摘要:
An ultrasound imaging system is programmed to acquire first ultrasonic image frames intermittently. These first frames, typically triggered frames synchronized with a selected portion of an ECG cycle, are optimized for high image quality of a contrast agent included in the tissue. The imaging system automatically acquires second ultrasonic image frames between at least some of the first frames. The second image frames are typically locator frames which are optimized for reduced degradation of the contrast agent. More of the second frames are acquired per unit time than first frames, and both the first and second frames are displayed, either superimposed over one another or in side-by-side relationship. In this way the user is provided with substantially continuous transducer locating information, yet contrast agent destruction between acquisitions of the first, triggered frames is reduced or eliminated.
摘要:
An ultrasound imaging system is programmed to acquire first ultrasonic image frames intermittently. These first frames, typically triggered frames synchronized with a selected portion of an ECG cycle, are optimized for high image quality of a contrast agent included in the tissue. The imaging system automatically acquires second ultrasonic image frames between at least some of the first frames. The second image frames are typically locator frames which are optimized for reduced degradation of the contrast agent. More of the second frames are acquired per unit time than first frames, and both the first and second frames are displayed, either superimposed over one another or in side-by-side relationship. In this way the user is provided with substantially continuous transducer locating information, yet contrast agent destruction between acquisitions of the first, triggered frames is reduced or eliminated.
摘要:
An ultrasound imaging system is programmed to acquire first ultrasonic image frames intermittently. These first frames, typically triggered frames synchronized with a selected portion of an ECG cycle, are optimized for high image quality of a contrast agent included in the tissue. The imaging system automatically acquires second ultrasonic image frames between at least some of the first frames. The second image frames are typically locator frames which are optimized for reduced degradation of the contrast agent. More of the second frames are acquired per unit time than first frames, and both the first and second frames are displayed, either superimposed over one another or in side-by-side relationship. In this way the user is provided with substantially continuous transducer locating information, yet contrast agent destruction between acquisitions of the first, triggered frames is reduced or eliminated.
摘要:
An ultrasound imaging system is programmed to acquire first ultrasonic image frames intermittently. These first frames, typically triggered frames synchronized with a selected portion of an ECG cycle, are optimized for high image quality of a contrast agent included in the tissue. The imaging system automatically acquires second ultrasonic image frames between at least some of the first frames. The second image frames are typically locator frames which are optimized for reduced degradation of the contrast agent. More of the second frames are acquired per unit time than first frames, and both the first and second frames are displayed, either superimposed over one another or in side-by-side relationship. In this way the user is provided with substantially continuous transducer locating information, yet contrast agent destruction between acquisitions of the first, triggered frames is reduced or eliminated.
摘要:
A method and system for imaging contrast agent within human or animal tissue, organs and/or blood is provided. Contrast agents, such as perfluorocarbon gas-filled albumin microbubbles which exhibit momentary contrast enhancement when exposed to high intensity ultrasound are injected into a patient. Periodic images are generated to avoid reduction in the contrast provided by the contrast agents due to ultrasound destruction. Between the periodic images, an M-mode image is substantially continuously updated to allow the user to better locate and maintain imaging of a region of interest, determine dynamic movement within the region of interest, access attenuation, determine an appropriate trigger point, and view perfusion of the contrast agent between the periodic images while minimizing destruction of contrast agent. In one embodiment, an ultrasound system alternates between triggered firings of a two-dimensional B-mode image and substantially continuous updating of an M-mode image. The M-mode image is displayed as a strip revealing the time course of reflected ultrasound echoes along a scan line within the B-mode image plane. The B-mode image is displayed adjacent to the M-mode image. In a second embodiment, two-dimensional B-mode and color Doppler images are triggered. The Doppler energy parameter is used for generating the adjacent and substantially continuous M-mode image.
摘要:
Ultrasound data is aligned spatially and temporally for volume rendering of a fetal heart or other cyclically moving object. A sequence of ultrasound data is obtained for each of a plurality of planes, such as acquiring data representing each plane over one or more cycles. The different planes are scanned sequentially in a step mode acquisition. The data is aligned temporally and spatially to create data representing volumes at different times throughout the cycle. The alignment uses similarity of the ultrasound data in time and space.
摘要:
Ultrasound data is aligned spatially and temporally for volume rendering of a fetal heart or other cyclically moving object. A sequence of ultrasound data is obtained for each of a plurality of planes, such as acquiring data representing each plane over one or more cycles. The different planes are scanned sequentially in a step mode acquisition. The data is aligned temporally and spatially to create data representing volumes at different times throughout the cycle. The alignment uses similarity of the ultrasound data in time and space.
摘要:
Systems and methods are provided for automated assessment of regional myocardial function using wall motion analysis methods that analyze various features/parameters of patient information (image data and non-image data) obtained from medical records of a patient. For example, a method for providing automatic diagnostic support for cardiac imaging generally comprises obtaining image data of a heart of a patient, obtaining features from the image data of the heart, which are related to motion of the myocardium of the heart, and automatically assessing regional myocardial function of one or more regions of a myocardial wall using the obtained features.
摘要:
Control of the sonothrombolysis treatment is automated based on feedback from ultrasound. The region to be treated may be tracked to provide ongoing treatment at the desired location. The treatment may be triggered based on detection of sufficient perfusion. The number or intensity of destructive ultrasound pulses may adapt to the number of remaining contrast agents. The treatment may be ceased or modified based on the efficacy.
摘要:
Contrast agents may more effectively clear a clot if they are as close to the clot as possible. Radiation force may effectively push and/or pull the contrast agents next to the clot and away from the middle of any flow channels. By transmitting driving acoustic energy, the contrast agents may be positioned for treatment that is more effective by destruction.