Abstract: An information processing system inclines processing circuitry that is configured to receive input data from a shock sensor which outputs data based on a shock on the shock sensor, and identify a target segment of time-series data that is output from a motion sensor that senses a motion of an object. The target segment includes a pre-shock portion that occurs before the shock event and a post-shock portion that occurs after the shock event, the shock event is recognized based on the data from the shock sensor.

Abstract: The present disclosure refers to a method for determining a blood glucose level for a patient, the method comprising detecting a present sensor signal in a present continuous interstitial blood glucose measurement for a patient; providing measurement data representing the present sensor signal; providing sensor signal correction data representing a patient-specific signal correction, the sensor signal correction data being determined from a former interstitial blood glucose measurement for the patient and comprising at least one of time delay data representing a patient-specific time delay ?t between a blood glucose value measured in a continuous interstitial blood glucose measurement and a blood glucose reference value measured in a capillary blood glucose measurement, and sensor sensitivity data representing, for the patient, a patient-specific sensor sensitivity for the sensor, determining corrected measurement data representing a corrected present sensor signal by applying the sensor signal correction dat

Abstract: Disclosed is a blood glucose measuring device, method, and system. In response to a connection of a blood glucose measuring module to a socket of the blood glucose measuring device being detected, the blood glucose measuring device may receive a data signal from the blood glucose measuring module and read a bit of the data signal based on a period of data signal.

Abstract: The present invention relates to a method and system for estimating blood analyte levels using a noninvasive optical coherence tomography (OCT) based physiological monitor. An algorithm correlates OCT-based estimated blood analyte data with actual blood analyte data determined by other methods, such as invasively. OCT-based data is fit to the obtained blood analyte measurements to achieve the best correlation. Once the algorithm has generated sets of estimated blood analyte levels, it may refine the number of sets by applying one or more mathematical filters. The OCT-based physiological monitor can be calibrated using an Intensity Difference plot or the Pearson Product Moment Correlation method.

Abstract: An optical fluid measurement element includes: an emitter that generates an optical output; an absorber that measures an optical input; and a fluid flow pathway, where the optical output of the emitter passes through the fluid flow pathway and is received as the optical input to the absorber after passing through the portion of the fluid flow pathway. An automated method of measuring fluid volume using an optical fluid measurement element includes: activating an emitter; capturing data from an optical sensor; detecting a leading edge of fluid travelling along a flow pathway; starting a counter when the leading edge is detected; and calculating a volume based on a value of the counter. An automated method of measuring fluid attributes along a flow pathway. The method includes: activating an optical emitter; receiving a signal from an optical sensor; and processing the received signal to determine at least one fluid attribute.

Abstract: An analysis device includes a wavelength selection unit that alternatively extracts first special light and second special light from light emitted from the light source device, an image sensor that includes a RGB color filter, and a signal processing unit. In this configuration, the first special light includes light in a first wavelength region and the second special light includes light in a second wavelength region that is different from the first wavelength region. The signal processing unit calculates an indicator that indicates a feature amount of biological tissue based on a pixel signal that corresponds to the light in the first wavelength region and a pixel signal that corresponds to the light in the second wavelength region, and generates a color captured image based on a pixel signal that corresponds to light that passes through the RGB color filter.

Abstract: This document provides methods and materials involved in assessing concentrations of analytes in an environment using a diamond-containing carbon electrode. For example, methods and materials for using FSCV or paired pulse voltammetry to discriminate analytes based on their adsorption characteristics to a diamond-containing carbon electrode are described herein.

Abstract: A biological fluid sampling transfer device adapted to receive a multi-component blood sample is disclosed. After collecting the blood sample, the biological fluid sampling transfer device is able to separate a plasma portion from a cellular portion. After separation, the biological fluid sampling transfer device is able to transfer the plasma portion of the blood sample to a point-of-care testing device. The biological fluid sampling transfer device also provides a closed sampling and transfer system that reduces the exposure of a blood sample and provides fast mixing of a blood sample with a sample stabilizer. The biological fluid sampling transfer device is engageable with a blood testing device for closed transfer of a portion of the plasma portion from the biological fluid sampling transfer device to the blood testing device. The blood testing device is adapted to receive the plasma portion to analyze the blood sample and obtain test results.

Abstract: A system for needle-free drawing of blood is disclosed. A hand-portable device can include an evacuated negative-pressure barrel with a membrane sealing an aperture at a distal end, and a housing affixed to a proximal end. An accelerator barrel can be positioned within the negative-pressure barrel and fixed to the housing, with an open proximal end in a chamber in the housing, and an open distal end aligned with the aperture. The chamber can be filled with pressurized gas, and a trigger valve can hydrostatically separate the chamber from the open proximal end of the accelerator barrel. A micro-particle positioned within the accelerator barrel can be accelerated to high speed by an abrupt surge of gas by releasing the trigger valve. The micro-particle can attain enough momentum to pierce the aperture membrane and penetrate adjacent dermal tissue. A resulting micro-emergence of blood can be drawn into the negative pressure barrel.

Abstract: The laser lancing device in accordance with an exemplary embodiment includes: a main body; a laser resonator located within the main body and configured to generate a laser and output the laser forwards; a beam barrel located in front of the laser resonator and including at least one lens unit fixed therein; a window barrel located in front of the beam barrel and connected to the main body; a cap part connected to the front of the window barrel and brought into contact with an irradiation target area; a fan unit communicating with the cap part and induce flow of air; and a communication pipe of which one end is connected to the fan unit and the other end is connected to the cap part.

Abstract: Methods, systems, and apparatus, including medium-encoded computer program products, for analyzing data include: receiving data including responses, and lack thereof, for items of a cognitive test including multiple item-recall trials; processing the data using a stochastic model of a cognitive process, in which a conditional probability distribution of future states of the cognitive process depend upon a present state; and encoding a result of the processing on a non-transitory computer-readable medium for use in an assessment related to cognition; wherein the processing using the stochastic model includes representing recall or recognition of an item in the multiple item-recall trials using distinct cognitive states; and wherein the processing using the stochastic model includes adjusting separate memory storage and retrieval parameters for each of the distinct cognitive states in the modeled cognitive process to account for position of the items in each respective trial of the multiple item-recall trials.

Abstract: Disclosed is an apparatus and method to train an autonomous driving model. The apparatus includes a driver information collection processor configured to collect driver information while a vehicle is being driven. The apparatus also includes a sensor information collection processor configured to collect sensor information from a sensor installed in the vehicle while the vehicle is being driven, and a model training processor configured to train the autonomous driving model based on the driver information and the sensor information.

Abstract: A method, device, and system for the assessment of the quality of balance and for alerting from an impairment of balance of a subject. The device comprises a plate for receiving the feet of a subject and mounted on a plurality of pressure sensors measuring vertical forces applied to the plate, wherein the method comprises the measurement, by means of the pressure sensors thereof, of vertical forces applied to the plate, at least before and while the subject mounts the device (1) and the calculation, according to the measured values, of parameters that are relevant for the assessment, including at least one parameter relating to at least one slowdown in the rise of the values measured by the pressure sensors thereof, when the subject mounts the device.

Abstract: A portable biomedical device for detecting ischemic stroke in the brain is provided. The device provides portability and compactness and can accommodate software for resolving blood flow velocity measurements. The device can provide both a diagnostic and a predictive tool for determining the occurrence of an ischemic attack, one such example being transient ischemic attack (TIA) not only at hospital bedside but also in a home environment.

Abstract: A computer based method and system forms measurements of brain function and predictions of a likelihood for memory impairment via the use of cameras, including a near-infrared (NIR) spectroscopic device and a camera capturing images in the Red-Green-Blue (RGB) spectrum. The device acquires from a subject measurements of ions, molecules, or combinations thereof at more than one moment in time, as well as amplitude and timing of blood pulsations. Based on the measured molecule or ion concentration, flow, and so forth, a processor assesses the probability of a neuron to form an action potential. Formation of an action potential increases the probability that the subject individual will create a memory.

Abstract: Methods, apparatuses, and systems for measuring collagen organization in the cervix, assessing the health of a woman's cervix (including a pregnant woman's cervix), characterizing the composition and structure of cervical tissue, and measuring preterm labor risk are provided. Polarization sensitive techniques and properties of cervical tissue, including birefringence, can be used. A method can include acquiring in vivo images of cervical tissue, applying Mueller matrix (MM) polarimetry (including 4×4 Mueller matrix polarimetry), and determining one or more parameters of the cervical tissue using the Mueller matrix (MM) polarimetry. The in vivo images can be analyzed and various parameters that characterize the cervical tissue can be determined. Graphs and maps of the cervical tissue can be generated for use as care provider tools.

Abstract: A system for measuring and monitoring wound hermaticity of a patient is provided that includes one or more sensors for measuring parameters that correlate to a degree of wound hermaticity, where the one or more sensors are incorporated into the design of a percutaneous skin access device (PAD), a bone anchor, a wound dressing, or a bandage. The degree of wound hermaticity is related to impedance measurements performed on the patient's skin, via measurements of humidity in a vacuum line to the PAD or the bone anchor, or via measurements of local tissue oxygenation in the immediate vicinity of the PAD or the bone anchor interface with the patient's skin. The hermaticity measurement parameters are communicated by wired or wireless connection to a computing or a communication device for immediate or remote monitoring.

Abstract: The invention comprises methods and systems capable of processing simultaneously measured cardiac and motion signals, selecting from said signals the optimal cardiac and motion signal combination for cross spectral density calculations and, hereafter, itemizing the shared information in terms of the individual constituent frequencies and the effect exerted upon said frequencies by common underlying physiological states. The information is passed through a classifier, where said information is used to quantify the underlying physiological states, exemplified by but not limited to, sleep stage, quality and/or disorders that affect sleep stability. Inferences made by the methods described, for example, can be employed to aid home based sleep analysis and automated screening of patients with sleep disorders.

Abstract: A method or apparatus comprising monitoring a user's sleep, and turning on a microphone to record sounds, ensuring that the recording occurs in all sleep phases. The method in one embodiment further comprising making the sounds available to the user for later review.

Abstract: A method and system for managing a risk of medication dependence that determines a conservative estimate of the time when the patient will become dependent on a medication as a function of a medication log. The medication log includes dose information and time information for a plurality of administrations of the medication.

Abstract: Devices and methods for detecting meal intake are disclosed herein. In some embodiments, one or more sensors can be used to detect or monitor physiological parameters of a user (e.g., heart rate, body movements, temperature, pH, impedance, gastric stretch, sound emissions, and the like). The outputs of the sensors can be received by a computer system configured to analyze the sensor data and make a determination as to whether meal intake has occurred or is presently occurring. The computer system's determination can be used to trigger, modulate, or otherwise control one or more therapeutic devices. Other types of devices can also be controlled using this determination, such as monitoring or logging devices.

Abstract: A non-invasive imaging approach using CEST and MRS may be used to monitor the cleavage of the poly-L-glutamate (PLG) backbone. The cleavage of PLG by cathespsin B can expose exchangeable —NH2 protons in the PLG that are then monitored non-invasively through CEST. The technique can provide direct information on malignant tissue and tumor aggressiveness, and can also be used to monitor treatment.

Abstract: A detection system can include a device, a circuit, and at least one indicator. The device can include polymer needle having a distal end and a proximal end. A needle lumen can be extended along a longitudinal axis of the polymer needle. The distal end can include an insertion tip. An elongate sleeve can include a first end and a second end. The polymer needle can be located within an inner bore of the elongate sleeve. The insertion tip of the polymer needle can be disposed at a distance from the elongate sleeve. A first electrode can be coupled to the device and a second electrode can be electrically isolated from the first electrode. The circuit can be configured to provide a signal based on an electrical characteristic between the first electrode and the second electrode. At least one indicator can be communicatively coupled to the circuit and configured to provide an output based on the signal.

Abstract: Intravascular devices, systems, and methods are disclosed. In some instances, the intravascular device is a guide wire with electrical conductors printed on a solid core wire. In some instances, the electrical conductors are coupled to conductive bands adjacent a proximal portion of the guide wire. Methods of making, manufacturing, and/or assembling such intravascular devices and associated systems are also provided. In certain aspects, guidewires of the invention include a body having an inner core and an outer layer with one or more embedded conductors. The conductors are exposed at one or more locations along the body and a conductive material can be layered over the exposed locations. A sensor can also be coupled to the body via the conductive material at one of the exposed locations.

Abstract: A system for automated simultaneous measurements of multiple parameters (mechanical, electrical and/or thermal) of biological tissues includes a base platform supporting a biochip holder module with a biochip integrated therein and an indenter for nano- and micro-scale indentation of a tissue. The biochip is formed with an array of micro-sensors, for example, electromechanical micro-sensors integrated on a substrate of the biochip. A temperature microsensor maybe additionally formed, for example, on the tip of the indenter to measure thermal characteristics of the tissue specimen heated by the micro-heater fabricated on the biochip.

Abstract: The application relates to a method for analyzing continuously monitored physiological measurement values of a user, the method being performed in a data processing system and comprising: providing, by a data interface, a set of present physiological measurement values, determining whether a common pattern of values is contained in both the set of present physiological measurement values and a set of historical physiological measurement values, if the common pattern of values is found, requesting the user to provide contextualization for at least the present physiological measurement values of the common pattern of values, receiving contextualization and storing contextualized data. Furthermore, the application relates to a device for analyzing continuously monitored physiological measurement values of a user.

Abstract: Aspects of the subject disclosure may include, for example, a system for receiving sensor data associated with a monitored individual, generating from the sensor data an activity profile of the monitored individual, generating comparison data by comparing the activity profile of the monitored individual to a target activity profile, detecting from the comparison data, an activity of the one or more of activities performed by the monitored individual that can adversely affect a biological condition of the monitored individual, and submitting a notification to equipment utilized by an advisor of the monitored individual. Other embodiments are disclosed.

Abstract: In one embodiment, a magnetic resonance imaging apparatus configured to sequentially execute plural imaging sequences includes: processing circuitry configured to calculate a predicted value of Long MR Examination specific absorbed energy which is an accumulated SAR (Specific Absorption Ratio) value over the plural imaging sequences; and a display configured to display information on the predicted value with respect to a predetermined safety reference value of the Long MR Examination specific absorbed energy.

Abstract: An intraoperative nerve evaluation device includes a flexible substrate, and a plurality of detection units disposed on the substrate and spaced apart from one another. Each of the detection units includes an electrode and a conductive wire electrically connected to the electrode. When the electrodes are attached to a nerve, a selected one of the electrodes is configured to receive an input signal via the corresponding conductive wire and to transmit the input signal to the nerve, and each of the electrodes other than the selected one is configured to receive from the nerve a response signal associated with the input signal and to transmit the response signal via the corresponding conductive wire.

Abstract: The disclosure is directed at a method and system for a pull-cord sensor assembly that includes an activation portion including a magnet portion for generating a magnetic field; a sensor portion for sensing a level of the magnetic field level; a comparator for comparing the level of the magnetic field with a threshold value; and a pull cord integrated with the activation portion.

Abstract: The present invention relates to an X-ray image processing device and an X-ray image processing method using a small X-ray detector, in which the device includes a controller configured to control an X-ray source and an X-ray detector to obtain m (m is an integer of 2 or more) number of consecutive divided projection images at each of preset n (n is an integer of 1 or more) number of imaging angles while rotating around a rotary axis and facing each other, a projection image synthesizing unit configured to generate a synthetic projection image by synthesizing the m number of divided projection images obtained in correspondence to each imaging angle, and an image reconstructor configured to generate a reconstructed image by reconstructing the synthetic projection image.

Abstract: A support structure and an imaging component are provided in an imaging system. The imaging component comprises a port extension that frames an opening for x-ray emission. The support structure comprises a recess for receiving the port extension, the recess also framing an opening for x-ray transmission. The imaging system may be a computed tomography (CT) imaging system, x-ray diagnostic system, or other imaging system.

Abstract: The present invention relates to a system for measuring a micro-vascular flow distribution of a tissue portion of a mammal comprising means (101) for measuring a first indicator (MTT) for the blood flow through a capillary bed, means (102) for measuring a second indicator (CTTH) of heterogeneity of the blood flow in said capillary bed, and a first processor (110) arranged for using the first and the second indicator to estimate an extraction capacity (EC) of a substance from the blood in said capillary bed.

Abstract: An arrangement includes a gantry of a medical imaging device and an omnidirectional suspension for moving the arrangement relative to a support.

Abstract: A method and system for determining the position of a C-arm of an X-ray system is disclosed. The method includes obtaining a primary X-ray image of a desired location on a patient's body, obtaining a secondary X-ray image of the desired location on the patient's body, adjusting the secondary X-ray image with respect to the primary X-ray image using one or more touch based gestures, determining the subsequent location for X-ray imaging on the patient's body, and positioning the C-arm of the X-ray system to the subsequent location for X-ray imaging on the patient's body.

Abstract: Systems and methods for breast x-ray tomosynthesis that enhance spatial resolution in the direction in which the breast is flattened for examination. In addition to x-ray data acquisition of 2D projection tomosynthesis images ETp1 over a shorter source trajectory similar to known breast tomosynthesis, supplemental 2D images ETp2 are taken over a longer source trajectory and the two sets of projection images are processed into breast slice images ETr that exhibit enhanced spatial resolution, including in the thickness direction of the breast. Additional features include breast CT of an upright patient's flattened breast, multi-mode tomosynthesis, and shielding the patient from moving equipment.

Abstract: Systems (100) and methods (200, 1600) for generating a medical and/or dental diagnosis. The methods comprise: obtaining a true color image of a select part of a subject's body; converting the true color image to a grayscale intensity image; generating a histogram equalized image by adjusting the grayscale intensity image's contrast; processing the histogram equalized image to generate first information useful for generating the medical and/or dental diagnosis, the first information comprising at least one of (a) a ratio of a disease region's pixel mean intensity value and a normal region's mean pixel intensity value and (b) an indicator indicating whether a periodontal ligament space has widened or broken; and generating the medical and/or dental diagnosis based at least on the first information.

Abstract: Anatomic range planning is provided in positron emission tomography (PET). The user indicates one or more ranges on an image of a patient based on anatomy. Rather than planning by bed position, the planning is based on the anatomy of the patient without reference to the length of the PET detector. The user interface for PET examination avoids overlapping boxes and other confusion based on bed position. Different anatomical ranges may be assigned different PET parameters, such as reconstruction parameters. A processor may automatically alter the examination (e.g., by extending the detection range beyond the region of interest or by increasing duration at an end position) to account for the sensitivity profile since the anatomical region of interest is known. Anatomical region specific directions may be included as part of planning, aiding in performing different protocols for different anatomical ranges.

Abstract: In a multi-session imaging study, information from a previous imaging session is stored in a Binary Large Object (BLOB). Current emission imaging data are reconstructed into a non-attenuation corrected (NAC) current emission image. A spatial transform is generated aligning a previous NAC emission image from the BLOB to the current NAC emission image. A previous computed tomography (CT) image from the BLOB is warped using the spatial transform, and the current emission imaging data are reconstructed with attenuation correction using the warped CT image. Alternatively, low dose current emission imaging data and a current CT image are acquired, a spatial transform is generated aligning the previous CT image to the current CT image, a previous attenuation corrected (AC) emission image from the BLOB is warped using the spatial transform, and the current emission imaging data are reconstructed using the current CT image with the warped AC emission image as prior.

Abstract: A method and system are provided for the automatic positioning of a recording system with an x-ray detector and an x-ray source with respect to a subarea of an examination object. A x-ray source to examination object distance is calculated from a displacement distance, the relative pixel distance and the known x-ray source to x-ray detector distance. The x-ray source to examination object distance is used for automatic positioning of the recording system.

Abstract: A radioactive source and preparing as well as applying methods are disclosed. According to the method of preparing the radioactive source, when a preset dose of a radiopharmaceutical with a half-life shorter than a preset threshold is provided, a solid radioactive source having a predetermined shape may be obtained by mixing and moulding the radiopharmaceutical with a preset solution and a moulding material. The moulding material may comprise a curing agent and/or a water-absorbing material.

Abstract: When displaying a plurality of images in different conformations in relation to information of a tissue motion typified by a heart wall motion, support information which is used to rapidly and easily visually confirm a relative positional correspondence relationship between an MPR image, a polar mapping image, and a three-dimensional image is generated and displayed. A marker indicative of a desired local position is set and displayed as required. Further, a position corresponding to the set or changed marker may not be present on the MPR image. In such a case, the MPR image always including a position corresponding to the set or changed marker is generated and displayed by automatically adjusting a position of an MPR cross section.

Abstract: A tracking, and point-of-view-based imaging, device is configured for deriving a position of and a direction from, a location at a distal tip of an elongated instrument, for performing coordinate system transformation in accordance with the position and direction, and for forming, from the location and based on a result of the transformation, a local view that moves with the tip. The device can keep, with the movement, a field of view of the local view fixed but the local view otherwise in synchrony with the position and the direction. From real-time ultrasound imaging, the local view and a more overall view that includes the tip but which does not move with said tip can be displayed. The distal tip can be that of a catheter and can be outfitted with a micromanipulator for surgery aided interactively by the combination of dynamic local and overall imaging.

Abstract: There is provided an assembly for hands-free ultrasonic monitoring and imaging via a suprasternal notch of a target individual, comprising: a cradle comprising: a lower portion having a surface shaped according to a surface of an anatomical region including a suprasternal notch of sample individual(s), and a holding portion connected to the lower portion, the holding portion shaped to fit a housing component, the holding portion including at least one elongated slot elongated at a predefined angle relative to the surface of the lower portion, and a housing component comprising: an ultrasound transducer, a multi-directional mechanism for adjusting the position of the ultrasound transducer within the housing component along at least two degrees of freedom, and a securing mechanism set at a location within housing component for engaging the at least one elongated slot of the cradle when housing component is fitted within the holding portion of the cradle.

Abstract: In one aspect, the invention relates to one or more rotatable elements and one or more stationary element such that the elements are arranged along a common axis of rotation co-linear with or substantially parallel to an optical path. The optical path is a portion of a sample arm of an interferometer. Further, the rotatable and stationary elements are configured to couple electrical signals and optical signals between a data collection probe and an interface unit or other component of an imaging system. In one embodiment, the data collection probe is a combination ultrasound and OCT probe. In one aspect, the invention relates to a rotary joint in which the optical fiber and a fiber optic rotary joint lie in the center of one or more conductive elements of an electrical rotary joint which are annularly disposed around one or both of the optical fiber and optical rotary joint.

Abstract: An ultrasound imaging system (100) includes a transducer array (102). The transducer array includes a first set of transducer elements (206 or 208, 302 or 304) and a second set of transducer elements (208 or 206, 304 or 302). The first and second sets of transducer elements includes long axes and are angularly offset from each other by a non-zero angle with respect to the long axes. The ultrasound imaging system further includes a velocity processor (120) that processes echoes received by the first and second sets of transducer elements and determines an axial and two transverse flow velocity components based on the received echoes.

Abstract: An ultrasound inspection apparatus includes a region setting section setting a plurality of regions within the inspection object; a sound velocity calculator calculating a sound velocity of each of the plurality of regions; a sound velocity obtainer obtaining a preliminary sound velocity of a region of interest; and an image quality determiner determining an image quality of the region of interest based on the preliminary sound velocity. The preliminary sound velocity obtained by the sound velocity obtainer is employed as a sound velocity of the region of interest when a determination result made by the image quality determiner is positive, and the sound velocity of the region of interest is calculated by the sound velocity calculator when the determination result is negative.

Abstract: Vector Doppler Imaging (VDI) improves on conventional Color Doppler Imaging (CDI) by giving speed and direction of blood flow at each pixel of a display generated by a computing system. Multiple angles of Plane wave transmissions (PWT) via an ultrasound transducer conveniently give projected Doppler measurements over a wide field of view, providing enough angular diversity to identify velocity vectors in a short time window while capturing transitory flow dynamics. A fast, aliasing-resistant velocity vector estimator for PWT is presented, and VDI imaging of a carotid artery with a 5 MHz linear array is shown using a novel synthetic particle flow visualization method.

Abstract: Enhanced ultrasound imaging apparatus and associated methods of work flow are disclosed herein. In one embodiment, a method of ultrasound scanning includes receiving a first dataset representing ultrasonic scanning of a target anatomy of a patient in a two-dimensional mode and generating a two-dimensional ultrasound image of the scanned target anatomy based on the received first dataset. The method also includes accepting a definition of at least one of a sagittal plane, a transverse plane, and a coronal plane on the displayed two-dimensional ultrasound image. Thereafter, a second dataset representing ultrasonic scanning of the target anatomy in a three-dimensional mode is received and an ultrasound image at the coronal plane of the target anatomy is generated based on (1) the three-dimensional scanning and (2) the accepted definition of at least one of the sagittal plane, the transverse plane, and the coronal plane.

Abstract: An ultrasound diagnostic apparatus that can combine image data and has a first image mode and a second image mode, includes: a hardware processor that sets a scan parameter of an image of a first image mode according to restriction information of the scan parameter, when the second image mode is turned on and generates control information; a transmitter that generates a drive signal and inputs the drive signal to an ultrasound probe that transmits transmission ultrasound to a test object and receives reflected ultrasound; a receiver that generates a reception signal of the images in the first and second image modes from an electric signal generated in the ultrasound probe; a first-image-mode image generator that generates first-image-mode image data; a second-image-mode image generator that generates second-image-mode image data; and a combiner that generates combined image data by combining the generated first-image-mode image data and second-image-mode image data.