include a fabric portion having stretch-recovery non-conductive yarns and an electrically conductive region having stretch-recovery electrically conductive yarn filaments. The electrodes can further include float yarns and can be configured in a textured or ribbed construction. When incorporated into a garment, the electrodes can be used to monitor biophysical characteristics, such as the garment wearer's heart rate.

Abstract: The invention is a precordial pad for positioning EKG electrodes on a patient for anatomically correct and repeatable placement. Data can be transmitted from the EKG pad of the invention by wire or wireless means. The pad includes a sizing aid, and a positioning device. The invention is also a system for obtaining and sending EKG data.

Abstract: The neurophysiology testing and monitoring system provides a multifunctional neurological testing system for a variety of neurological tests, such as electroencephalographs (EEGs) and magnetoencephalographs (MEGs), to be performed on a patient. The system includes a housing for receiving at least one neurological measurement system and a conductive gel supply. A selectively positionable elongated support is pivotally mounted on an upper end of the housing at a proximal end thereof, and a sensor cap is mounted on the distal end of the elongated support. The sensor cap is selectively and adjustably positioned to be adjacent the head of the user so that at least one sensor, such as an EEG electrode, mounted on the sensor cap comes into contact with the patient's head. The EEG electrode is in communication with the conductive gel supply for selective application of conductive gel to the user's head.

Abstract: An electrode assembly (10) for a portable ECG signaling device, comprises a thin, flexible electrode support (11) supporting thereon a plurality of electrodes in spaced relationship. The electrodes (V1, V2, V3, V4, V5 and V6, LA, RA, LL) are configured for producing a twelve-lead electrocardiogram, and the electrode assembly is foldable into a compact assembly when not in use.

Abstract: A medical monitor includes a lanyard and an electronic package supported in the manner of a pendant. The lanyard includes integral electrodes or other sensors for making physiological measurements, auxiliary components and connectors for electrically connecting the electrodes or sensors to the electronic package. The physiological measurements may be stored in the monitor for later readout, or may be transmitted, before or after processing, to a remote location.

Abstract: A system for unobtrusively measuring bioelectric signals developed by an individual includes multiple sensors, one or more of which constitutes a capacitive sensor, embedded into or otherwise integrated into an object, such as a chair, bed or the like, used to support the individual. The object serves as mounting structure that holds the sensors in place. The sensors are preferably arranged in the form of an array, with particular ones of the sensors being selectable from the array for measuring the bioelectric signals which are transmitted, such as through a wireless link, for display and/or analysis purposes.