An intraoral imaging system comprising an intraoral adapter. The intraoral adapter may be operably coupled to a mobile device. The intraoral adapter may comprise an elongated housing comprising a viewing channel. The viewing channel may define a field of view of an intraoral region of a subject's mouth for intraoral scanning using a camera of a mobile device. The elongated housing may comprise a flange that is positioned outside of the field of view of the intraoral region of the subject's mouth. The intraoral imaging system may further comprise an image processing unit configured to (i) process a plurality of intraoral images and/or videos captured using the camera of the mobile device, and (ii) determine a dental condition of the subject based at least in part on the plurality of intraoral images and/or videos.

An interchangeable smartwatch system includes a smartwatch body and a band including one or more sensors. The smartwatch body is removable from the band, which permits a user to continue to collect data, such as the user's heartrate, when the smartwatch body is removed from the band. The smartwatch body can receive a wireless charge when removed from the band, and then transfer a charge to the band when the smartwatch body is reconnected to the band.

In the present invention, a system and associated method is provided for monitoring fetal vital parameters. The system includes a base unit, a monitoring hub including a digital signal processor/controller and operably connected to the base unit by a single channel digital signal protocol cable, e.g., a USB cable, and a number of fetal monitoring sensors operably connected to the monitoring hub. The controller processes the signals from the sensors into a single USB protocol which can be sent along a single cable to the base unit. The USB cable allows power to be supplied to the hub in order to charge a battery used to operate the hub and the sensors connected to the hub when disconnected from the base unit to allow the patient using the hub to move freely about the base unit, with all sensor signals from the hub being wirelessly transmitted to the base unit.

An electric apparatus of a bio-signal measurement system comprising a front part and a back part. The front part comprises a compartment at a back side of the front part, the compartment housing the back part when inserted therein. The back part comprises an electric circuit conductors and an extension plate, which extends to the front part within the electric apparatus. The extension plate comprises first electric contacts of the electric circuit conductors, the first electric contacts residing within the front part when the back part is within the compartment, the first electric contacts acting as counter-electrodes or electrodes of a front flap of a disposable patch electrode structure. The electric apparatus receives the front flap of the disposable patch electrode structure into a volume of the front part for forming a contact between the first electric contacts and the electrodes of the front flap. At least one of the back part and the front part comprises resin holes, and the compartment contains resin received through the resin holes, the resin immobilizing the front part and the back part with respect to each other and attaching them together.

A handle for a tool is provided that is formed of a core positioned within a sleeve of a temperature resistant material to form a handle with a space between the core and the sleeve. The core can be formed by machining a metal material while the sleeve and an optional skin positioned on the sleeve can be molded. The materials forming the sleeve and skin, and the space formed between the core and sleeve, create a handle that can be adapted to form a variety of different tools with different mechanisms located in the core that also has improved heat transfer characteristics for sterilization purposes.

An imaging catheter includes a shaft extending along a longitudinal axis between a proximal end and a distal end, a plug at the proximal end, and an imaging sensor at the distal end. The plug includes electrical terminals oriented perpendicular to the longitudinal axis. The imaging sensor includes an infrared transmitter and an infrared receiver.

A patient monitoring device includes reusable and disposable portions. The disposable portion includes two or more electrodes for coupling to the skin of the patient, a battery, and a first set of electrical contacts. The reusable portion includes a processor, memory, a second set of electrical contacts, and sensing circuitry coupled to the at least two electrodes, wherein the reusable portion is mechanically coupleable to the disposable portion and wherein the reusable portion is electrically coupleable to the disposable portion through the first and second electrical contacts. The sensing circuitry and the processor are powered from the battery through the coupled first and second electrical contacts, and wherein when the reusable portion and the disposable portion are mechanically uncoupled after having been mechanically coupled, the disposable portion is rendered unusable by the process of mechanically uncoupling the reusable portion and the disposable portion.

A detection device for active dental caries and/or tooth erosion, comprising a light detection means, fluid dispensing means, and an atomiser, wherein the fluid dispensing means and atomiser are in fluid communication such that a disclosing fluid contained within the fluid dispensing means is dispensed through the atomiser evenly onto a surface of interest.

A probe comprising a body portion and a tip portion. The body portion comprises: a first mounting portion comprising a plurality of first carriers, each first carrier being arranged to support an elongate first waveguide, the first carriers being disposed in an equiangular arrangement around a longitudinal axis of the body portion; a plurality of first waveguides, each first waveguide being supported in a respective one of the plurality of first carriers; and a body end fitting at which first ends of the first waveguides are supported in the equiangular arrangement around the longitudinal axis of the body portion such that the first waveguides can transmit electromagnetic radiation signals from an energy source to the body end fitting and/or transmit electromagnetic radiation signals from the body end fitting to a receiver. The tip portion comprises: a second mounting portion comprising a plurality of second carriers, each second carrier being arranged to support an elongate second waveguides, the second carriers being disposed in the equiangular arrangement around a longitudinal axis of the tip portion; a plurality of second waveguides, each second waveguides being supported in a respective one of the plurality of second carriers; and a tip end fitting at which first ends of the second waveguides are supported in the equiangular arrangement around the longitudinal axis of the tip portion; and an elongate conduit for piercing human tissue.

Gastric resident electronics, devices, systems, and related methods are generally provided. Some embodiments comprise administering (e.g., orally) an (electronic) resident structure to a subject (e.g., a patient) such that the (electronic) resident structure is retained at a location internal to the subject for a particular amount of time (e.g., at least about 24 hours) before exiting said location internal to the subject. In some embodiments, the resident structure is a gastric resident electronic. That is to say, in some embodiments, the resident structure is configured for relatively long gastric residence and comprises an electronic component. In some embodiments, the structures and components described herein may comprise one or more components configured for the delivery of an active substance(s) (e.g., a pharmaceutical agent) to the subject. In some embodiments, the device has a modular design, combining an electronic component(s) with materials configured for controlled and/or tunable degradation/dissolution to determine the time at which (gastric) residence is lost and the device exits the location internal to the subject. For example, in some embodiments, the resident structure comprises an electronic component and one or more additional components associated with the electronic component such that the resident structure is configured to be retained at a location internal to a subject for greater than or equal to 24 hours.