Abstract: A radiosurgical method for treating cardiorenal disease of a patient, the method including directing radiosurgery radiation from outside the patient towards one or more target treatment regions encompassing sympathetic ganglia of the patient so as to inhibit the cardiorenal disease. In an exemplary embodiment, the method further includes acquiring three dimensional planning image data encompassing the first and second renal arteries, planning an ionizing radiation treatment of first and second target regions using the three dimensional planning image data so as to mitigate the hypertension, the first and second target regions encompassing neural tissue of or proximate to the first and second renal arteries, respectively, and remodeling the target regions by directing the planned radiation from outside the body toward the target regions.

Abstract: An environmental control system for a battery in a vehicle includes an air intake for receiving ambient air from outside the vehicle. A duct system provides communication between the air intake and the battery. The duct system includes a movable door which can facilitate or inhibit movement of air between the air intake and the battery. An air outlet facilitates air flow from the duct system to the ambient environment outside the vehicle. A fan cooperates with the duct system for moving the air through a heat exchanger in the duct system and across the battery. A control system controls operation of the fan and the movable door, and is configured to determine whether the battery environment requires fresh air or recirculated air.

Abstract: The invention provides a non-invasive system and method for treatment of the heart. In a first aspect, a method for treatment of an anatomical site related to arrhythmogenesis of a heart of a patient comprises creating a target shape encompassing the anatomical site, directing particle beam radiation or x-ray radiation from outside the patient toward the target shape wherein one or more doses of radiation ablates the target shape and disregarding at least one orientation of cardiac motion while creating the target shape or directing the particle beam or both.

Abstract: An environmental control system for a battery in a vehicle includes an air intake for receiving ambient air from outside the vehicle. A duct system provides communication between the air intake and the battery. The duct system includes a movable door which can facilitate or inhibit movement of air between the air intake and the battery. An air outlet facilitates air flow from the duct system to the ambient environment outside the vehicle. A fan cooperates with the duct system for moving the air through a heat exchanger in the duct system and across the battery. A control system controls operation of the fan and the movable door, and is configured to determine whether the battery environment requires fresh air or recirculated air.

Abstract: A system that generates a three-dimensional model of a tissue surface, for example the inner surface of the heart from two-dimensional image data slices. On this surface, one or more pattern lines are drawn, e.g., by a physician using a user interface, to designate desired lesion(s) on the surface. From the pattern lines, a three-dimensional volume for a lesion can be determined using known constraints. Advantageously, the series of boundaries generated by the three-dimensional volume may be projected back onto the individual CT scans, which then may be transferred to a standard radiosurgical planning tool. A dose cloud may also be projected on the model to aid in evaluating a plan.

Abstract: Radiosurgical treatments of tissues of the heart mitigate arrhythmias and treat other tumerous and non-tumerous disease using an implanted fiducial positioned in or near the heart using cardiac catheterization techniques. The fiducials may be implanted after diagnostic and planning images of the target tissues have been acquired. Fiducial implantation may take place the day of a scheduled radiosurgical treatment. Techniques to accommodate post-planning fiducial implantation may include registration of the implanted fiducial location with the treatment plan, and active fiducials may limit collateral imaging radiation exposure while enhancing tracking accuracy.

Abstract: A power supply temperature sensor and system includes a power supply housing configured to receive at least one power supply unit, such as a battery cell. The power supply housing includes an aperture which provides communication between the battery cell and an ambient environment outside the power supply housing. A sensor having a sensing element is configured to sense a temperature of the battery cell, and a sensor housing surrounds at least a portion of the sensor, including at least a portion of the sensing element. This electrically isolates the sensing element from the battery cell. A portion of the sensor housing is configured to be disposed through the aperture in the power supply housing to make contact with the battery cell to facilitate conductive heat transfer between the battery cell and the sensor housing, thereby facilitating an accurate measurement of the temperature of the battery cell.

Abstract: Method and systems are disclosed for radiating a moving target inside a heart. The method includes acquiring sequential volumetric representations of an area of the heart and defining a target tissue region and/or a radiation sensitive structure region in 3D for a first of the representations. The target tissue region and/or radiation sensitive structure region are identified for another of the representations by an analysis of the area of the heart from the first representation and the other representation. Radiation beams to the target tissue region are fired in response to the identified target tissue region and/or radiation sensitive structure region from the other representation.

Abstract: Method and systems are disclosed for radiating a moving target inside a heart. The method includes acquiring sequential volumetric representations of an area of the heart and defining a target tissue region and/or a radiation sensitive structure region in 3D for a first of the representations. The target tissue region and/or radiation sensitive structure region are identified for another of the representations by an analysis of the area of the heart from the first representation and the other representation. Radiation beams to the target tissue region are fired in response to the identified target tissue region and/or radiation sensitive structure region from the other representation.

Abstract: The present invention relates to an arrangement supporting dual mode operation or communication with a core network node using a first and a second mode via a first and a second interface respectively. It comprises parameter handling means adapted to collect or receive first parameters comprising configurable traffic load related parameters and second parameters comprising current network traffic dependent parameters. It also comprises selecting means comprising calculating means adapted to use the configurable parameters and the current parameters of the parameter handling means to select the first or the second mode as operation mode for a connection of a mobile station to the core network.

Abstract: A cooling system and method for cooling a battery in a vehicle is provided. The method includes determining whether the cooling system is operating to cool a passenger compartment in the vehicle, operating the cooling system to cool the battery when it is determined that the cooling system is operating to cool the passenger compartment, and it is determined that at least one predetermined condition is met. The method also includes determining whether an engine in the vehicle is operating, and then operating the cooling system to cool the battery when it is determined that the engine is operating and a battery temperature is greater than a predetermined battery temperature.

Abstract: A battery assembly for a vehicle. The battery assembly includes a plurality of voltage modules and a connection device having conductive and nonconductive portions. The conductive portion contacts the terminals of at least two voltage modules when disposed in a first position. The nonconductive portion may contact at least one terminal of the at least two voltage modules when disposed in a second position.

Abstract: Method and systems are disclosed for radiating a moving target inside a heart. The method includes acquiring sequential volumetric representations of an area of the heart and defining a target tissue region and/or a radiation sensitive structure region in 3D for a first of the representations. The target tissue region and/or radiation sensitive structure region are identified for another of the representations by an analysis of the area of the heart from the first representation and the other representation. Radiation beams to the target tissue region are fired in response to the identified target tissue region and/or radiation sensitive structure region from the other representation.

Abstract: A system and method for rebalancing a battery in a vehicle during vehicle operation, the battery including a plurality of modules, is provided. The method may include determining when an automatic rebalance mode start condition is satisfied, modifying a target state of charge for the battery at least in part in response to the start condition being satisfied such that the target state of charge is raised from a standard operating value to a rebalance value, operating the vehicle with the target state of charge at the rebalance value, determining when an automatic rebalance mode end condition or an interrupt condition is satisfied, and modifying the target state of charge in response to the automatic rebalance mode end condition or the interrupt condition being satisfied such that the target state of charge is lowered from the rebalance value to the standard operating value.

Abstract: A power supply system includes a number of battery cells connected in rows in an end-to-end fashion to form a battery module. A number of these battery modules are placed into a housing to form a battery brick, which is a basic building block that can be used to create a larger battery assembly. The power supply system may include locators to position individual battery cells within a row, to help ensure proper alignment of battery terminals extending outside the battery housing. Terminal connectors can be used to reduce the magnitude of the voltage seen across exposed terminals. The terminal connectors connect two of the battery terminals, while covering, and inhibiting access to, adjacent battery terminals. The power supply system may also include sensor stations to facilitate use of temperature sensors such that uniformity of airflow around the battery cells is maintained regardless of how many temperature sensors are used.

Abstract: The invention provides a non-invasive system and method for treatment of the heart. In a first aspect, a method for treatment of an anatomical site related to arrhythmogenesis of a heart of a patient comprises creating a target shape encompassing the anatomical site, directing particle beam radiation or x-ray radiation from outside the patient toward the target shape wherein one or more doses of radiation ablates the target shape and disregarding at least one orientation of cardiac motion while creating the target shape or directing the particle beam or both.

Abstract: A power supply temperature sensor and system includes a power supply housing configured to receive at least one power supply unit, such as a battery cell. The power supply housing includes an aperture which provides communication between the battery cell and an ambient environment outside the power supply housing. A sensor having a sensing element is configured to sense a temperature of the battery cell, and a sensor housing surrounds at least a portion of the sensor, including at least a portion of the sensing element. This electrically isolates the sensing element from the battery cell. A portion of the sensor housing is configured to be disposed through the aperture in the power supply housing to make contact with the battery cell to facilitate conductive heat transfer between the battery cell and the sensor housing, thereby facilitating an accurate measurement of the temperature of the battery cell.