Patent application number | Description | Published |
20090149084 | Biomedical Electrode Connectors - A biomedical electrode connector for coupling with a biomedical electrode of the type including an electrode base and a male terminal projecting from the electrode base is provided. | 06-11-2009 |
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 |
20090270710 | Novel Electrodes - The present disclosure provides electrodes that possess components capable of indicating to an end-user when the electrode is in need of replacement. | 10-29-2009 |
20100059722 | Conductive Compositions and Method - Conductive compositions for use with medical electrodes are provided. The conductive compositions utilize a surfactant capable of both reducing the surface tension of the conductive composition as well as increasing the viscosity of the conductive composition. Methods of preparing these conductive compositions are also provided. | 03-11-2010 |
20100266671 | Device and Method for Treating Dermal Tissue - The present disclosure provides gel compositions useful for treating the skin. The gel compositions are hydrogels that include from about 33 wt % to about 68 wt % of a humectant or a mixture of humectants; about 0 wt % to about 8 wt % of an electrolyte or mixture of electrolytes; from about 2 wt % to about 20 wt % of water; from about 18 wt % to about 45 wt % of a copolymer. The copolymer includes, in polymerized form, from about 80 mol % to about 95 mol % of a first monomer, which is a mixture of acrylic acid and a salt thereof, from about 5 mol % to 20 mol % of a second monomer, which can be a salt of 2-acrylamido-2-methylpropane sulfonic acid, and, optionally a crosslinking agent. In embodiments, the gel composition has a pH of about 7.0 or less. The dermal patches of the present disclosure may be utilized in skin care, and may include the application of the patch, its removal, and re-application to tissue. | 10-21-2010 |
20110117793 | Biomedical Electrode Connectors - A biomedical electrode connector for coupling with a biomedical electrode of the type including an electrode base and a male terminal projecting from the electrode base is provided. | 05-19-2011 |
20110230925 | Electrode Delivery System - According to an aspect of the present disclosure, an automatic external defibrillator configured to deliver electrical pulses and/or shocks to a heart of a patient during a cardiac emergency is provided and includes a housing supporting an electrical connector; a defibrillator electrode delivery system supported on the housing; and a pair of defibrillation electrode pads supported by the defibrillator electrode delivery system. Each of the pair of defibrillation electrode pads is pre-connected to the electrical connector of the housing. A hydrogel layer of each defibrillation electrode pad is retained by the defibrillator electrode delivery system in such a manner so as to reduce a moisture vapor transmission rate thereof. | 09-22-2011 |
20110275252 | 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. | 11-10-2011 |
20120041384 | SINGLE USE DEVICE FOR DELIVERY OF CARTRIDGE DRUGS - A syringe for administering medicament from a cartridge. The syringe includes a sleeve having an interior for receiving the cartridge extending between a distal hub and a proximal opening. The syringe has a cap selectively covering the proximal opening for retaining the cartridge in the interior of the sleeve. The cap includes a finger grip extending outward from the sleeve for engaging fingers of a user. The syringe also has a plunger rod movably connected to the cap. The plunger rod has a distal connector for selectively connecting the rod to the cartridge plunger when the cartridge is received in the interior of the sleeve to push medicament from the cartridge reservoir as the plunger rod moves with respect to the cap. | 02-16-2012 |
20120196474 | 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. | 08-02-2012 |
20120226129 | ECG Lead Wire Organizer And Dispenser - An ECG lead set including an ECG electrode assembly and a lead set hub. ECG electrode includes at least one electrode configured to receive biopotential signals from a patient, a plug connector for connecting said ECG electrode assembly, a web, connected between the at least one electrode and the plug connector and configured to form an electrical connection therebetween. The lead set hub includes at least one receptacle configured to receive the plug connector of the ECG electrode assembly. | 09-06-2012 |
20120226131 | ECG Lead Wire Organizer And Dispenser - An ECG lead set including an ECG electrode assembly and a lead set hub. ECG electrode includes at least one electrode configured to receive biopotential signals from a patient, a plug connector for connecting said ECG electrode assembly, a web, connected between the at least one electrode and the plug connector and configured to form an electrical connection therebetween. The lead set hub includes at least one receptacle configured to receive the plug connector of the ECG electrode assembly. | 09-06-2012 |
20120226177 | ECG LEAD WIRE ORGANIZER AND DISPENSER - An ECG lead set including an ECG electrode assembly and a lead set hub. ECG electrode includes at least one electrode configured to receive biopotential signals from a patient, a plug connector for connecting said ECG electrode assembly, a web, connected between the at least one electrode and the plug connector and configured to form an electrical connection therebetween. The lead set hub includes at least one receptacle configured to receive the plug connector of the ECG electrode assembly. | 09-06-2012 |
20120290061 | Electrode Pad Packaging Systems And Methods - An electrode pad packaging system including an electrode pouch, an electrode pad (e.g., a defibrillation electrode pad), a wire and a shell is disclosed. The electrode pad is disposed at least partially within the electrode pouch. The wire extends from the electrode pad and, in a disclosed embodiment, at least a portion of the wire is attached to the shell. The shell is disposed in mechanical cooperation with the electrode pouch (e.g., the shell is secured to a portion of the electrode pouch). The shell includes a valve thereon that is configured to allow air to exit the electrode pouch. The valve may be configured to prevent air from entering the electrode pouch. A method of packaging an electrode pad is also disclosed. The method includes providing an electrode pouch, an electrode pad, a wire and a shell. A valve on the shell allows air to exit the electrode pouch. | 11-15-2012 |
20130189881 | 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. | 07-25-2013 |
20130289689 | ELECTRODE DELIVERY SYSTEM - An automatic external defibrillator configured to deliver electrical pulses and/or shocks to a heart of a patient during a cardiac emergency includes a housing supporting an electrical connector; a defibrillator electrode delivery system supported on the housing and a pair of defibrillation electrode pads supported by the defibrillator electrode delivery system. Each of the pair of defibrillation electrode pads is pre-connected to the electrical connector of the housing. A hydrogel layer of each defibrillation electrode pad is retained by the defibrillator electrode delivery system in such a manner so as to reduce a moisture vapor transmission rate thereof. | 10-31-2013 |
20140119986 | SYSTEM AND METHOD FOR TREATMENT OF A SURFACE OF AN INJECTION DEVICE - The disclosed embodiment relates to a system and method for treating a non-sterile surface of at least a component of a medical device, such as, but not limited to, a cartridge for an injection device. The system for treating a non-sterile surface of a medical device includes a source of electromagnetic radiation and, in some embodiments, a source of laminar airflow. The source of electromagnetic radiation provides exposure and the source of laminar airflow provides laminar airflow to the surface for treatment of the medical device. The method for treating a non-sterile surface includes exposing the non-sterile surface of a cartridge to a pulsed electromagnetic wave. In some embodiments, simultaneous to the pulsed electromagnetic radiation exposure, a laminar airflow can be directed perpendicular to the surface of the cartridge. | 05-01-2014 |
20140170896 | 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. | 06-19-2014 |
20140180054 | ECG LEAD WIRE ORGANIZER AND DISPENSER - An ECG lead set including an ECG electrode assembly and a lead set hub. ECG electrode includes at least one electrode configured to receive biopotential signals from a patient, a plug connector for connecting said ECG electrode assembly, a web, connected between the at least one electrode and the plug connector and configured to form an electrical connection therebetween. The lead set hub includes at least one receptacle configured to receive the plug connector of the ECG electrode assembly. | 06-26-2014 |
20140216965 | Electrode Pad Packaging Systems And Methods - An electrode pad packaging system including an electrode pouch, an electrode pad (e.g., a defibrillation electrode pad) and a sacrificial source of moisture is disclosed. The electrode pad and the sacrificial source of moisture are each disposed at least partially within the electrode pouch. | 08-07-2014 |
20140275933 | Reduce Motion Artifact Electrode - A medical electrode which mechanically isolates a conductive interface between the electrode and a patient's skin from forces applied to the lead wires or a lead wire connector is described. | 09-18-2014 |
20140322945 | 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. | 10-30-2014 |