Patent application number | Description | Published |
20090005727 | Acoustically controlled substance delivery device - Embodiments of a system including a remotely controlled substance delivery device and associated controller are described. Methods of use and control of the device are also disclosed. According to some embodiments, a delivery device or related device may be placed in an environment in order to pump a material into the environment or into an additional fluid handling structure within the device. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. The concentration of a substance in the fluid to be delivered may be modified by a remote control signal. In selected embodiments, an acoustic control signal may be used. | 01-01-2009 |
20090018704 | Method and system for control of osmotic pump device - Embodiments of a system including a remotely controlled osmotic pump device and associated controller are described. Methods of use and control of the device are also disclosed. According to some embodiments, an osmotic pump device is placed in an environment in order to pump a material into the environment or into an additional fluid handling structure within the osmotic pump device. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. In selected embodiments, a magnetic field, an electric field, or electromagnetic control signal may be used. | 01-15-2009 |
20090024114 | Method and system for control of osmotic pump device - Embodiments of a system including a remotely controlled osmotic pump device and associated controller are described. Methods of use and control of the device are also disclosed. According to some embodiments, an osmotic pump device is placed in an environment in order to pump a material into the environment or into an additional fluid handling structure within the osmotic pump device. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. In selected embodiments, a magnetic field, an electric field, or electromagnetic control signal may be used. | 01-22-2009 |
20090054877 | Acoustically controlled substance delivery device - Embodiments of a system including a remotely controlled substance delivery device and associated controller are described. Methods of use and control of the device are also disclosed. According to some embodiments, a delivery device or related device may be placed in an environment in order to pump a material into the environment or into an additional fluid handling structure within the device. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. The concentration of a substance in the fluid to be delivered may be modified by a remote control signal. In selected embodiments, an acoustic control signal may be used. | 02-26-2009 |
20090162249 | Acoustically controlled reaction device - Embodiments of a system including a remotely controlled reaction device and associated controller are described. Methods of use and control of the device are also disclosed. According to various embodiments, a reaction device is placed in an environment in order to perform a chemical reaction in an environment. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. In selected embodiments, an acoustic control signal may be used. | 06-25-2009 |
20090162250 | Acoustically controlled reaction device - Embodiments of a system including a remotely controlled reaction device and associated controller are described. Methods of use and control of the device are also disclosed. According to various embodiments, a reaction device is placed in an environment in order to perform a chemical reaction in an environment. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. In selected embodiments, an acoustic control signal may be used. | 06-25-2009 |
20090171422 | Radiation treatment device - Embodiments include an apparatus, a medical device, a method and a system. The medical device includes an ellipsoidally-shaped reflector having a first focus and a second focus. The ellipsoidally-shaped reflector also provides a translational coupling of electromagnetic energy from the first focus to the second focus. The medical device also includes a controllable electromagnetic energy source aligned to emit a non-biologically emitted electromagnetic energy in a proximity to the first focus. | 07-02-2009 |
20090221898 | Shaped surgical tool - A custom medical device may be fabricated based on a patient image with a rapid prototyping machine. | 09-03-2009 |
20090222059 | Shaped implantation device - A custom medical device for implanting an implantable device may be fabricated based on a patient image with a rapid prototyping machine. | 09-03-2009 |
20100030185 | Remote controller for substance delivery system - Embodiments of a system including a remotely controlled substance delivery device and associated controller are described. Methods of use and control of the device are also disclosed. According to some embodiments, a delivery device or related device may be placed in an environment in order to pump a material into the environment or into an additional fluid handling structure within the device. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. The concentration of a substance in the fluid to be delivered may be modified by a remote control signal. In selected embodiments, a magnetic field, an electric field, or electromagnetic control signal may be used. | 02-04-2010 |
20100076414 | Remote control of substance delivery system - Embodiments of a system including a remotely controlled substance delivery device and associated controller are described. Methods of use and control of the device are also disclosed. According to some embodiments, a delivery device or related device may be placed in an environment in order to pump a material into the environment or into an additional fluid handling structure within the device. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. The concentration of a substance in the fluid to be delivered may be modified by a remote control signal. In selected embodiments, a magnetic field, an electric field, or electromagnetic control signal may be used. | 03-25-2010 |
20100076415 | Remote control of substance delivery system - Embodiments of a system including a remotely controlled substance delivery device and associated controller are described. Methods of use and control of the device are also disclosed. According to some embodiments, a delivery device or related device may be placed in an environment in order to pump a material into the environment or into an additional fluid handling structure within the device. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. The concentration of a substance in the fluid to be delivered may be modified by a remote control signal. In selected embodiments, a magnetic field, an electric field, or electromagnetic control signal may be used. | 03-25-2010 |
20100274240 | Electromagnetic device and method - Embodiments include an apparatus, a medical device, a method and a system. The medical device includes an ellipsoidally shaped reflector having a first focus and a second focus. The ellipsoidally shaped reflector also provides a translational coupling of electromagnetic energy from the first focus to the second focus. The medical device also includes a controllable electromagnetic energy source aligned to emit a non-biologically emitted electromagnetic energy in a proximity to the first focus. | 10-28-2010 |
20110050431 | Beverage containers with detection capability - Methods and systems described herein include individual-use beverage containers including sensors and methods of their use. Beverage containers include: a vessel body configured to hold a beverage; and at least one sensor associated with the vessel body, the at least one sensor including a sensor configured to detect one or more substance in a fluid. Systems include: at least one beverage container including at least one sensor configured to detect one or more substance in fluid; and at least one external device including at least one port configured for communication with the at least one sensor. Methods include: detecting one or more substance within fluid with at least one sensor integral to a beverage container; and interfacing one or more of the at least one sensor with an external device. | 03-03-2011 |
20110053173 | Game with detection capability - Methods and systems are described herein relating to game systems. In one aspect, a game system includes: at least one game component configured for use in a game system by an individual player; at least one sensor system operably connected to the at least one game component and configured to detect one or more analyte, the at least one sensor system including a signal transmitter; at least one signal detector configured to detect a signal transmitted from the at least one sensor system; and at least one principal game unit operably connected to the at least one signal detector, the at least one principal game unit including at least one signal transmitter configured to transmit a signal responsive to the at least one signal detector. | 03-03-2011 |
20110053283 | Beverage Immersate with detection capability - Methods and systems described herein include beverage immersates and methods of their use. Systems include: at least one beverage immersate, wherein the at least one beverage immersate includes at least one sensor configured to detect at least one analyte in a fluid within a personal use beverage container; and at least one signal transmitter configured to transmit a signal responsive to the at least one beverage immersate. Methods include: detecting one or more analyte in fluid within a personal use beverage container with at least one sensor integral to at least one beverage immersate; and communicating data from the at least one beverage immersate to at least one device external to the beverage immersate. | 03-03-2011 |
20110054938 | Devices and methods for detecting an analyte in salivary fluid - Methods and systems are described herein for detecting one or more analyte in salivary fluid. Systems include: a discrete oral component configured for complete enclosure in a human oral cavity; at least one sensor configured to detect one or more analyte in salivary fluid; and an external device including a port configured for communication with the discrete oral component. Methods include: detecting one or more analyte within salivary fluid with at least one sensor integral to a discrete oral component, wherein the discrete oral component is configured to be completely enclosed in the oral cavity and includes one or more flavorant; and communicating information from the discrete oral component to at least one external device. | 03-03-2011 |
20120271228 | SUBSTANCE DELIVERY SYSTEM - Embodiments of a system including a remotely controlled substance delivery device and associated controller are described. Methods of use and control of the device are also disclosed. According to some embodiments, a delivery device or related device may be placed in an environment in order to pump a material into the environment or into an additional fluid handling structure within the device. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. The concentration of a substance in the fluid to be delivered may be modified by a remote control signal. In selected embodiments, a magnetic field, an electric field, or electromagnetic control signal may be used. | 10-25-2012 |
20120289943 | OSMOTIC PUMP WITH REMOTELY CONTROLLED OSMOTIC FLOW RATE - Embodiments of a system including a remotely controlled osmotic pump device and associated controller are described. Methods of use and control of the device are also disclosed. According to some embodiments, an osmotic pump device is placed in an environment in order to pump a material into the environment or into an additional fluid handling structure within the osmotic pump device. Exemplary environments include a body of an organism, a body of water, or an enclosed volume of a fluid. In selected embodiments, a magnetic field, an electric field, or electromagnetic control signal may be used. | 11-15-2012 |