The disclosed invention is a computer-implemented method for constructing, recording, displaying and exporting a plurality of multi-parameter two-dimensional buffered image data arrays in a plurality of visual presentation formats constructed from one-dimensional single-parameter ultrasonic a-scan backscatter data, whereby quantitative relationships in a-scan backscatter data that are indicative of material identity may be more easily detected by visual analysis and more easily detected by automated inference methods.

Disclosed herein are a ultrasonic probe comprise an ultrasonic transceiver configured to transmit an ultrasonic signal to an object and receive a signal reflected from the object, a first display configured to receive information from a user or output information received from an ultrasonic diagnostic apparatus and a first controller configured to display a first picture on the first display when an operating state of the ultrasonic probe is switched to a standby state, wherein the first picture includes information regarding the operating state of the ultrasonic probe, and the information set by the user.

According to the present disclosure, information set by a user may be viewed through a display installed in an ultrasonic probe or an ultrasonic diagnostic apparatus at any time. Thus, the user may easily obtain and control information regarding the ultrasonic probe or the ultrasonic diagnostic apparatus.

An ultrasound diagnostic apparatus includes an ultrasound probe, an image generation unit that generates an ultrasound image on which a breast of a subject is captured by performing transmission and reception of an ultrasound beam by using the ultrasound probe for the subject, a schema image generation unit that generates a schema image on which a region of interest is plotted based on a synthesized two-dimensional image generated by using a series of radiation images obtained by tomosynthesis imaging and on which the breast of the subject is captured, information on a tomosynthesis image accompanying the synthesized two-dimensional image and corresponding to the region of interest on the synthesized two-dimensional image, and information on the region of interest, and a monitor that displays the ultrasound image, the synthesized two-dimensional image, and the schema image.

A medical diagnostic apparatus acquires a signal to generate images of an observation target, sequentially generates observation images based on the acquired signal, and causes a display to continuously display the observation images. The apparatus includes: a first storage for storing the observation images in chronological order; input units for receiving a command signal for freezing the observation images on the display; and a second storage for storing correction information for each input unit so as to associate the correction information with each input unit. The apparatus is configured to: identify an input unit that has received the command signal among the input units; determine a correction amount based on a result of identification by the identification unit and the correction information; and select an observation image generated before or after receiving the command signal according to the correction amount, from among the observation images, based on the correction amount.

An ultrasound diagnostic apparatus includes an ultrasound probe, an image generation unit that generates an ultrasound image on which a breast of a subject is captured by performing transmission and reception of an ultrasound beam by using the ultrasound probe for the subject, a schema image generation unit that generates a schema image on which a region of interest is plotted based on a synthesized two-dimensional image generated by using a series of radiation images obtained by tomosynthesis imaging and on which the breast of the subject is captured, information on a tomosynthesis image accompanying the synthesized two-dimensional image and corresponding to the region of interest on the synthesized two-dimensional image, and information on the region of interest, and a monitor that displays the ultrasound image, the synthesized two-dimensional image, and the schema image.

According to one embodiment, an ultrasonic diagnostic apparatus comprises a receiving unit which provides at least some of echo signals with reception delays that vary with ultrasonic transducers and adds each of the echo signals provided with the reception delays to acquire a reception beam includes a predetermined receiving direction and a reception focus and a control unit, the control unit controlling the transmission unit so that a transmission beam including a transmission direction and a transmission focus that are fixed is transmitted, the control unit also controlling the receiving unit by changing patterns of the reception delays and adding the respective patterns to at least some of the echo signals based on the transmission beam including the transmission direction and the transmission focus that are fixed in order to acquire reception beams different in receiving direction and reception focus.

An ultrasound imaging system with pixel oriented processing is provided in which an acoustic signal is generated, echoes from the acoustic signal are received at a plurality of receiving elements to obtain echo signals that are then stored, a given pixel is mapped into a region of the stored signals, the mapped region of the stored echo signals is organized into array for the given pixel after which the array is processed to generate a signal response for the given pixel to obtain acoustic information for the given pixel. The system can be implemented entirely on plug-in cards for a commercial PC motherboard. The system and method can be implemented for pixel-oriented or voxel-oriented image processing and display, eliminating intermediate data computations and enabling extensive use of software processing methods. Advantages include improved acquisition of signal dynamic range, flexible acquisition modes for high frame rate 2D, 3D, and Doppler blood flow imaging.