The present invention relates to a device for measuring a physiological parameter of a human limb such as peripheral capillary oxygen saturation. The device comprises a body comprising an opening for receiving the limb therein, a moving means coupled to the body and movable relative to the body, a receiving element for receiving a sensor configured for interacting with the limb received in the opening, wherein the body comprises a first section and a second section movable relative to the first section for defining the opening, wherein the moving means is coupled to the second section so as to adjust the size of the opening by moving the moving means.

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 pulse oximetry system for reducing the risk of electric shock to a medical patient can include physiological sensors, at least one of which has a light emitter that can impinge light on body tissue of a living patient and a detector responsive to the light after attenuation by the body tissue. The detector can generate a signal indicative of a physiological characteristic of the living patient. The pulse oximetry system may also include a splitter cable that can connect the physiological sensors to a physiological monitor. The splitter cable may have a plurality of cable sections each including one or more electrical conductors that can interface with one of the physiological sensors. One or more decoupling circuits may be disposed in the splitter cable, which can be in communication with selected ones of the electrical conductors. The one or more decoupling circuits can electrically decouple the physiological sensors.

Radiology holding device (1) for a radiology apparatus (50) such as an X-ray apparatus (51), MRT apparatus (52), CT apparatus (53) or radiotherapy apparatus (54), comprising an attachment device (2) and pivotally accommodated thereat, a supporting arm (3) with at least one axle component (4) and a supporting component (5). Furthermore, a locking device (6) is provided for locking the supporting arm (3) in at least one locking position (7). An actuating mechanism (8) serves to actuate the locking device. A holding device (9) provided for attachment to the supporting arm (3) is comprised to provide a patient with a holding means. The axle component (4) of the supporting arm (3) is pivotally accommodated on the attachment device (2). The actuating mechanism (8) comprises a transfer component (11) passing through a hollow section (10) of the axle component (4).

Method and systems for determining acceptance criteria for identification of occluding particles in a lumen of a device are provided. The methods and systems can be used in methods of identifying an occluded device in an inspection method.

A protective barrier for protecting an arm of a patient during a blood pressure measurement is disclosed. The protective barrier includes a waterproof layer defining an exterior waterproof surface of the protective barrier and an absorbent layer defining an interior absorbent surface of the protective barrier. An adhesive layer is disposed between the waterproof layer and the absorbent layer to bond the waterproof layer and absorbent layer together to form the protective barrier. The protective barrier also includes at least one adhesive tab extending outward from an edge of the protective barrier to removably attach the adhesive tab to a portion of the protective barrier to hold the protective barrier around the arm of the patient during the blood pressure measurement.

Disclosed herein is a dome shield for biomicroscopes and/or other optical instruments. The dome shield is rigid and durable as well as optically clear and prevents respiratory droplets from contacting the face and head of the instrument operator during eye exams. The dome shield has a smooth surface and is removable from the instrument for cleaning and disinfection. In a further aspect, the dome shield allows for the adjustment of the interpupillary distance of the instrument oculars without removal of the dome shield. Also disclosed are adapters or seals for holding the dome shield in place and preventing the transmission of aerosols or droplets at the point of attachment of the dome shield to the optical instrument.

Apparatuses, systems, and methods are provided herein to control movement of a patient's eyelid during a diagnostic procedure such as scanning the patient's eye with an ultrasound or optical imaging device. Strips having a non-adhesive portion and an adhesive portion are attached to each eyelid. The patient can then pull on distal ends of the strip to open the patient's eye and press the strips into an eyepiece to hold the patient's eyelids and keep the patient's eye open.

A system of mated connectors includes a connector having one or more connector quadrants comprising electrical contacts and a mating connector detachably secured to the connector. The mating connector includes one or more mating quadrants and electrical contacts. The mating connector configured to provide electrical coupling to the connector detachably secured thereto. The electrical contacts of a first quadrant of connector quadrants have a first predetermined pin-out and the electrical contacts of a second quadrant of the connector quadrants have a second predetermined pin-out. The electrical contacts of each quadrant of a first pair of the mating quadrants have the first predetermined pin-out and the electrical contacts of each quadrant of a second pair of the mating quadrants have the second predetermined pin-out.

A device for capturing and disposing of urine comprises an elongated body. The elongated body includes a top surface, a groove disposed in the top surface, a bottom surface, a handle end, and a groin end opposite of the handle end. The device comprises an open neck in fluid communication with the aperture and extending away from the bottom surface. The device comprises a splashguard disposed at least partially around the aperture and extending away from the top surface. A container, such as a disposable bag, may be removably disposed on the open neck.