Abstract: An interface unit (12) for connecting between an ultrasound sensing apparatus (14) and a patient monitor (18) for providing ultrasound monitoring functionality of one or more physiological or anatomical parameters based on processing of ultrasound data. The interface unit includes means for processing acquired ultrasound data to derive measurements of one or more physiological or anatomical parameters and is configured for outputting said derived measurements to a coupled patient monitor unit, e.g. for display and/or trending by the patient monitor.

Abstract: An ultrasound imaging system includes a processor circuit in communication with an ultrasound probe. The processor circuit receives, from the ultrasound probe, ultrasound data representative of an ultrasound beam imaging an anatomical structure. The processor circuit determines, based on the ultrasound data, a measured boundary of the anatomical structure. The measured boundary includes multiple locations. The processor circuit determines correction vectors corresponding to the locations of the measured boundary. A magnitude of a respective correction vector is based on a depth of a corresponding location relative to the ultrasound probe and/or an orientation of the measured boundary at the corresponding location relative to the ultrasound beam. The processor circuit applies the correction vectors to the locations of the measured boundary to determine a corrected boundary. The processor circuit outputs, to a display, an ultrasound image based on the ultrasound data.

Abstract: A clinical therapy system (10) includes a drug delivery device (14) configured to delivery medication to a patient. One or more therapy devices (12, 16, 11, 13, 15, 17) are configured to provide therapy or to monitor the patient.

Abstract: An apparatus includes an imaging probe and is configured for dynamically arranging presentation of visual feedback for guiding manual adjustment, via the probe, of a location, and orientation, associated with the probe. The arranging is selectively based on comparisons between fields of view of the probe and respective results of segmenting image data acquired via the probe. In an embodiment, the apparatus includes a sensor which guides a decision that acoustic coupling quality is insufficient, the apparatus issuing a user alert upon the decision.

Abstract: An interface unit (12) for connecting between an ultrasound sensing apparatus (14) and a patient monitor (18) for providing ultrasound monitoring functionality of one or more physiological or anatomical parameters based on processing of ultrasound data. The interface unit includes means for processing acquired ultrasound data to derive measurements of one or more physiological or anatomical parameters and is configured for outputting said derived measurements to a coupled patient monitor unit, e.g. for display and/or trending by the patient monitor.

Abstract: A system includes a transducer array configured to obtain ultrasound data of a subject; a processor in communication with the transducer array and a therapeutic device configured to deliver a therapy to the subject, wherein the processor is configured to: receive the ultrasound data; identify an anatomical feature of the subject using the ultrasound data; compute a measure associated with the anatomical feature; determine if the measure satisfies a threshold; determine a change in an operating status of the therapeutic device based on if the measure satisfies the threshold; and output, to the therapeutic device, a control signal representative of the change in the operating status. Associated methods, devices, and systems are also provided.

Abstract: An apparatus includes an imaging probe and is configured for dynamically arranging presentation of visual feedback for guiding manual adjustment, via the probe, of a location, and orientation, associated with the probe. The arranging is selectively based on comparisons between fields of view of the probe and respective results of segmenting image data acquired via the probe. In an embodiment, the apparatus includes a sensor which guides a decision that acoustic coupling quality is insufficient, the apparatus issuing a user alert upon the decision.

Abstract: An apparatus includes an imaging probe and is configured for dynamically arranging presentation of visual feedback for guiding manual adjustment, via the probe, of a location, and orientation, associated with the probe. The arranging is selectively based on comparisons between fields of view of the probe and respective results of segmenting image data acquired via the probe. In an embodiment, the feedback does not include a grayscale depiction of the image data. Coordinate system transformations corresponding to respective comparisons may be computed. The selecting may be based upon and dynamically responsive to content of imaging being dynamically acquired via the probe.

Abstract: An ultrasonic diagnostic imaging system and method enable the automatic acquisition of standard view planes of the heart in real time, such as the AP4, AP3, and AP2 views. A 3D image of the heart is acquired and the processed in conjunction with a geometrical heart model. The heart model is fitted to the heart in its acquired pose to segment the desired image planes from the 3D image data. During successive image acquisition intervals the image planes are tracked through successive image data as a multi-plane system to update a display of the multiple images. The successive image acquisitions can be volume image acquisitions or multi-plane acquisitions of just the tracked image planes during each acquisition interval.

Abstract: A clinical therapy system (10) includes a drug delivery device (14) configured to delivery medication to a patient. One or more therapy devices (12, 16, 11, 13, 15, 17) are configured to provide therapy or to monitor the patient.

Abstract: An apparatus includes an imaging probe and is configured for dynamically arranging presentation of visual feedback for guiding manual adjustment, via the probe, of a location, and orientation, associated with the probe. The arranging is selectively based on comparisons between fields of view of the probe and respective results of segmenting image data acquired via the probe. In an embodiment, the feedback does not include a grayscale depiction of the image data. Coordinate system transformations corresponding to respective comparisons may be computed. The selecting may be based upon and dynamically responsive to content of imaging being dynamically acquired via the probe.

Abstract: An ultrasound system for planning a surgical implantation of a prosthetic aortic valve produces three dimensional images of the aortic root region of a patient. An electronic model of an aortic root is accessed and fitted to the aortic root in a three dimensional ultrasound image. Preferably the aortic root model exhibits closed contour cross-sections which are fitted to the endothelial lining of the aortic root in the ultrasound image. A medial axis of the fitted model is identified and radii measured from the medical axis to the border of the fitted model. The radii are joined to identify a surface forming a mesh model fitted to the aortic root anatomy of the patient. The shape and dimensions of the fitted model may be used to fabricate a custom prosthetic valve for aortic valve replacement.

Abstract: An apparatus includes an imaging probe and is configured for dynamically arranging presentation of visual feedback (144) for guiding manual adjustment, via the probe, of a location, and orientation, associated with the probe. The arranging is selectively based on comparisons (321) between fields of view of the probe and respective results of segmenting image data acquired via the probe. In an embodiment, the feedback does not include (175) a grayscale depiction of the image data. Coordinate system trans formations corresponding to respective comparisons may be computed. The selecting may be based upon and dynamically responsive to content of imaging being dynamically acquired via the probe.

Abstract: An ultrasonic diagnostic imaging system and method enable the automatic acquisition of standard view planes of the heart in real time, such as the AP4, AP3, and AP2 views. A 3D image of the heart is acquired and the processed in conjunction with a geometrical heart model. The heart model is fitted to the heart in its acquired pose to segment the desired image planes from the 3D image data. During successive image acquisition intervals the image planes are tracked through successive image data as a multi-plane system to update a display of the multiple images. The successive image acquisitions can be volume image acquisitions or multi-plane acquisitions of just the tracked image planes during each acquisition interval.

Abstract: An ultrasonic diagnostic imaging system and method enable the automatic acquisition of standard view planes of the heart in real time, such as the AP4, AP3, and AP2 views. A 3D image of the heart is acquired and the processed in conjunction with a geometrical heart model. The heart model is fitted to the heart in its acquired pose to segment the desired image planes from the 3D image data. During successive image acquisition intervals the image planes are tracked through successive image data as multi-plane system to update a display of the multiple images. The successive image acquisitions can be volume image acquisitions or multi-plane acquisitions of just the tracked image planes during each acquisition interval.

Abstract: Ultrasound systems and methods for automatically determining heart chamber characteristics are provided. The systems and methods of the present invention, for example, can automatically determine chamber pressures and volumes of a patient's heart using a transthoracic or transesophageal ultrasound probe imaging the heart in 2D and/or 3D. Chamber pressures determined include the static pressure of the left ventricular end diastolic pressure, which can be used to diagnose whether a patient is suffering from congestive heart failure.

Abstract: A method includes obtaining an electrical signal that includes a set of at least two sensed physiologic measurements of a patient, comparing the at least two physiologic measurements with a predetermined physiologic measurement range, identifying data required to determine a probability and a severity of a condition of interest of the patient, in response to determining the at least two physiologic measurements do not satisfy the physiologic measurement range, receiving the identified data in electronic format, determining a first probability and a first severity of the condition of interest based on the received identified data, determining a recommended course of action for the patient based on the first probability and the first severity, resources of a healthcare facility, and an event guideline; and causing a display to visually present the first probability and first severity and the recommended course of action.

Abstract: An ultrasonic diagnostic imaging system has a user control by which a user positions the user's selection of a heart chamber border in relation to two machine-drawn heart chamber tracings. The user's border is positioned by a single degree of freedom control which positions the border as a function of a single user-determined value. This overcomes the vagaries of machine-drawn borders and their mixed acceptance by clinicians, who can now create repeatably-drawn borders and exchange the control value for use by others to obtain the same results.

Abstract: A method includes obtaining an electrical signal that includes a set of at least two sensed physiologic measurements of a patient, comparing the at least two physiologic measurements with a predetermined physiologic measurement range, identifying data required to determine a probability and a severity of a condition of interest of the patient, in response to determining the at least two physiologic measurements do not satisfy the physiologic measurement range, receiving the identified data in electronic format, determining a first probability and a first severity of the condition of interest based on the received identified data, determining a recommended course of action for the patient based on the first probability and the first severity, resources of a healthcare facility, and an event guideline; and causing a display to visually present the first probability and first severity and the recommended course of action.

Abstract: An ultrasonic diagnostic imaging system and method enable the automatic acquisition of standard view planes of the heart in real time, such as the AP4, AP3, and AP2 views. A 3D image of the heart is acquired and the processed in conjunction with a geometrical heart model. The heart model is fitted to the heart in its acquired pose to segment the desired image planes from the 3D image data. During successive image acquisition intervals the image planes are tracked through successive image data as multi-plane system to update a display of the multiple images. The successive image acquisitions can be volume image acquisitions or multi-plane acquisitions of just the tracked image planes during each acquisition interval.