Patent application number | Description | Published |
20080242968 | Sequential image acquisition with updating method and system - In accordance with embodiments of the present, a method for acquiring an image is provided. The method comprises acquiring initial image data, identifying one or more regions of interest in at least one of the initial image data or in a first image generated from the initial image data. The method further comprises automatically deriving one or more scan parameters based upon the regions of interest, and acquiring second image data using the scan parameters. | 10-02-2008 |
20080242979 | Combined X-ray detector and ultrasound imager - An imaging system is disclosed that includes a first imaging panel and a second imaging panel disposed about an imaging volume. The imaging panels may be configured to image the entire imaging volume and may include panels using any form of acoustic or electromagnetic energy such as ultrasound panels, optical panels, electrical impedance panels, field emitter/x-ray detector panels, or a combination thereof. In one embodiment, a first group of sensors are included in a 2D matrix of sensors configured to transmit ultrasound through the imaging volume to a second group of sensors included in a second 2D matrix of sensors and vice versa. In a second embodiment the system may further include a second imaging system having a transmitter, a receiver, or both, disposed adjacent the first imaging panel, the second imaging panel, or both. A third embodiment may include at least one additional imaging panel. | 10-02-2008 |
20100286518 | ULTRASOUND SYSTEM AND METHOD TO DELIVER THERAPY BASED ON USER DEFINED TREATMENT SPACES - An ultrasound imaging and therapy system is provided that includes an ultrasound probe and a diagnostic module to control the probe to obtain diagnostic ultrasound signals from a region of interest (ROI) of the patient. The ROI includes adipose tissue and the diagnostic module generates a diagnostic image of the ROI based on the ultrasound signals obtained. The system also includes a display to display the image of the ROI and a user interface to accept user inputs to designate a treatment space within the ROI that corresponds to the adipose tissue. The display displays the treatment space on the image. The system also includes a therapy module to control the probe to deliver, during a therapy session, a therapy to a treatment location based on a therapy parameter. The treatment location is within the treatment space defined by the user inputs. | 11-11-2010 |
20100286519 | ULTRASOUND SYSTEM AND METHOD TO AUTOMATICALLY IDENTIFY AND TREAT ADIPOSE TISSUE - An ultrasound imaging and therapy system that includes an ultrasound probe and an ultrasound diagnostic module to control the probe to obtain diagnostic ultrasound signals from a region of interest (ROI). The ROI includes adipose tissue and non-adipose tissue. The diagnostic module analyzes the diagnostic ultrasound signals and automatically differentiates adipose tissue from non-adipose tissue. The system also includes an ultrasound therapy module to control the probe to deliver, during a therapy session, a therapy at a treatment location based on a therapy parameter to the adipose tissue differentiated by the ultrasound diagnostic module. A method for delivering therapy to a region of interest (ROI) in a patient is also provided. | 11-11-2010 |
20130226003 | FRACTIONAL FLOW RESERVE ESTIMATION - Approaches for assessing hemodynamic characteristics for an organ of interest are related. In one implementation, a fluid dynamics model may be provided with data derived from an anatomic imaging modality and blood flow information derived by ultrasound to derive the desired hemodynamic characteristics. In one such implementation, a fractional flow reserve is estimated. | 08-29-2013 |
20140005535 | FRACTIONAL FLOW RESERVE ESTIMATION | 01-02-2014 |
20140275962 | METHODS AND SYSTEMS USING MAGNETIC RESONANCE AND ULTRASOUND FOR TRACKING ANATOMICAL TARGETS FOR RADIATION THERAPY GUIDANCE - Methods and systems using magnetic resonance and ultrasound for tracking anatomical targets for radiation therapy guidance are provided. One system includes a patient transport configured to move a patient between and into a magnetic resonance (MR) system and a radiation therapy (RT) system and an ultrasound transducer coupled to the patient transport, wherein the ultrasound transducer is configured to acquire four-dimensional (4D) ultrasound images concurrently with one of an MR acquisition or an RT radiation therapy session. The system also includes a controller having a processor configured to use the 4D ultrasound images and MR images from the MR system to control at least one of a photon beam spatial distribution or intensity modulation generated by the RT system. | 09-18-2014 |