Apparatus and methods related to an underbody support for supporting a body of a being, such as during surgery to prevent contact pressure injuries. In certain embodiments, the underbody support may include one or more inflatable chambers enclosing a volume. At least one of the inflatable chambers may include one or more compression sensitive switches for monitoring the volume of the inflatable chamber, and the one or more compression sensitive switches may be located within the inflatable chamber. In some embodiments the one or more compression sensitive switches are sized to close when the said inflatable chamber is deflated to a desired residual volume.

The present invention includes a system and device for aiding in the diagnosis of a physiological abnormality resulting in detectable, measurable variations in contents of breathed air. The system includes a handheld unit defining an airway, wherein the airway includes a plurality of sensors adapted to measure a plurality of parameters related to the presence of a physiological abnormality. The system further includes a control unit remotely connected to the handheld unit. The control unit includes a controller adapted to receive input signals from the handheld unit and remit output signals in response thereto. The output signals are usable by a user in determining the presence or absence of a physiological abnormality. The control unit further also can include a display adapted to display the output signals to a user thereby easing the determination of the physiological abnormality. The system further includes a mouthpiece selectively connectable to the handheld unit. The mouthpiece can include a filter adapted to substantially prohibit the passage of germs into the airway of the handheld unit.

Embodiments are disclosed for a method for restoring a wearable biological sensor. The method includes determining that a wearable biological marker sensor comprising a reference electrode is placed within a restoration apparatus. The restoration apparatus includes a correct reference electrode, a counter electrode, and a chloride solution. The reference electrode is in electrical contact with the correct reference electrode and the counter electrode through the chloride solution. The method additionally includes determining whether the reference electrode is degraded based on a voltage differential between the reference electrode and the correct reference electrode. The method also includes restoring the reference electrode, if the reference electrode is degraded, by applying a voltage to a circuit. The circuit includes the reference electrode and the counter electrode. Further, multiple chloride ions of the chloride solution bond with a plurality of silver atoms of the reference electrode.

A shunt device is configured to be inserted into a puncture in a tissue wall that defines a horizontal reference plane. The shunt device includes a shunt body. The shunt body includes a central flow tube extending from a first axial end to a second axial end and defining a central axis therethrough that is angled from a reference axis extending perpendicular through the horizontal reference plane; a flow path extending through the central flow tube; and a plurality of arms extending outward from the central flow tube and configured to secure the shunt device to the tissue wall. The plurality of arms includes a first distal arm and a second distal arm attached to the first axial end of the central flow tube and a first proximal arm and a second proximal arm attached to the second axial end of the central flow tube.

An exercise machine including a heart rate monitor with antimicrobial contacts. The exercise machine includes one or more hand grips and a plurality of heart rate contacts. The plurality of heart rate contacts are disposed on the one or more hand grips. Each of the plurality of heart rate contacts includes a contact surface and an electrical insulator. The contact surface includes an oligodynamic material. The electrical insulator is disposed between the contact surface and a hand grip body. The contact surface is electrically insulated from the hand grip body by the electrical insulator

Apparatus and methods related to an underbody support for supporting a body of a being, such as during surgery to prevent contact pressure injuries. In certain embodiments, the underbody support may include one or more inflatable chambers enclosing a volume. At least one of the inflatable chambers may include one or more compression sensitive switches for monitoring the volume of the inflatable chamber, and the one or more compression sensitive switches may be located within the inflatable chamber. In some embodiments the one or more compression sensitive switches are sized to close when the said inflatable chamber is deflated to a desired residual volume.

The present invention is a holding case for an instrumented intra-oral appliance containing recorded data, which charges the intra-oral appliance while not in use and transmits recorded data to storage for review and analysis. The transferred data may be subjected to downloading, validation, storage, analysis, measuring, database fusion (with for example data from other devices), data output, and data recording. Output may be further transferred to a computer, processor, phone, tablet computer, or other hardware for review by a user or technical, research, medical, or other oversight personnel. The holding case can also send data to the appliance including firmware or other onboard operating instructions. The holding case can include additional features such as custom dentition of the user, UV light, or a visual user interface.

A method for aiding in the diagnosis of a physiological abnormality resulting in detectable, measurable variations in contents of breathed air. The system includes a handheld unit defining an airway, wherein the airway includes a plurality of sensors adapted to measure a plurality of parameters related to the presence of a physiological abnormality. The system further includes a control unit remotely connected to the handheld unit. The control unit includes a controller adapted to receive input signals from the handheld unit and remit output signals in response thereto. The output signals are usable by a user in determining the presence or absence of a physiological abnormality. The control unit further also can include a display adapted to display the output signals to a user thereby easing the determination of the physiological abnormality. The system further includes a mouthpiece selectively connectable to the handheld unit. The mouthpiece can include a filter adapted to substantially prohibit the passage of germs into the airway of the handheld unit.

A device constricts vessels and includes a constricting belt and a lock. One end of the constricting belt is arranged in a fixed manner in the lock and one end of the constricting belt is movably arranged in the lock. The constricting belt and the lock include a material having a smooth surface. In a closed state, the lock is a smooth, cube-shaped or elongated body, which includes no further external openings or projections apart from the feedings for the constricting belt.

A system for detecting and projecting a vein pattern onto a patient comprises a smartphone and an accessory. The accessory contains a IR light source for illuminating the vein pattern of a patient and a visual image projector arranged to project the vein pattern onto the patient. The camera of the smartphone captures the reflected IR vein pattern image and communicates the vein pattern to the visual image projector within the accessory which in turn projects the visual vein image back onto the patient.