An ultrasound diagnostic apparatus includes an ultrasound probe that performs transmission and reception of an ultrasonic wave to and from a subject, a head-mounted display having a camera unit configured to acquire a camera image obtained by imaging a field of view in front of a user and a display unit, a measurement spot decision unit that, in a case where subject information including at least one of a symptom or a disease of the subject is input, decides a measurement spot where the transmission and reception of the ultrasonic wave is desired, based on the spot subject information, and a navigation image generation unit that recognizes the subject from the camera image, generates a navigation image indicating a position of the measurement spot decided by the measurement spot decision unit with respect to the recognized subject, and displays the generated navigation image on the display unit of the head-mounted display.

Exemplary embodiments provide systems and methods for portable medical ultrasound imaging. Preferred embodiments utilize a tablet touchscreen display operative to control imaging and display operations without the need for using traditional keyboards or controls. Certain embodiments provide ultrasound imaging system in which the scan head includes a beamformer circuit that performs far field sub array beamfonning or includes a sparse array selecting circuit that actuates selected elements. Exemplary embodiments also provide an ultrasound engine circuit board including one or more multi-chip modules, and a portable medical ultrasound imaging system including an ultrasound engine circuit board with one or more multi-chip modules. Exemplary embodiments also provide methods for using a hierarchical two-stage or three-stage beamforming system, three dimensional ultrasound images which can be generated in real-time.

An ultrasound diagnostic apparatus includes an image memory, an operation unit, a measurement item designation receiving unit for receiving a designation of a measurement item, a detection measurement algorithm setting unit that sets a detection measurement algorithm, a frame designation receiving unit that receives a designation of a frame to be used for the measurement among a plurality of frames in the image memory, a measurement position designation receiving unit that receives a designation of a position of a measurement target on a first measurement frame received by the frame designation receiving unit, a measurement position setting unit that sets the position of the measurement target on a frame other than the first measurement frame, a measurement unit that detects the measurement target on the plurality of frames to calculate the measurement value, and a final measurement value calculation unit that calculates a final measurement value.

A system and method for providing guidance in an ultrasound imaging procedure involves presenting graphical user interface elements overlaid onto an external image of the subject's body. The system includes at least one camera for capturing the external image of the subject. The system may utilize trained artificial neural network(s) to identify locations in the external image that correspond to scanning zones of a scanning protocol. A probe placement marker is overlaid at each identified location to indicate the position of the probe's face onto the subject's body for acquiring a target view of the internal anatomy. Additional graphical elements may be presented via the guidance interface and results findings may optionally be overlaid onto the external image of the subject at the completion of the scan. In embodiments herein, imaging guidance is provided solely via the external images of the subject without displaying the ultrasound image data.

Apparatuses and methods are disclosed herein for securely docking portable ultrasound imaging devices and/or other medical equipment to stand heads and other support structures. In some embodiments, a portable imaging device can include a movable carrying handle that enables the user to easily secure the imaging device to a stand head by rotating the handle to engage one or more latch mechanisms on the stand head. The user can quickly remove the imaging device from the stand head for transport to another location by disengaging the one or more latches and rotating the handle in the opposite direction. If the new location lacks a stand head or other docking structure, the user can rotate the handle downwardly to act as a stand that elevates the rear portion of the device to facilitate use on a desktop or other surface.

A diagnostic ultrasound apparatus includes a body, a display, a console, a probe port, a battery and a cart configured as separate units. The display, the console, the probe port and the battery are attachable to and detachable from the body. The body, the display and the console are attachable to and detachable from the cart. The body with the probe port and the battery attached, the display and the console are attached to the cart, thereby configuring the diagnostic ultrasound apparatus as a cart style. The display and the console are detached from the body with the probe port and the battery attached, thereby configuring the diagnostic ultrasound apparatus as a desktop style. The display, the console, the probe port and the battery are attached and connected to the body so as to be integrated, thereby configuring the diagnostic ultrasound apparatus as a hand-carry style.

Provided are an ultrasound probe and an operating method of the ultrasound probe which can select a power transmission channel and/or a wireless power transmission mode that are most appropriate in an environment in which power transmission channels exist. The operating method of the ultrasound probe includes operations of obtaining a plurality of pieces of information about power transmission channels; displaying a power transmission channel list, based on the plurality of pieces of information about the power transmission channels; selecting a power transmission channel from the power transmission channel list; and receiving wireless power that is transmitted via the selected power transmission channel.

In an embodiment, a medical device is disclosed. The medical (imaging) device comprises a housing configured for handheld use, a transducer array, a display coupled to the housing, a plurality of sensors distributed about a periphery of the housing and configured to detect when a hand of an operator is positioned around the housing, and a computing device disposed within the housing, wherein the computing device is in communication with the transducer array, the display, and the sensors. The computing device is operable to: monitor the sensors, determine whether a reading from a first sensor at a first edge of the periphery of the housing exceeds a threshold, set the first edge as a primary edge based at least in part on the reading from the first sensor, and orient the display such that the primary edge is at the bottom of the display.

A guidance apparatus is provided for use with a portable imaging apparatus and an image display device. The guidance apparatus includes a sleeve portion structured for receiving an imaging apparatus and a coupling mechanism. The coupling mechanism has a rotating portion and first and second connecting portions structured for coupling the image display device to the imaging apparatus. During use, the coupling mechanism facilitates orienting the image display device relative to the imaging apparatus to provide a direct line of sight of an area imaged by the imaging apparatus. The coupling mechanism may be adjustable for facilitating rotation of the image display device about a longitudinal axis of the imaging apparatus. Also, the coupling mechanism can be structured to allow the combination of the coupling mechanism, the image display device, and the imaging apparatus to be held in a single hand of a user during performance of a medical procedure.

An ultrasound probe (10) is disclosed comprising a plurality of transducer elements (66) within a housing (60) and arranged proximal to a subject contact surface (65) of the probe; a plurality of individually addressable light sources (72) mounted in said housing, each of said individually addressable light sources indicating a position of a subset of the plurality of transducer elements relative to said subject contact surface; and a controller (80) arranged to control said plurality of individually addressable light sources in response to a light source selection signal from an ultrasound user console (3). Also disclosed is such an ultrasound user console (3), an ultrasound imaging system (1) comprising the ultrasound probe (10) and the ultrasound user console (3) as well as a method (100) of marking the location of an anatomical feature (7) within a subject with such an ultrasound imaging system (1).