Patent application number | Description | Published |
20130296701 | PLAYBACK MODE IN AN OPTOACOUSTIC IMAGING SYSTEM - An optoacoustic imaging system includes a handheld probe and a computing subsystem. The probe includes an ultrasound transducer array, the array being capable of receiving an acoustic return signal. The system further includes a light source capable of generating pulses of light and delivering the pulses to the handheld probe. The computing subsystem generates images from the acoustic return signal, and the subsystem is configured to store raw data frames in a buffer. Upon actuation of a playback mode via the user input device, the computing subsystem is caused to switch from a live mode wherein images from the acoustic return signal are displayed substantially in real time to the playback mode wherein images are generated from the frames stored in the buffer. One or more parameters affecting processing of the frames into an output image displayed upon the display can be enabled during the playback mode such that the output image varies from an image generated from the frame when the system is not in the playback mode. In this manner, the user can play back an area of interest using alternative filters that highlight different physiological features of the region of interest, alternative modes of display, and other alternative parameters. | 11-07-2013 |
20130335441 | System and method for procucing parametric maps of optoacoustic data - A method is disclosed for creating and outputting a masked parametric map that reflects parameters in a first parametric map and second parametric map. First and second parametric maps are generated, and then a masked parametric map that reflects parameters in the first and second parametric maps is generated. The first parametric map may be based upon portions of two optoacoustic images created using differing wavelengths of light. The first parametric map is reflective of areas within the volume of tissue that have a differing response to the longer wavelength light event compared to the shorter one. The second parametric map is reflective of areas within the volume of tissue that have a stronger response to the longer and shorter wavelength light events than the surrounding areas. A masked parametric map is output which is reflective of a combination of information in the first and second parametric maps. | 12-19-2013 |
20130336551 | System and method for acquiring optoacoustic data and producing parametric maps thereof - A method is disclosed for generating sinograms by sampling a plurality of transducers acoustically coupled with the surface of a volume of tissue over a period of time after a light pulse at one wavelength, and after another light pulse at a different wavelength, and for processing those sinograms, reconstructing at least two optoacoustic images from the two sinograms, processing the two optoacoustic images to generate two envelope images and generating a parametric map from information in the two envelope images. In an embodiment, motion and tracking are determined to align the envelope images. In an embodiment, at least a second parametric map is produced from information in the same two envelope images. In an embodiment an ultrasound image is also acquired, and the parametric map is coregistered with and overlayed upon the ultrasound image, and then displayed. | 12-19-2013 |
20140005544 | SYSTEM AND METHOD FOR PROVIDING SELECTIVE CHANNEL SENSITIVITY IN AN OPTOACOUSTIC IMAGING SYSTEM | 01-02-2014 |
20140012124 | SYSTEM AND METHOD FOR DETECTING ANOMALOUS CHANNEL IN AN OPTOACOUSTIC IMAGING SYSTEM - Described is system and method for detecting anomalous channels in an optoacoustic imaging system in which transducer elements are acoustically coupled with a portion of the surface of a volume of tissue and a pulse of light is directed onto an area of the surface, the pulse imparting less than a predetermined fluence upon the surface. A sinogram is recorded by sampling transducers acoustically coupled with the surface of the volume for a predetermined period of time after the pulse of light to record data reflecting the optoacoustic response of the volume of tissue to the pulse, the samples for each transducer corresponding to a channel. The sinogram is analyzed for the presence of one or more anomalous channels, and the sinogram samples corresponding with the anomalous channels are modified to reduce the affect of the anomalous channel on an image reconstructed from the sinogram. | 01-09-2014 |
20140036091 | INTERFRAME ENERGY NORMALIZATION IN AN OPTOACOUSTIC IMAGING SYSTEM - An optoacoustic imaging system includes a handheld probe and first and second pulsed light sources having a common output. The first and second light sources generate pulses of light at first and second predominant wavelengths, respectively. The handheld probe includes an ultrasound transducer array having an active end located at the distal end of the handheld probe for receiving an optoacoustic return signal. A sensor measures a portion of the light transmitted along the light path. A data acquisition samples the ultrasound transducer array during a predetermined period of time after a pulse of light from the first light source and during a predetermined period of time after a pulse of light from the second light source. The sampled data is stored. An image processing unit reconstructs a first optoacoustic image based on the sampled data corresponding to a pulse of light from the first light source and reconstructs a second optoacoustic image based on the sampled data corresponding to a pulse of light from the second light source. An energy normalizing unit computes a normalization factor based on a measurement from each sensor in the array and applies the normalization factor to data corresponding to the pulse of light. | 02-06-2014 |
20140093150 | STATISTICAL MAPPING IN AN OPTOACOUSTIC IMAGING SYSTEM - Electromagnetic energy is deposited into a volume, an acoustic return signal from energy deposited in the volume is measured, and a parametric map that estimates values of at least one parameter as spatially represented in the volume is computed. A reference level of a region of interest is determined, and upper and lower color map limits are specified, with at least one of them being determined in relation to the reference level. The parametric map is then rendered in the palette of a color map by mapping the estimated values of the parametric map onto the color map according to the color map limits. Two wavelengths of energy can be applied to the volume, and the parametric map computation can be adapted by applying an implicit or explicit model of, or theoretical basis for, distribution of electromagnetic energy fluence within the volume pertaining to the two wavelengths. The actual electromagnetic energy fluence caused by each wavelength has a propensity, due to variability within the volume, to differ from the modeled or theoretical electromagnetic energy fluence. | 04-03-2014 |
20140185899 | SYSTEM AND METHOD FOR ACQUIRING OPTOACOUSTIC DATA AND PRODUCING PARAMETRIC MAPS USING INTERFRAME PERSISTENT ARTIFACT REMOVAL - The quality of a parametric map is improved based upon information contained in optoacoustic images. Frames are acquired by a multi-wavelength optoacoustic imaging system. A first sub-set including uncorrelated frames from a first wavelength is generated. A first interframe artifact estimate is generated. The first artifact estimate is applied to a frame from a first wavelength to mitigate the interframe persistent artifact in the frame, creating a first processed frame. A second sub-set including uncorrelated frames from a second wavelength is generated. A second interframe artifact estimate is generated. The second artifact estimate is applied to a frame from the second wavelength to mitigate the artifact in the frame from the second wavelength, creating a second processed frame. A parametric map is generated from information in the first processed frame and information in the second processed frame. | 07-03-2014 |
20140219530 | SYSTEM AND METHOD FOR ACQUIRING OPTOACOUSTIC DATA AND PRODUCING PARAMETRIC MAPS USING SUBBAND ACOUSTIC COMPENSATION - A method is disclosed for generating sinograms by sampling transducers acoustically coupled with a surface of a volume after a pulse of light, each transducer being associated with a channel in an optoacoustic imaging system, and processing at least two multi-channel sinograms, each corresponding to a different one of the at least two different predominant wavelengths, to create at least two processed sinograms. The processing step includes a step of sub-band acoustic compensation. Image reconstruction is performed based upon the processed sinograms to generate at least two optoacoustic images. Image post processing is performed on the optoacoustic images to generate post-processed images. A parametric map is generated based upon information contained in the post-processed images, and an ultrasound image is generated using the transducers. The parametric map and the ultrasound image are co-registered and a co-registered image is displayed. | 08-07-2014 |
20140249414 | System and Method for Mixed Modality Acoustic Sampling - Systems and methods for relaying electrical signals representing acoustic response of a volume of tissue to light and ultrasound stimulation. In an embodiment, a plurality of ultrasound transducers receive acoustic energy from the volume and generate electrical energy, which is transmitted via an electrical path to a relay system. The ultrasound transducers are operated at a wide band frequency of at least 1 MHz to 5 MHz to receive acoustic energy from the volume of tissue responsive to light stimulation and at a narrower band frequency to receive acoustic energy from the volume of tissue responsive to acoustic stimulation. The relay system relays the electrical signals to an optoacoustic system or an ultrasound instrument for further processing depending on whether the electrical signals resulted from ultrasound or light stimulation. In an embodiment, optoacoustic, ultrasound, or other images are generated from the electrical signals and may be coregistered, overlayed, or displayed. | 09-04-2014 |
20140301619 | System and Method for Diagnostic Vector Classification Support - The diagnostic vector classification support system and method disclosed herein may both reduce the time and effort required to train radiologists to interpret medical images, and provide a decision support system for trained radiologists who, regardless of training, have the potential to miss relevant findings. In an embodiment, a morphological image is used to identify a zone of interest in a co-registered functional image. An operator's grading of a feature at least partially contained within the zone of interest is compared to one or more computer-generated grades for the feature. Where the operator and computer-generated grades differ, diagnostic support can be provided such as displaying additional images, revising the zone of interest, annotating one or more displayed images, displaying a computer-generated feature grade, among other possibilities disclosed herein. | 10-09-2014 |