Abstract: A system for ablating bodily tissue of a patient includes a high-voltage electrical generator configured to provide electrical pulses of at least 500 volts, a fluid having an electrical conductivity of not more than 0.01 Siemens per meter, and an ablation catheter that includes a catheter shaft, an expandable membrane attached to the catheter shaft, and a plurality of electrodes, each electrically coupled to the high-voltage electrical generator. The fluid inflates the expandable membrane when provided to the interior space of the expandable membrane.

Abstract: A system for ablating bodily tissue of a patient includes a high-voltage electrical generator configured to provide electrical pulses of at least 500 volts, a fluid having an electrical conductivity of not more than 0.01 Siemens per meter, and an ablation catheter that includes a catheter shaft, an expandable membrane attached to the catheter shaft, and a plurality of electrodes, each electrically coupled to the high-voltage electrical generator. The fluid inflates the expandable membrane when provided to the interior space of the expandable membrane.

Abstract: Technologies and implementations for a defibrillator electrode having communicative capabilities are generally disclosed.

Abstract: A system for ablating bodily tissue of a patient includes a high-voltage electrical generator configured to provide electrical pulses of at least 500 volts, a fluid having an electrical conductivity of not more than 0.01 Siemens per meter, and an ablation catheter that includes a catheter shaft, an expandable membrane attached to the catheter shaft, and a plurality of electrodes, each electrically coupled to the high-voltage electrical generator. The fluid inflates the expandable membrane when provided to the interior space of the expandable membrane.

Abstract: A method of selecting a combination of electrodes for use in neurostimulation includes testing combinations of electrodes in an electrode array to identify an atrial capture. The atrial capture is indicated by at least one effect on an atrium. The method includes excluding electrodes with the atrial capture to result in remaining electrodes of the electrode array, testing combinations of the remaining electrodes of the electrode array for effect on cardiac contractility and/or relaxation, and selecting a combination of electrodes from the remaining electrodes. The selected combination has both a desired effect on cardiac contractility and/or relaxation and does not have an undesired side effect.

Abstract: A system for ablating bodily tissue of a patient includes a high-voltage electrical generator configured to provide electrical pulses of at least 500 volts, a fluid having an electrical conductivity of not more than 0.01 Siemens per meter, and an ablation catheter that includes a catheter shaft, an expandable membrane attached to the catheter shaft, and a plurality of electrodes, each electrically coupled to the high-voltage electrical generator. The fluid inflates the expandable membrane when provided to the interior space of the expandable membrane.

Abstract: Technologies and implementations for a defibrillator electrode having communicative capabilities are generally disclosed.

Abstract: Technologies and implementations for a defibrillator electrode having communicative capabilities are generally disclosed.

Abstract: A system and method to sense heart sounds with one or more implantable medical devices according to one or more signal processing parameters. The method alters one or more of the parameters as a function of one or more physiologic triggering events. The method then senses heart sounds with the one or more implantable medical devices according to at least the one or more altered signal processing parameters.

Abstract: A cardio-pulmonary resuscitation apparatus and method that provides mechanical compressions and oxygen delivery to a patient. The delivered oxygen quantity is based on the anterior to posterior distance of the patient. Tidal volumes of the delivered oxygen are calculated from the anterior to posterior distance. The compressions and oxygen may be delivered in sequences that enhance the circulation of the patient. The compressions may be sensed by a sensor to effect such sequences. Oxygen delivered based on the anterior to posterior distance may be further adjusted by airway pressure. Embodiments may include a tube with lumens to deliver oxygen, monitor airway pressure, and contain wires to activate the airway valve and monitor airway pressure. Embodiments may also include a carbon dioxide sensor and may use two tidal volumes, the larger one to sample the end tidal carbon dioxide. Also included in some embodiments is a safety relief valve.

Abstract: Technologies and implementations for a defibrillator electrode having communicative capabilities are generally disclosed.

Abstract: Technologies and implementations for a defibrillator electrode having communicative capabilities are generally disclosed.

Abstract: A system and method to sense heart sounds with one or more implantable medical devices according to one or more signal processing parameters. The method alters one or more of the parameters as a function of one or more physiologic triggering events. The method then senses heart sounds with the one or more implantable medical devices according to at least the one or more altered signal processing parameters.

Abstract: A system and method to sense heart sounds with one or more implantable medical devices according to one or more signal processing parameters. The method alters one or more of the parameters as a function of one or more physiologic triggering events. The method then senses heart sounds with the one or more implantable medical devices according to at least the one or more altered signal processing parameters.

Abstract: Technologies and implementations for a defibrillator electrode having communicative capabilities are generally disclosed.

Abstract: A cardio pulmonary CPR device and method provides enhanced circulation by an inventive sequence of states of chest compression and airway valve opening and closure. The embodiments of the invention produce enhanced circulation during cardiac arrest, while maintaining a degree of ventilation to the patient, including oxygen delivery in some embodiments. Some embodiments include mechanical compression units. Other embodiments include a compression sensor to detect manually delivered compressions.

Abstract: Apparatuses and methods are disclosed for improved ventilation and cardio-pulmonary resuscitation. An apparatus of the invention may include sealing means, a valve that is configured to the sealing means to control the airway of a patient, means to actuate the valve, a control unit coupled to the valve actuating means, and means to deliver mechanical compressions to the chest. The control unit is configured to actuate the valve and the mechanical compression means to affect a number of sequences of states. Further, an apparatus of the present invention may include an oxygen source, oxygen valve, and oxygen valve actuator. The apparatus may also include a means for measuring an anterior to posterior distance, airway pressure monitoring means, means to monitor exhaled carbon dioxide, and/or an inventive airway valve consistent with the described invention.

Abstract: An amount of fluid in a thoracic or other region of a subject may be monitored by internally injecting an electrical energy stimulus (e.g., constant voltage source) through the region, detecting voltage resulting from the electrical energy stimulus, and calculating a fluid volume indicative signal. The injected energy stimulus creates a first lead field. The responsive voltage is detected using an electrode configuration that defines a second lead field, which is arranged in a negative sensitivity configuration with respect to the first lead field at the region being monitored.

Abstract: A method and device to enable a medical or surgical procedure using electro-cautery on a patient with an implantable device in a cautery-safe mode of operation. In one embodiment, the invention provides an electronic implantable device programmer having a computer processor, and a display screen configured to display information based on signals from the computer processor. The programmer also includes an input device, and a wireless transmitter controlled by the computer processor. The programmer display and input give the operator the option of programming an implanted electronic device in a cautery-safe mode.

Abstract: A method and device to enable a medical or surgical procedure using electro-cautery on a patient with an implantable device in a cautery-safe mode of operation. In one embodiment, the invention provides an electronic implantable device programmer having a computer processor, and a display screen configured to display information based on signals from the computer processor. The programmer also includes an input device, and a wireless transmitter controlled by the computer processor. The programmer display and input give the operator the option of programming an implanted electronic device in a cautery-safe mode.