A portable ultrasonic diagnostic apparatus and a method of controlling the same are provided, including a flexible display and a controller which changes a layout of an image displayed on the flexible display. An image necessary for diagnosing an object is appropriately disposed on a flexible display according to a situation, and thus, the user can intuitively determine an ultrasonic image.

Disclosed herein is an ultrasound probe securement device to secure an ultrasound probe to a patient. The securement device can include a probe coupling mechanism to couple an ultrasound probe to the securement device, a patient coupling mechanism to couple the securement device to a patient, and a constraining mechanism to maintain an acoustic coupling of the ultrasound probe with the patient during an ultrasound procedure without user intervention.

Self-locating active markers (SLAMs) can locate themselves with respect to patient's internal anatomy and be physically located and visible in an operating room (OR) coordinate space, which can increase precision of co-registration between augmented reality (AR) systems and medical imaging. Each SLAM may include 9-axis accelerometers and ultrasound technology to locate themselves by orientation and distance to internal skeletal and/or soft tissue anatomy. Multiple SLAMS affixed to skin near operative site at a location visible to a surgical navigation system and/or the surgeon's AR Headset during a procedure may report relative distance changes between their location and internal skeletal anatomy in order to maintain surgical navigation system or AR coordinate system co-registration to the imaged internal coordinate systems. Sequential time of flight calculations from ultrasound array alone or in combination with 9-axis accelerometer data may be used.

Methods and systems are provided for ultrasound imaging. In one example, a method includes receiving ultrasound signals of a region of interest with a wireless hand-held probe assembly, generating a plurality of received digital signals based on the received ultrasound signals within the wireless hand-held probe assembly, generating each of a larger dataset and a smaller dataset from the plurality of received digital signals, transmitting the smaller dataset from the wireless hand-held probe assembly to a hub via a lower bandwidth wireless connection, transmitting the larger dataset from the wireless hand-held probe assembly to the hub via a higher bandwidth wireless connection, generating each of a low resolution image from the smaller dataset and a high resolution image from the larger dataset at the hub, and transmitting the low resolution image from the hub to a first display and the high resolution image from the hub to an electronic device.

The present invention provides an eye detection based smart glasses display device including: a plurality of distance measurement units irradiating a laser to an eyeball including a fundus and measuring a first distance from the fundus and a second distance from a surface of the eyeball; an eye detection unit detecting an eye direction based on the first distance and the second distance; an image acquisition unit acquiring an overlay image; a screen synthesis unit recognizing an eye contact object within a predetermined range in the eye direction, and computing a location so as to display the overlay image at a designated location according to the eye contact object; and a display unit displaying the overlay image at the computed location and has a smart glasses type. Accordingly, according to the present invention, a display method and a display device which are capable of naturally displaying related information without disrupting an eye of a doctor.

A hierarchical workflow is configured to associate examination information captured using an imaging platform with contextual metadata. The examination information may include ultrasound image data, which may be associated with annotations, measurements, pathology, body markers, and/or the like. The hierarchical workflow may comprise templates associated with respective anatomical regions, locations, volumes, and/or surfaces. A template may define configuration data to automatically adapt the imaging platform to capture imaging data in the corresponding anatomical region. The template may further include guidance information for the operator, including processing steps for capturing relevant examination information. Additional examination information may be captured and included in the hierarchical workflow.

A device is provided for automatically assessing functional hemodynamic properties of a patient is provided, the device comprising: a housing; an ultrasound unit coupled to the housing and adapted for adducing ultrasonic waves into the patient at a vessel; a detector adapted to sense signals obtained as a result of adducing ultrasonic waves into the patient at the vessel and to record the; and a processor adapted for receiving the recorded signals as data and transforming the data for output at an interface. Other devices, systems, methods, and/or computer-readable media may be provided in relation to assessing functional hemodynamics of a patient.

The present embodiments relate generally to methods for providing viewing access to an ultrasound image feed generated at an ultrasound imaging machine. A multi-use display device may form a first link-layer connection with the ultrasound image machine for transmitting commands that control imaging parameters of the ultrasound image feed. The multi-use display device may then: determine link-layer connection parameters that allow the ultrasound imaging machine to form a second link-layer connection with a receiving device (the receiving device having no link-layer connection with the ultrasound imaging machine), and provide the connection parameters to the receiving device. The ultrasound imaging machine forms a second link-layer connection with the receiving device, based the connection parameters. The second link-layer connection is then used for receiving, at the receiving device, the ultrasound image feed controlled by the multi-use display device.

[Problem] To provide an ultrasonic apparatus that enables one to find a factor that lowers reliability of a measurement value relating to elasticity of biological tissue. [Means for Solution] An ultrasonic diagnostic apparatus comprises a control circuit executing: a measurement-value calculating function 535 of calculating a measurement value relating to elasticity of the biological tissue based on echo signals from ultrasonic detecting pulses; an index-value calculating function 536 of calculating an index value indicating a degree of reliability for the measurement value for each of a plurality of factors that deteriorate the reliability of the measurement value based on the echo signals from the ultrasonic detecting pulses; and a notifying function of notifying a factor corresponding to at least one index value for which the degree of reliability does not meet a required standard.

Various methods and systems are provided for ultrasound imaging probe power management. In one embodiment, a power management system for an ultrasound imaging system includes a wireless charger and a mount configured to couple to a probe holder of the ultrasound imaging system. The probe may seat against the wireless charger for charging of a power source of the probe.