The present invention relates to a pregnancy monitoring system, the system comprising a fetal monitoring transducer (20) arranged to detect fetal medical condition information; and a control device (48) comprising a motion assessment unit (50) and a signal output unit (52); wherein the fetal monitoring transducer (20) is arranged to detect fetal movement indicative information, wherein the motion assessment unit (50) is arranged to process fetal movement grading information, in addition to the fetal movement indicative information, wherein the signal output unit (52) is arranged to simultaneously output a fetal condition signal, particularly a fetal heart rate signal, and an augmented fetal movement signal based on the fetal movement indicative information and the fetal movement grading information, wherein a characteristic property of the original fetal movement information is still present in the augmented fetal movement signal. The disclosure further relates to a corresponding pregnancy monitoring method.

Systems and method for destroying or inhibiting cancer cells and other rapidly-dividing cells include applying AP magnetic fields having a defined frequency of 5 Hz-500 kHz and a field strength of 0.1-5000 μT to a target body area that includes the cancer or other rapidly-dividing cells, and modifying the cancer or tumor microenvironment to increase the presence of cancer-suppressive cells or decrease the presence of cancer-promoting cells. In various embodiments, the systems and methods may include adjusting the therapy based on ultrasound imaging of the cancer cells during the application of the AP magnetic fields or during a cessation of applying the AP magnetic fields.

A method for diagnosing a joint condition includes in one embodiment: creating a 3d model of the patient specific bone; registering the patient's bone with the bone model; tracking the motion of the patient specific bone through a range of motion; selecting a database including empirical mathematical descriptions of the motion of a plurality actual bones through ranges of motion; and comparing the motion of the patient specific bone to the database.

A skin-mountable device (10) is disclosed comprising a surface (11) carrying an adhesive layer (20) for adhering the device to a skin region (1) and a removable non-adhesive cover layer (30) shaped as a loop having a first loop portion (31) covering the entire adhesive layer and a second loop portion (35) returning over the first loop portion, the second loop portion containing a pull tab (37) for pulling the cover layer from the adhesive layer when the skin-mountable device is positioned on said skin region. Also disclosed is a method of affixing such a skin-mountable device (10) to a skin region (1).

Systems, devices, and methods are disclosed for acquiring and providing information about orthopedic features of a body using acoustic energy. In some aspects, an acoustic orthopedic tracking system includes portable acoustic transducers to obtain orthopedic position information for feeding the information to an orthopedic surgical system for surgical operations.

A system for monitoring blood flow in a patient, the system comprising: a single-element disc-shaped ultrasound transducer for fastening to the patient and a controller subsystem. The controller subsystem is configured to: control the ultrasound transducer to transmit a series of plane-wave pulses into the patient in a propagation direction; sample reflections of the plane-wave pulses, received at the ultrasound transducer, from a region within the patient, to generate pulse-Doppler response signals; and process the pulse-Doppler response signals to calculate a blood flow curve for waveform analysis.

The present invention relates in a first aspect to an energy efficient simplified analogue phased array transducer for ultrasound beam steering, in a second aspect to a product, such as a small wearable ultrasound device for signalling changes in a human or animal body, such as a liquid volume in a body cavity of a human or an animal, in a third aspect to a use of said device, and in a fourth aspect to a method of operating an ultrasound device.

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.

An image display device includes circuitry configured to acquire, from a human body, three-dimensional image information on an inside of the human body including a biological tube using a plurality of ultrasonic sensors, specify a position, in the biological tube, where a width of a longitudinal cross-section of the biological tube is maximum using transverse cross-section information on the biological tube included in the three-dimensional image information, generate an image representing the longitudinal cross-section of the biological tube at the position specified, and output the image generated to a display.

A monitoring device includes an emitting part that emits an ultrasonic wave, a reception part that receives a reflected wave, and a detection part. When the emitting part emits the ultrasonic wave to a bottom of bladder of a subject, the reception part receives a reflected wave from the bottom of bladder, the reflected wave being based on the ultrasonic wave from the emitting part. The detection part detects, based on a result of reception by the reception part, a predetermined movement of the bottom of bladder or an index indicating a moving state of the bottom of bladder.