A delivery apparatus including a measurement device to monitor the real-time diameter of a prosthetic heart valve can include a handle, at least one first actuator extending from the handle and being configured to apply a distally directed force to a proximal end portion of a prosthetic heart valve, at least one second actuator extending from the handle and being configured to apply a proximally directed force to a distal end portion of a prosthetic heart valve, a sensor, and first and second motion-transmitting members coupled to the first and second actuators, respectively, and having proximal ends coupled to the sensor, wherein the sensor senses relative movement between the motion-transmitting members upon actuation of the first and second actuators to determine the diameter of the prosthetic heart valve as it expands from a radially compressed configuration to a radially expanded configuration.

A system (100) for assessing a subject at risk of a soft tissue abnormality such as deep vein thrombosis (DVT), comprises a motion sensor (108) which is adapted to be fixed, in use, to a muscle (106) of the subject. The motion sensor includes a transmitter (206) configured to transmit a signal (400) representing motion of the sensor. A receiver (118) is configured to receive the signal from the transmitter of the motion sensor. A signal processor (112) is coupled to the receiver and configured to analyse first and second data sets received via the receiver from the motion sensor. The first and second data sets represent respective first and second oscillatory mechanical responses of first and second muscles of the subject resulting from mechanical stimuli. The analysis comprises determining first and second parameter sets characterising the first and second oscillatory mechanical responses, and comparing the first parameter set with the second parameter set to assess a possible presence of DVT in the subject.

Disclosed is a portable medical device that can automatically sense the location of a vein and inject a needle to precisely pierce the vein without damaging surrounding tissue. The disclosed device does not require additional assistance for a person to use it on oneself. The disclosed device may optionally employ a basic arm cuff style, and can be used, inter alia, in hospital, military, home infusion, infusion treatment center, emergency response, school, or disaster relief settings.

Knee joint laxity testing apparatus includes a thigh cradle assembly, a shank cradle assembly, and a heel cradle assembly. The apparatus is configured to measure knee laxity in three planes of motion: anterior-posterior translations; varus-valgus rotations; and internal-external rotations. The thigh cradle assembly, shank cradle assembly, and heel cradle assembly are mounted on a common base. A thigh fixation system is attached to the thigh cradle assembly both at the proximal and distal ends to firmly stabilize the thigh in the thigh cradle. The patella pad and distal thigh fixation system are mounted on a U-bar assembly. The distal thigh fixation system includes two condyle pad adjustment arms upon which a respective condyle pad is mounted, and a patella pad mounted to a linear track on an underside of the U-bar assembly.

The present invention provides an intelligent attention rehabilitation system, which includes a gaze tracking module, an attention evaluation module, an intelligent computation and program push module, a data storage module, and an assessment and feedback module. In the invention, based on the theoretical CMA, data on attention level is acquired; and the advantages of simple configuration requirements and low cost of the gaze tracking technology, and intelligent computation of AI algorithms are used, to digitally evaluate attention of a subject. Besides, the DQN algorithm is used to realize intelligent push of related attention training guidance and programs, to solve the problem of family attention rehabilitation training under the lack of scientific guidance in the market currently, thereby providing a more scientific and accurate family attention rehabilitation evaluation and training system for the need.

Provided is an apparatus configured to analyze a component of an object, the apparatus including a signal detection sensor including a light source configured to emit light to the object, a detector configured to detect a signal of light scattered or reflected from the object, an ultrasonic generator configured to transmit an ultrasonic wave toward the object at irregular ultrasonic transmission time intervals to modulate a frequency of the light emitted to the object, and a controller configured to control the ultrasonic transmission time intervals of the ultrasonic generator to be irregular, and a processor configured to control the signal detection sensor and analyze the component of the object based on the signal of light detected by the detector.

A method is provided. The method includes identifying whether an amount of change in the pressure detected through an atmospheric pressure sensor is greater than or equal to a specified first threshold, in response to the amount of change in the pressure being greater than or equal to the first threshold, waking up a biometric sensor module including a plurality of electrodes in which some of the plurality of electrodes are disposed to come into contact with a body part of a user when the electronic device is worn, and others thereof are disposed to not come into contact with a body part of the user when the electronic device is worn, and identifying whether an interrupt signal, indicating that a state in which the plurality of electrodes are electrically connected is maintained for a specified first time or more, is received from the biometric sensor module.

A device can detect and retrieve a blood clot by advancing a catheter with a clot sensing element through a patient's vascular system. The catheter can map, using an electromagnetic sensor disposed at a distal end of the clot sensing element, the patient's vascular system. A force sensor can generate a position signal indicating the clot sensing element contacted the clot in the patient's vascular system. Once located, a blood clot retrieval device can be deployed through the catheter and a lumen in the clot sensing element to remove the clot from the patient's vascular system.

A pulse transit time measurement device according to an aspect includes: a belt unit; a plurality of first electrodes and second electrodes provided on the belt unit; a third electrode provided on the belt unit; a first electrocardiographic signal acquisition unit that acquires a first electrocardiographic signal of a user using the plurality of first electrodes; a second electrocardiographic signal acquisition unit that acquires a second electrocardiographic signal of the user with the second electrode and the third electrode; a feature amount parameter calculation unit that calculates a feature amount parameter related to a waveform feature point of the first electrocardiographic signal on the basis of a waveform feature point of the second electrocardiographic signal; a pulse wave signal acquisition unit that acquires a pulse wave signal representing a pulse wave of the user; and a pulse transit time calculation unit that detects a waveform feature point.

A skin-adorned physiological or biochemical sensing device is disclosed herein. The device preferably comprises a first substrate and a second substrate. The first substrate comprises an array of solid microneedles designed to penetrate a biological interface to access a physiological fluid or tissue. Each microneedle is capable of electrical interface with the physiological fluid or tissue. The second substrate comprises integrated circuitry designed to transduce at least one signal produced by an electrophysiological or electrochemical reaction. A sensing device is formed that is capable of interpreting the signal arising from the electrophysiological or electrochemical reaction to ascertain the level of some physiological or biochemical entity.