Patent application number | Description | Published |
20080200963 | IMPLANTABLE POWER GENERATOR - The implantable power generator of the preferred embodiments includes a cardiac restraint device and a generator that generates electrical energy in response to a mechanical force. The generator is coupled to the cardiac restraint device such that it receives a mechanical force and generates electrical energy in response to the mechanical force. The generator of the preferred embodiments includes a transducer that generates electrical energy in response to a mechanical force and an electrode coupled to the transducer that collects the electrical energy generated by the transducer. The implantable power generator is preferably designed for the power generation field, and more specifically to a new and useful implantable power generator coupled to a cardiac restraint device. The implantable power generator, however, may be alternatively used in any suitable environment and for any suitable reason. | 08-21-2008 |
20080218311 | PATIENT IDENTIFICATION SYSTEM - The patient identification system of the preferred embodiments includes a transponder that is affixed to a patient and functions to communicate information that identifies the patient to a device or series of devices. The series of devices includes at least a first device that collects data from the patient and communicates with the transponder. The patient identification system is preferably designed to identify a patient, and more specifically to identify a patient to be associated with the data collected by the device. The patient identification system, however, may be alternatively used in any suitable environment and for any suitable reason. | 09-11-2008 |
20090112273 | SYSTEMS, METHODS AND DEVICES FOR A SKULL/BRAIN INTERFACE - A method is disclosed for conveying a form of neuromodulation (e.g., electrical, chemical, optical, or thermal) from an external neuromodulation source interiorly of the skull to modulate neural activity. The method involves forming one or more apertures through or partially through the skull to provide an interface for delivering the neuromodulation. A method is disclosed for sensing one or more parameters characteristic of one or more states of the brain through an interface formed with one or more apertures extending all the way or part of the way through the skull. A device is disclosed that is implantable in the skull of a human patient to provide an interface between the exterior of the skull and the brain that includes a channel of a length sufficient to traverse the entire thickness of the skull or at least a part of the thickness of the skull. The channels may be provided in a wide variety of shapes and sizes with or without inner lumens. The channels may be configured for ion conduction of electrical signals, enabling DC or near DC stimulation of target neurons. Methods and devices for transferring energy (e.g., thermal energy) generated inside the skull to the outside of the skull and vice versa are also disclosed. | 04-30-2009 |
20090112277 | SYSTEMS, METHODS AND DEVICES FOR A SKULL/BRAIN INTERFACE - A method is disclosed for conveying a form of neuromodulation (e.g., electrical, chemical, optical, or thermal) from an external neuromodulation source interiorly of the skull to modulate neural activity. The method involves forming one or more apertures through or partially through the skull to provide an interface for delivering the neuromodulation. A method is disclosed for sensing one or more parameters characteristic of one or more states of the brain through an interface formed with one or more apertures extending all the way or part of the way through the skull. A device is disclosed that is implantable in the skull of a human patient to provide an interface between the exterior of the skull and the brain that includes a channel of a length sufficient to traverse the entire thickness of the skull or at least a part of the thickness of the skull. The channels may be provided in a wide variety of shapes and sizes with or without inner lumens. The channels may be configured for ion conduction of electrical signals, enabling DC or near DC stimulation of target neurons. Methods and devices for transferring energy (e.g., thermal energy) generated inside the skull to the outside of the skull and vice versa are also disclosed. | 04-30-2009 |
20090112278 | Systems, Methods and Devices for a Skull/Brain Interface - Disclosed are methods, devices, and systems for inducing neuromodulation by focusing a source of stimulation through a skull/brain interface in the form of an aperture formed in the skull, a naturally occurring fenestration in the skull, or a transcranial channel. Further disclosed are methods, devices, and systems for identifying where to locate skull/brain interfaces, accessories that can be used with the interfaces, and features for controlling stimulation delivered through the interfaces. Multiple indications for the skull/brain interfaces are also disclosed, including diagnosis and treatment of neurological disorders and conditions such as epilepsy, movement disorders, depression, Alzheimer's disease, autism, coma, and pain. | 04-30-2009 |
20090112279 | SYSTEMS, METHODS AND DEVICES FOR A SKULL/BRAIN INTERFACE - Systems, methods and devices are disclosed for directing and focusing signals to the brain for neuromodulation and for directing and focusing signals or other energy from the brain for measurement, heat transfer and imaging. An aperture in the skull and/or a channel device implantable in the skull can be used to facilitate direction and focusing. Treatment and diagnosis of multiple neurological conditions may be facilitated with the disclosed systems, methods and devices. | 04-30-2009 |
20090112280 | SYSTEMS, METHODS AND DEVICES FOR A SKULL/BRAIN INTERFACE - Systems, methods and devices are disclosed for directing and focusing signals to the brain for neuromodulation and for directing and focusing signals or other energy from the brain for measurement, heat transfer and imaging. An aperture in the skull and/or a channel device implantable in the skull can be used to facilitate direction and focusing. Treatment and diagnosis of multiple neurological conditions may be facilitated with the disclosed systems, methods and devices. | 04-30-2009 |
20100012049 | CAVITATION HEATING SYSTEM AND METHOD - The cavitation heating system of the preferred embodiment includes a reservoir to contain an operating fluid, and a cavitator subsystem with an inlet to receive the operating fluid from the reservoir, a cavitator to cavitate the operating fluid, and an outlet to transfer the cavitated operating fluid to the reservoir. The cavitation of the operating fluid generates heat. The cavitation heating system may use various techniques either singly or in combination to increase the heat generated from the cavitation of the operating fluid, including: the use of oil as an operating fluid, the addition of dissolved noble gases in the operating fluid, the use of a pump to create jets that cavitate the operating fluid in a vessel and heat the operating fluid, and the use and control of pressure on the cavitation of the operating fluid. | 01-21-2010 |
20100101942 | ELECTROLYTIC CELL WITH CAVITATING JET - The electrolytic cell of the preferred embodiment includes an electrode pair and a cavitating jet. The electrode pair includes a cathode electrode and an anode electrode and defines an electrical path between the cathode electrode and the anode electrode. The cavitating jet, which is located along the electrical path between the cathode electrode and the anode electrode, functions to cavitate a fluid, such as water. The electrode pair and the cavitating jet cooperate to initiate a plasma state in the water. The water in the plasma state acts a virtual electrode with a higher current density than the cathode electrode and/or anode electrode. The plasma virtual electrode, through thermolysis and/or electrolysis, produces hydrogen. | 04-29-2010 |
20120271334 | Apparatus and Method for Ablating Tissue - A control system alters one or more characteristics of an ablating element to ablate tissue. In one aspect, the control system delivers energy nearer to the surface of the tissue by changing the frequency or power. In another aspect, the ablating element delivers focused ultrasound which is focused in at least one dimension. The ablating device may also have a number of ablating elements with different characteristics such as focal length. | 10-25-2012 |
20130106583 | Patient Identification System | 05-02-2013 |
20140197931 | PATIENT IDENTIFICATION SYSTEM - The patient identification system of the preferred embodiments includes a transponder that is affixed to a patient and functions to communicate information that identifies the patient to a device or series of devices. The series of devices includes at least a first device that collects data from the patient and communicates with the transponder. The patient identification system is preferably designed to identify a patient, and more specifically to identify a patient to be associated with the data collected by the device. The patient identification system, however, may be alternatively used in any suitable environment and for any suitable reason. | 07-17-2014 |
20140296646 | SYSTEMS, METHODS AND DEVICES FOR A SKULL/BRAIN INTERFACE - Disclosed are methods, devices, and systems for inducing neuromodulation by focusing a source of stimulation through a skull/brain interface in the form of an aperture formed in the skull, a naturally occurring fenestration in the skull, or a transcranial channel. Further disclosed are methods, devices, and systems for identifying where to locate skull/brain interfaces, accessories that can be used with the interfaces, and features for controlling stimulation delivered through the interfaces. Multiple indications for the skull/brain interfaces are also disclosed, including diagnosis and treatment of neurological disorders and conditions such as epilepsy, movement disorders, depression, Alzheimer's disease, autism, coma, and pain. | 10-02-2014 |
20150025408 | SYSTEMS, METHODS AND DEVICES FOR A SKULL/BRAIN INTERFACE - Systems, methods and devices are disclosed for directing and focusing signals to the brain for neuromodulation and for directing and focusing signals or other energy from the brain for measurement, heat transfer and imaging. An aperture in the skull and/or a channel device implantable in the skull can be used to facilitate direction and focusing. Treatment and diagnosis of multiple neurological conditions may be facilitated with the disclosed systems, methods and devices. | 01-22-2015 |
20150025610 | SYSTEMS, METHODS AND DEVICES FOR A SKULL/BRAIN INTERFACE - Systems, methods and devices are disclosed for directing and focusing signals to the brain for neuromodulation and for directing and focusing signals or other energy from the brain for measurement, heat transfer and imaging. An aperture in the skull and/or a channel device implantable in the skull can be used to facilitate direction and focusing. Treatment and diagnosis of multiple neurological conditions may be facilitated with the disclosed systems, methods and devices. | 01-22-2015 |
20150038822 | SYSTEMS, METHODS AND DEVICES FOR A SKULL/BRAIN INTERFACE - Systems, methods and devices are disclosed for directing and focusing signals to the brain for neuromodulation and for directing and focusing signals or other energy from the brain for measurement, heat transfer and imaging. An aperture in the skull and/or a channel device implantable in the skull can be used to facilitate direction and focusing. Treatment and diagnosis of multiple neurological conditions may be facilitated with the disclosed systems, methods and devices. | 02-05-2015 |
20150039066 | SYSTEMS, METHODS AND DEVICES FOR A SKULL/BRAIN INTERFACE - Systems, methods and devices are disclosed for directing and focusing signals to the brain for neuromodulation and for directing and focusing signals or other energy from the brain for measurement, heat transfer and imaging. An aperture in the skull and/or a channel device implantable in the skull can be used to facilitate direction and focusing. Treatment and diagnosis of multiple neurological conditions may be facilitated with the disclosed systems, methods and devices. | 02-05-2015 |