An analyte meter having a test strip ejector. The analyte meter includes a housing body including a front side, a back side, a first side, a second side, an end, and a test strip port at the end configured to receive a test strip; and a strip ejector configured to eject the test strip from the test strip port. The test strip ejector includes a slide member slidable relative to the housing body, an engagement member coupled to the slide member and configured to be contacted by a user, the engagement member located on the back side of the housing body opposite then display screen, and a push member coupled to the slide member and positioned to be engageable with the end of the test strip. Test strip ejectors and methods of ejecting test strips are provided, as are numerous other aspects.

A customized active dongle plus cable arrangement is used to show combined and time synchronized data from different medical devices in realtime or from a specified point in time on a connected medical grade standard display monitor. The active cable arrangement of the invention is capable of communicating with a plurality of legacy and third-party medical devices via their designed physical and proprietary semantic protocols. Using the active cable arrangement, the user has the sensation of “plug and play”, by simply connecting the medical device to the monitor USB port (or to the USB hub extending the monitor USB port). The active cable arrangement of the invention transforms the proprietary protocol of the medical device, providing the monitor with standardized output for data, waveforms, alarms, setting, notifications, values and other useful information. The standard medical grade display monitor will support the display of such information according to the software API and specifications of the normalized JSON protocol.

The present application discloses a deception detection systems and processes that use a processor; an eye tracking device connected to the processor, and a set of physiological sensors connected to the processor. The eye tracking device may comprise an infrared camera that is positioned to be able to track the oculomotor activity of a subject. The deception detection system also includes a respiratory sensor connected to the processor positioned to be able to track the respiration of the subject and an electrodermal sensor connected to the processor positioned to be able to detect the electrodermal activity of the subject. Additionally, the deception detection system includes a cardiovascular sensor connected to the processor positioned to be able to detect the cardiovascular activity of the subject and a speaker connected to the processor positioned to be able to transmit sound to the subject.

A regional oximetry system has a display and at least one processor causing a plurality of views to be displayed on the display, each configured to occupy at least a portion of the display. The views are adapted to present data responsive to at least one physiological signal. A first sensor port is configured to receive at least a first physiological signal representative of a regional tissue oxygenation level, and a second sensor port is configured to receive at least a second physiological signal representative of an arterial oxygen saturation level. One view presents a first trend graph of the first physiological signal and a second trend graph of the second physiological signal. An area between the first trend graph and the second trend graph can include a differential analysis of regional-to-central oxygen saturation.

A sensing guidewire device used to measure physiological parameters within a living body. In one embodiment, the device is used to measure the fractional flow reserve (FFR) across a stenotic lesion in a patient's vasculature. The device includes a sensor that is adapted to be affixed near the distal end of a guidewire. The guidewire contains a corewire, processed to enclose electrical conductors in a sealed, off-centered interstice or channel, with an outer diameter approximate to the outer diameter of the device, running substantially the full length of the device, and has a homogenous outer surface. The enclosed eccentric channel provides space for electrical conductors to move freely. The corewire can have a tapered segment to create desirable flexibility. A solid connector comprised of alternating conductive and insulating elements for connecting the conductors to an external device is disclosed. The guidewire can be advanced through a patient's blood vessels, returning pressure measurements across vessel blockages that allow for accurate assessment of blockage severity and lead to better clinical outcomes.

A text-to-Braille service is disclosed herein that includes an imaging module. The imaging module includes multiple cameras arranged to image part of a page of text. Each camera has a different field of view of the page, so each camera images a unique portion of the page. The multiple images can be combined to form a single image upon which optical character recognition is performed. The text of the page can be converted into Braille characters and displayed on a refreshable Braille device.

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 non-invasive device for holding one or more respiratory sensors includes a housing anatomically shaped to be attached to a subject's face in proximity to the respiratory orifices, and including one or more flow directing elements for directing at least a portion of the respiratory flow to one or more locations in the housing configured to hold at least one sensor.

A method for sensing at least one property with an instrument, wherein the instrument comprises an elongate shaft body; the method comprising the steps of: securing a sensor film conformally to the elongate shaft body, the sensor film comprising: at least one substrate core having a first surface and a second surface; at least one sensing element; a first conductive layer residing on the first surface, the first conductive layer having first solder mask coated thereon, and wherein the first conductive layer is grounded; a second conductive layer residing on the second surface, the second conductive layer having a second solder mask coated thereon, and coupled to the at least one sensing element; causing the at least one sensing element to measure at least one property and output a sensed signal and to convey the sensed signal via the second conductive layer to an electronics module.

A sensor film comprising: a substrate core having a first surface and a second surface; at least one sensing element for sensing at least one property; a first conductive layer residing on the first surface, the first conductive layer having first solder mask coated thereon, and wherein the first conductive layer is grounded; and a second conductive layer residing on the second surface, the second conductive layer having a second solder mask coated thereon, and coupled to the at least one sensing element.