Patent application number | Description | Published |
20130206985 | 3D BACKSCATTER IMAGING SYSTEM - Systems and methods for imaging an object using backscattered radiation are described. The imaging system comprises both a radiation source for irradiating an object that is rotationally movable about the object, and a detector for detecting backscattered radiation from the object that can be disposed on substantially the same side of the object as the source and which can be rotationally movable about the object. The detector can be separated into multiple detector segments with each segment having a single line of sight projection through the object and so detects radiation along that line of sight. Thus, each detector segment can isolate the desired component of the backscattered radiation. By moving independently of each other about the object, the source and detector can collect multiple images of the object at different angles of rotation and generate a three dimensional reconstruction of the object. Other embodiments are described. | 08-15-2013 |
20130315368 | Handheld X-Ray System for 3D Scatter Imaging - Handheld imaging systems and methods for using such systems to create a 3D image of a desired object using scattered radiation are described. The handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a fan beam or cone beam, and multiple detector elements for detecting backscattered radiation from the object, where each detector element has a different view of the object and collects an image of the object that is different than the other detector elements. Alternatively, the handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a pencil beam of radiation, and a detector configured to detect backscattered radiation from the object, wherein the detector and the radiation source are oriented off-axis relative to each other. The handheld imaging apparatus are used to irradiate a desired object to obtain multiple two dimensional images of the object and then creates a three dimensional image of the object using the multiple two dimensional images. Other embodiments are described. | 11-28-2013 |
20130315369 | Handheld X-Ray System for 3D Scatter Imaging - Handheld imaging systems and methods for using such systems to create a 3D image of a desired object using scattered radiation are described. The handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a fan beam or cone beam, and multiple detector elements for detecting backscattered radiation from the object, where each detector element has a different view of the object and collects an image of the object that is different than the other detector elements. Alternatively, the handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a pencil beam of radiation, and a detector configured to detect backscattered radiation from the object, wherein the detector and the radiation source are oriented off-axis relative to each other. The handheld imaging apparatus are used to irradiate a desired object to obtain multiple two dimensional images of the object and then creates a three dimensional image of the object using the multiple two dimensional images. Other embodiments are described. | 11-28-2013 |
20150348660 | Radiation Shielding and Processes for Producing and Using the Same - Lead-free radiation shielding material and processes for producing and using the same are described. The radiation shielding comprising a heavy metal component, such as bismuth, and a polymer component while also being optically transparent. The bismuth can be bonded to the polymer component or can be embedded within the matrix of the polymer component without being bonded to the polymer. As well, the bismuth can be nanoparticles that are contained within the matrix of the polymer component without being bonded to the polymer. The bismuth provides a stable, environmentally benign alternative to lead, while blocking the radiation and also being optically transparent. Other embodiments are described. | 12-03-2015 |
20150377803 | Handheld X-Ray System for 3D Scatter Imaging - Handheld imaging systems and methods for using such systems to create a 3D image of a desired object using scattered radiation are described. The handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a fan beam or cone beam, and multiple detector elements for detecting backscattered radiation from the object, where each detector element has a different view of the object and collects an image of the object that is different than the other detector elements. Alternatively, the handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a pencil beam of radiation, and a detector configured to detect backscattered radiation from the object, wherein the detector and the radiation source are oriented off-axis relative to each other. The handheld imaging apparatus are used to irradiate a desired object to obtain multiple two dimensional images of the object and then creates a three dimensional image of the object using the multiple two dimensional images. Other embodiments are described. | 12-31-2015 |
Patent application number | Description | Published |
20080221650 | Microwave applicator with adjustable heating length - A microwave applicator for applying microwave radiation to body tissue includes a microwave antenna formed by extending the center conductor of a coaxial cable beyond the end of the outer coaxial conductor and providing a conductive outer tip coupled to the center conductor with a space between the end of the outer conductor and the conductive tip. The length of the expected heating area caused by microwave energy applied to the antenna can be adjusted by positioning a conductive sleeve along the length of the antenna from one end of the antenna to cover a portion of the antenna, the length of the heating area being determined substantially by the length of the uncovered portion of the antenna. Treatment can include positioning one or more applicators into body tissue, adjusting the conductive sleeve with respect to the antenna to adjust the length of the heating area for each of the one or more applicators, and applying microwave energy to the applicators. | 09-11-2008 |
20080228063 | System and method for irradiating a target with electromagnetic radiation to produce a heated region - A system and corresponding method for irradiating a target with electromagnetic radiation to produce a heated region. The system comprises a coupling device operable to couple electromagnetic radiation from a magnetic resonance imaging system. A plurality of energy radiator applicators are connected to the coupling device to receive electromagnetic radiation energy from the coupling device. Each of the radiator applicators is operable to emit a radio frequency heating signal using the electromagnetic radiation energy from the coupling device. A bolus filled with a dielectric fluid is positioned within the inner area of the MRI system. The bolus is operable to receive the radio frequency heating signals from the plurality of energy radiator applicators and direct the radio frequency heating signals into a section of the body to produce a heated region within the body. | 09-18-2008 |
20080319437 | Apparatus and method for selectively heating a deposit in fatty tissue in a body - An apparatus and method for providing hyperthermia treatments to a protruding body portion having fatty tissue surrounding a deposit in the protruding body portion is disclosed. The apparatus includes a cavity for receiving the protruding body portion. A radio frequency antenna array is used to direct a radio frequency signal at a selected frequency into the protruding body portion such as a breast so that the radio frequency signal will have a selected wavelength in the breast to create a circularly polarized radio frequency electromagnetic field to selectively heat the deposit to a temperature greater than the surrounding fatty tissue through resonant heating within the deposit when a diameter of the deposit is within a range of about 0.5 times to 0.16 times the wavelength of the radio frequency signal within the fatty mammary tissue. | 12-25-2008 |
20090306646 | APPARATUS AND METHOD FOR INJECTION ENHANCEMENT OF SELECTIVE HEATING OF A DEPOSIT IN TISSUES IN A BODY - An apparatus and method for providing hyperthermia treatments in a deposit surrounded by tissue in a body is disclosed. A radio frequency antenna array is used to direct a radio frequency signal at a selected frequency into the deposit so that the radio frequency signal will have a selected wavelength in the deposit to selectively heat the deposit to a temperature greater than the surrounding tissue through resonant heating within the deposit. An injectable medium is injected in the deposit to increase a dielectric value and/or conductivity value of the deposit. The injectable medium is selected to increase a specific absorption rate of the radio frequency signal within the deposit relative to the surrounding tissue. | 12-10-2009 |
20100100092 | Apparatus and Method for Selectively Heating a Deposit in Fatty Tissue in a Body - Heat treatment is applied to tissue in need of such treatment which is surrounded by tissue not in need of such treatment, by positioning a deposit within the surrounding tissue adjacent the tissue in need of treatment. The dielectric constant and/or the conductivity of the deposit is greater than that of the surrounding tissue. A radio frequency antenna or antenna array directs a radio frequency signal at a selected frequency into the deposit. The deposit has a diameter within a range of about 0.5 times to about 0.16 times the wavelength of the radio frequency signal within the surrounding tissue. The deposit is heated, at least partially through resonant heating, to a temperature greater than the surrounding tissue to apply heat treatment to the tissue in need of treatment. The deposit may take the form of a balloon of a Mammosite® type device to provide hyperthermia treatment in conjunction with radiation treatment of a breast after a lumpectomy. | 04-22-2010 |
20110118720 | MICROWAVE COAGULATION APPLICATOR AND SYSTEM - A microwave applicator for insertion into living body tissue for use in microwave coagulation and ablation treatments includes a microwave transmission line extending between an attachment end of the applicator and an antenna toward an insertion end of the applicator with an outer conductive sleeve forming an enclosed cooling fluid space around the transmission line. Circulation of cooling fluid is guided in the cooling fluid space by a guide sleeve. A temperature sensor senses the approximate temperature of cooling fluid to indicate cooling fluid is circulating. A multiplexing and power splitting circuit provides outputs tuned for one or for more than one applicator to be attached and detects the number of applicators and correct connection. A cadence sound generator can be used in conjunction with depth markings on the applicator to provide substantially constant withdrawal of the applicator from the treated tissue after treatment to provide track ablation. | 05-19-2011 |
20110118723 | MICROWAVE COAGULATION APPLICATOR AND SYSTEM - A microwave applicator for insertion into living body tissue for use in microwave coagulation and ablation treatments includes a microwave transmission line extending between an attachment end of the applicator and an antenna toward an insertion end of the applicator with an outer conductive sleeve forming an enclosed cooling fluid space around the transmission line. Circulation of cooling fluid is guided in the cooling fluid space by a guide sleeve. A fluid circulation system provides a plurality of fluid supply connectors and fluid return connectors which can be connected and used with any number of applicators between one and the number of the fluid supply connectors provided by the system. A portion of the applicator inserted into the tissue can stick to the tissue to stabilize the applicator during treatment. A warning marking on the applicator can be used during track ablation to prevent ablation of the patient skin tissue. | 05-19-2011 |
20110118724 | MICROWAVE COAGULATION APPLICATOR AND SYSTEM WITH FLUID INJECTION - A microwave applicator for insertion into living body tissue for use in microwave coagulation and ablation treatments includes a microwave transmission line extending between an attachment end of the applicator and an antenna toward an insertion end of the applicator with an outer conductive sleeve forming an enclosed fluid space around the transmission line. A fluid circulation system circulates fluid in the fluid space. A portion of or all of the circulating fluid can be injected into tissue that surrounds the applicator body from approximately the proximal end of a desired heating zone produced by microwave energy radiated from the antenna along the applicator body toward the proximal end of the applicator to hydrate and wet the tissue outside the proximal end of the desired heating zone to reduce the drying of this tissue and limit extension of the heating and ablation zone proximally along the applicator body. | 05-19-2011 |
20110125148 | Multiple Frequency Energy Supply and Coagulation System - An electromagnetic energy supply system for supplying electromagnetic energy signals to an applicator for applying the electromagnetic energy signals to tissue for heating such tissue can supply electromagnetic energy signals of at least one selected frequency of a plurality of frequencies available for selection. The system includes a plurality of individual electromagnetic signal generators each adapted to generate signals of a particular frequency, such as two microwave energy signal generators with one operating at 915 MHz and one operating at 1450 MHz. A system controller coordinates operation of the generators. Each generator is connected to connectors for connecting an applicator or array of applicators for applying the selected frequency electromagnetic energy signals to the tissue to be heated. A power splitting circuit can provide multiple connectors tuned for one or for more than one applicator to be connected. The system can provide a treatment using a single selected frequency, a plurality of selected frequencies simultaneously, or can switch between selected frequencies. | 05-26-2011 |
20110245900 | DEEP HEATING HYPERTHERMIA USING PHASED ARRAYS AND PATIENT POSITIONING - A hyperthermia treatment system for heating a selected region within a target body that includes a power source and a plurality of electromagnetic applicators that are in electrical communication with the power source and arranged in a surrounding array around a focal region to concentrate their combined radiation output onto the focal region. The treatment system also includes a support mechanism that is adapted to support a target body within the surrounding array of applicators, and a positioning mechanism adapted to move the support mechanism and align the selected region within the target body with the focal region. Furthermore, the positioning mechanism is adapted to compensate for movement of the focal region in response to an interaction between the combined radiation output and the target body. | 10-06-2011 |
20140012063 | TISSUE HEATING PREDICTION USING FEEDPOINT EM FIELD DETERMINATION - The accuracy of tissue heating in a body when using a phased array hyperthermia system can be improved by using, in conjunction with the hyperthermia system, a program for predicting heating patterns within the tissue based upon a selected E-field value at each of the antenna energy feedpoints. The hyperthermia system includes circuitry necessary to provide information for calculating the complete EM field at each of the antenna feedpoints during treatment, and such calculated actual feedpoint EM fields are feed to the program to be used in place of the otherwise program generated e-fields in predicting the heating pattern produced by the hyperthermia system during treatment. Further initial operating parameters of the hyperthermia system can be set to produce calculated actual EM fields at the antenna feedpoints which approximate the E-field values used by the program in pretreatment optimizing of the heating pattern. | 01-09-2014 |
20140039483 | Microwave Coagulation Applicator and System - A microwave applicator for insertion into living body tissue for use in microwave coagulation and ablation treatments includes a microwave transmission line extending between an attachment end of the applicator and an antenna toward an insertion end of the applicator with an outer conductive sleeve forming an enclosed cooling fluid space around the transmission line. Circulation of cooling fluid is guided in the cooling fluid space by a guide sleeve. A fluid circulation system provides a plurality of fluid supply connectors and fluid return connectors which can be connected and used with any number of applicators between one and the number of the fluid supply connectors provided by the system. A portion of the applicator inserted into the tissue can stick to the tissue to stabilize the applicator during treatment. A warning marking on the applicator can be used during track ablation to prevent ablation of the patient skin tissue. | 02-06-2014 |