Class / Patent application number | Description | Number of patent applications / Date published |
600394000 | Head and socket connector for attaching lead to electrode | 14 |
20090062636 | Electrode Clamp - The invention relates to an electrode clamp ( | 03-05-2009 |
20090149731 | ECG Electrode Connector - Disclosed is an ECG electrode lead wire connector which provides improved electrical and mechanical coupling of the ECG electrode press stud to the lead wire, provides enhanced ergonomics to the clinician, and may alleviate patient discomfort associated with the attachment and removal of ECG leads. The connector may be engaged and disengaged with little or no force imparted to the patient or the ECG pad, which significantly minimizes the risk of inadvertent dislodgement of the pad. In one embodiment the disclosed connector provides a thumb cam lever which affirmatively engages the press stud to the connector, and provides tactile feedback to the clinician that the connector is properly engaged. In other embodiments, the connector provides a pushbutton to enable the clinician to easily engage and disengage the connector from the ECG stud. The disclosed connectors may also decrease clinician fatigue, and may provide more reliable ECG results. | 06-11-2009 |
20100036231 | Electrical connector apparatus and methods - Size-specific electrical connector apparatus optimized for e.g., biomedical applications, and which prevents mating to the wrong sized terminals. In one embodiment, the connector apparatus comprises device having a two piece assembly adapted pivotally engage and lock a sensor such as those used in impedance cardiography (ICG) therein. The conductor is shaped so as to provide a high degree of specificity in sensor connection as well as signal stability and reliability. In one variant, the pivot comprises a spring-loaded pivot having no external stops and the shape of a sensor engaging aperture is defined by a metal insert associated with one element of the assembly and the pivot is permanently formed within the connector. Thus, a user is obstructed from changing the properties of the connector to accept smaller or larger sensors. Methods of manufacturing and operating the connector are also disclosed. | 02-11-2010 |
20110201913 | CONNECTING STRUCTURE OF SNAP ELECTRODE AND ELECTRIC WIRE - A structure of electrically connecting a snap electrode for medical purposes is easily attached/detached to/from various monitoring pads attached to a human body to measure electrocardiogram (ECG), electromyogram (EMG), brain wave and nervous system signals and electrically connected to medical equipment, to an electric wire using a pressing method instead of welding. The connecting structure of a snap electrode and an electric wire includes a body having a convex portion, which is formed on the top of the body and has a groove formed on the circumference thereof, in which a combining part is fitted, and the combining protrusion having a ring shape and including a predetermined number of elastic fixing pieces protruded from the inner side thereof and a pair of first pressing pieces protruded from one side thereof and combined with an electric wire. A combining protrusion of a pad is inserted into the body. | 08-18-2011 |
20120089002 | LOW COST-LOW PROFILE LEAD SET CONNECTOR - A patient worn medical monitoring device ( | 04-12-2012 |
20130085368 | Radiolucent ECG Electrode And Method Of Making Same - An electrode includes a pad having a patient contact side and a connector side. The patient contact side includes a conductive layer, and the connector side includes a press stud. An eyelet interconnects the conductive layer with the press stud. The eyelet includes a conductive coating disposed on at least a portion of a surface of the eyelet that contacts the conductive layer, while other surfaces of the eyelet are substantially free of the conductive coating. | 04-04-2013 |
20140243644 | ECG Lead System - An ECG lead system for use with a plurality of unique diverse ECG floor monitors for when a patient is substantially immobile and/or a plurality of unique diverse ECG telemetry monitors, is provided. The ECG lead system includes a plurality of unique adapters, wherein each adapter includes an input receptacle configured for selective electrical connection with a device connector of an ECG lead set assembly; and at least one unique monitor plug electrically connected to the input receptacle. Each monitor plug is configured to selectively electrically connect to a corresponding receptacle of a respective unique diverse ECG floor monitor or unique diverse ECG telemetry monitor. | 08-28-2014 |
20140303472 | Radiolucent ECG Electrode System - Disclosed is an ECG electrode lead system suitable for use during imaging procedures such as, without limitation, CT scans or MRI and methods of use. In embodiments, the system includes an ECG electrode connector formed from radiolucent materials to enhance performance during imaging procedures by reducing or eliminating shadows on imaging media. In some embodiments, the disclosed connector includes a housing having an opening configured to operably receive an electrode post of an ECG electrode pad, an electrode member having a generally semicircular contact face disposed along at least a part of the perimeter of the opening, and an engagement member having an actuation surface and an engaging face pivotable about a pivot to enable engaging face to move from a first position whereby the engaging face is closer to the contact face and a second position whereby the engaging face is further from the contact face. | 10-09-2014 |
20140309514 | ECG Electrode Connector - Disclosed is an ECG electrode lead wire connector which provides improved electrical and mechanical coupling of the ECG electrode press stud to the lead wire and is suitable for use during imaging procedures such as, without limitation, CT scans or MRI. The connector assembly includes a housing having. An engagement member is pivotably disposed within the housing to retain the connector on an ECG electrode fixed to a patient's body, an arcuate stiffener is deposed between the engagement member and a pivot member and a radiolucent resilient member configured to bias the engagement member. | 10-16-2014 |
20140316231 | ECG ELECTRODE FOR USE IN X-RAY ENVIRONMENTS - An ECG electrode is provided which can be placed within the direct path of x-rays during an imaging scan without inducing an x-ray induced erroneous current. The ECG electrode has a support element with a conductive post on one side electrically connected to a conductive plate on the other side. A dissipative anti-static element in or near the ECG electrode dissipates static electricity which forms on the surfaces of the insulating components in the ECG electrode. The dissipative anti-static element may be, for example, a slightly conductive property of the bulk material used to make the insulating material, or a conductive coating added to the insulating material surfaces. The dissipative anti-static element may also be incorporated in the clamp attached to the conductive post. In a further embodiment, an ion blower aimed at the ECG electrode may be used to remove static electricity. | 10-23-2014 |
20140323842 | RADIOLUCENT ECG ELECTRODE AND METHOD OF MAKING SAME - An electrode includes a pad having a patient contact side and a connector side. The patient contact side includes a conductive layer, and the connector side includes a press stud. An eyelet interconnects the conductive layer with the press stud. The eyelet includes a conductive coating disposed on at least a portion of a surface of the eyelet that contacts the conductive layer, while other surfaces of the eyelet are substantially free of the conductive coating. | 10-30-2014 |
20150327788 | ELECTRODE LEAD WIRE CONNECTOR - Electrode lead wire connectors configured to be connected to an electrode for defibrillation and/or heart monitoring are disclosed. The electrode lead wire connector includes a one-piece electrically conductive connector contact having one end that is configured to be connected to a lead wire and an opposite end having an electrode receiving section that is configured to releasably receive a post of an electrode. The electrode receiving section includes a detent for retaining the post of the electrode within the electrode receiving section. Resilient engagement between the detent and the post provides a user of the electrode lead wire connector with tactile feedback indicating that the post of the electrode is fully engaged with the electrode receiving section of the one-piece electrically conductive connector contact. | 11-19-2015 |
20160183825 | Multi-Device Connector For Patient Interface - A multi-device connector for ECG signals permits multiple medical devices to share patient-connected surface electrodes, providing a patient-side terminal set having a direct connection to one device-side terminal set and buffered connections to multiple additional device-side terminal sets. Invasive blood-pressure sensor readings may also be shared by providing a direct connection between a patient-side terminal set and multiple device-side terminal sets for blood-pressure signals and a direct connection between the patient-side terminal set and only one device-side terminal set. Indirect, scaled connections between the remaining device-side terminal sets and the patient-side terminal set may be provided. | 06-30-2016 |
20160183831 | A BIO-MEDICAL ELECTRODE - The invention relates to a bio-medical electrode ( | 06-30-2016 |