Patent application number | Description | Published |
20090041189 | ADAPTIVE X-RAY CONTROL - A method, apparatus and system for measuring the signal-to-noise ratio of x-ray images and to adaptively control x-ray exposure in response to image quality and patient movement. | 02-12-2009 |
20090118722 | METHOD AND APPARATUS FOR COOLING SUBCUTANEOUS LIPID-RICH CELLS OR TISSUE - A system for reducing subcutaneous lipid-rich cells or tissue of a subject is disclosed. The system may include a fluid supply, a probe in fluid communication with the fluid supply, and a coolant circulated between the fluid supply and the probe. The probe may be configured to be inserted into the subject to be at least proximate to the subcutaneous lipid rich cells. The coolant may be at a temperature such that the subcutaneous lipid-rich cells or tissue proximate to the inserted probe are cooled. | 05-07-2009 |
20090252301 | METHOD AND APPARATUS FOR PATIENT LOADING AND UNLOADING - A method and apparatus of a positioning system are described to position an upper-half of a body relative to a head-end of a couch. The positioning system may be a patient positioning system and may include a treatment couch, a leg rest coupled to the treatment couch, and a drive mechanism coupled to the leg rest. The patient positioning system may also include a treatment couch, having a base portion of a treatment couch and plurality of detachable portions of the treatment couch. The plurality of detachable portions to adjust a height of the treatment couch to accommodate differing heights of patients. | 10-08-2009 |
20100081971 | TREATMENT PLANNING SYSTEMS AND METHODS FOR BODY CONTOURING APPLICATIONS - Methods and system for treatment planning for non- and minimally-invasive alteration of body adipose tissue for reduction and contouring of body fat are described herein. Treatment plans can be generated by capturing current body part data (e.g., positioning, contour/shape, thickness of adipose tissue, etc.), determining desired outcome of treatment (e.g., percent reduction of adipose tissue thickness, degree of contour change, etc.), and determining treatment parameters to achieve desired results. Algorithms can be used to determine best-fit treatment parameters to use in treatment sessions. In some embodiments, the system can provide a predictive end-result image for communication to patient and/or for determining alteration of desired outcome. In various embodiments, real-time monitoring of feedback data can be used to determine treatment plan efficacy. Additional algorithms can provide real-time comparison of feedback data to anticipated feedback data, and can be used to change treatment parameters in real-time to achieve desired effects. | 04-01-2010 |
20100152824 | SYSTEMS AND METHODS WITH INTERRUPT/RESUME CAPABILITIES FOR TREATING SUBCUTANEOUS LIPID-RICH CELLS - Systems for removing heat from a subject's subcutaneous lipid-rich regions, such as tissue, organs, cells, and so forth, are described herein. In various embodiments, the system includes a treatment device and a controller for controlling a treatment process. The controller is configured to detect and compensate for an interruption in the treatment process. | 06-17-2010 |
20100280582 | DEVICE, SYSTEM AND METHOD OF REMOVING HEAT FROM SUBCUTANEOUS LIPID-RICH CELLS - Devices, systems and methods for removing heat from subcutaneously disposed lipid-rich cells are disclosed. In selected embodiments, suction and/or heat removal sources are coupled to an applicator. The applicator includes a flexible portion and a rigid portion. The rigid portion includes a thermally conductive plate and a frame coupling the thermally conductive plate and the flexible portion. An interior cavity of the applicator is in fluid communication with the suction source, and the frame maintains contiguous engagement between the heat removal source and the thermally conductive plate. | 11-04-2010 |
20110238050 | HOME-USE APPLICATORS FOR NON-INVASIVELY REMOVING HEAT FROM SUBCUTANEOUS LIPID-RICH CELLS VIA PHASE CHANGE COOLANTS, AND ASSOCIATES DEVICES, SYSTEMS AND METHODS - Home-use applicators for non-invasively removing heat from subcutaneous, lipid-rich cells via phase change coolants, and associated devices, systems and methods. A device in accordance with a particular embodiment includes an applicator releasably positionable in thermal communication with human skin, and a coolant vessel having a coolant. The device further includes a heat transfer conduit operatively coupled to the applicator and housing a heat transfer fluid that is isolated from fluid contact with the coolant. A heat exchanger is operatively coupled between the coolant vessel and the heat transfer conduit to transfer heat between the heat transfer fluid and the coolant, and a fluid driver is operatively coupled to the heat transfer conduit to direct the heat transfer fluid between the applicator and the heat exchanger. | 09-29-2011 |
20110238051 | HOME-USE APPLICATORS FOR NON-INVASIVELY REMOVING HEAT FROM SUBCUTANEOUS LIPID-RICH CELLS VIA PHASE CHANGE COOLANTS, AND ASSOCIATED DEVICES, SYSTEMS AND METHODS - Home-use applicators for non-invasively removing heat from subcutaneous, lipid-rich cells via phase change coolants, and associated devices, systems and methods. A device in accordance with a particular embodiment includes an applicator releasably positionable in thermal communication with human skin, and a coolant vessel having a coolant. The device further includes a heat transfer conduit operatively coupled to the applicator and housing a heat transfer fluid that is isolated from fluid contact with the coolant. A heat exchanger is operatively coupled between the coolant vessel and the heat transfer conduit to transfer heat between the heat transfer fluid and the coolant, and a fluid driver is operatively coupled to the heat transfer conduit to direct the heat transfer fluid between the applicator and the heat exchanger. | 09-29-2011 |
20120213333 | ADAPTIVE X-RAY CONTROL - Controlling the timing of acquiring x-ray images based on target movement. | 08-23-2012 |
20130158440 | TREATMENT PLANNING SYSTEMS AND METHODS FOR BODY CONTOURING APPLICATION - Methods and system for treatment planning for non- and minimally-invasive alteration of body adipose tissue for reduction and contouring of body fat are described herein. Treatment plans can be generated by capturing current body part data (e.g., positioning, contour/shape, thickness of adipose tissue, etc.), determining desired outcome of treatment (e.g., percent reduction of adipose tissue thickness, degree of contour change, etc.), and determining treatment parameters to achieve desired results. Algorithms can be used to determine best-fit treatment parameters to use in treatment sessions. In some embodiments, the system can provide a predictive end-result image for communication to patient and/or for determining alteration of desired outcome. In various embodiments, real-time monitoring of feedback data can be used to determine treatment plan efficacy. Additional algorithms can provide real-time comparison of feedback data to anticipated feedback data, and can be used to change treatment parameters in real-time to achieve desired effects. | 06-20-2013 |
20130245731 | SYSTEMS AND METHODS WITH INTERRUPT/RESUME CAPABILITIES FOR TREATING SUBCUTANEOUS LIPID-RICH CELLS - Systems for removing heat from a subject's subcutaneous lipid-rich regions, such as tissue, organs, cells, and so forth, are described herein. In various embodiments, the system includes a treatment device and a controller for controlling a treatment process. The controller is configured to detect and compensate for an interruption in the treatment process. | 09-19-2013 |
20140257443 | DEVICE, SYSTEM AND METHOD OF REMOVING HEAT FROM SUBCUTANEOUS LIPID-RICH CELLS - Devices, systems and methods for removing heat from subcutaneously disposed lipid-rich cells are disclosed. In selected embodiments, suction and/or heat removal sources are coupled to an applicator. The applicator includes a flexible portion and a rigid portion. The rigid portion includes a thermally conductive plate and a frame coupling the thermally conductive plate and the flexible portion. An interior cavity of the applicator is in fluid communication with the suction source, and the frame maintains contiguous engagement between the heat removal source and the thermally conductive plate. | 09-11-2014 |