The endoscopic cleaning and lubrication system is a mechanical structure. The endoscopic cleaning and lubrication system is a medical device. The endoscopic cleaning and lubrication system clamps an endoscope to a working surface, such as an operating table, such that the endoscope can be cleaned and lubricated before use. The endoscopic cleaning and lubrication system comprises an endoscope clamp, a clamp mount, a gooseneck tube, and a table clamp. The gooseneck tube attaches the clamp mount to the table clamp. The table clamp attaches the endoscopic cleaning and lubrication system to the working surface. The clamp mount attaches the endoscope clamp to the gooseneck tube. The endoscope attaches to the endoscope clamp. The endoscope clamp holds the endoscope in a fixed position relative to the endoscopic cleaning and lubrication system. The gooseneck tube is a flexible structure that allows for the repositioning of the endoscope clamp.

A user assistance system of a reprocessing apparatus for cleaning and disinfecting at least one surgical instrument arranged in a cleaning basket, the user assistance system including: at least one electronically controlled display device; and a controller coupled with the at least one electronically controlled display device, the at least one electronically controlled display device being integrated in a loading station and being configured for arranging the cleaning basket on one side of the display device during the loading of the cleaning basket, the controller being configured to control the display device such that image information is displayed in an actual size and position which indicates a predetermined arrangement within the cleaning basket of the surgical instrument that is to be reprocessed.

Embodiments of the present invention are directed to providing an effective and reliable approach for cleaning an exposed surface of an imaging element (e.g., a lens) of apparatuses including but not limited to medical imaging instruments such as endoscopes and laparoscopes and the like. In the case of medical imaging instruments, cleaning apparatuses configured in accordance with embodiments the present invention can be cleaned while the distal end portion of the endoscope is in vivo. Such apparatuses have a cleaning member incorporated therein (e.g., a resilient polymeric wiper, a sponge, an absorbent pad or the like) that is used for cleaning the exposed surface of the imaging element. The apparatus is preferably adapted for being mounted on the imaging apparatus but can also be entirely or partially integral with one or more components of the imaging apparatus or system of which it is a component.

In accordance with one embodiment, an automated probe system includes a probe configured to be reversibly inserted into a live body part, a robotic arm attached to the probe and configured to manipulate the probe, a first sensor configured to track movement of the probe during an insertion and a reinsertion of the probe in the live body part, a second sensor configured to track movement of the live body part, and a controller configured to calculate an insertion path of the probe in the live body part based on the tracked movement of the probe during the insertion, and calculate a reinsertion path of the probe based on the calculated insertion path while compensating for the tracked movement of the live body part, and send control commands to the robotic arm to reinsert the probe in the live body part according to the calculated reinsertion path.

Embodiments of the present invention are directed to providing an effective and reliable approach for cleaning an exposed surface of an imaging element (e.g., a lens) of apparatuses including but not limited to medical imaging instruments such as endoscopes and laparoscopes and the like. In the case of medical imaging instruments, cleaning apparatuses configured in accordance with embodiments the present invention can be cleaned while the distal end portion of the endoscope is in vivo. Such apparatuses have a cleaning member incorporated therein (e.g., a resilient polymeric wiper, a sponge, an absorbent pad or the like) that is used for cleaning the exposed surface of the imaging element. The apparatus is preferably adapted for being mounted on imaging apparatus but can also be entirely or partially integral with one or more components of the imaging apparatus or system of which it is a component.

A medical device inspection system may include a base, a medical device holder on the base, a fiber scope holder on the base, a moveable roller moveably attached to the base such that it is free to rotate around an axis and move from a first position to a second position along the base, and a feeder coupled with the base for feeding a flexible portion of the fiber scope into a lumen of the medical device. During use, the flexible portion of the fiber scope may extend from the handle, around the moveable roller, and through the feeder to enter an opening in the lumen of the medical device.

A multifunctional enclosure is described having an elongated sleeve configured with an enlarged opening for the insertion of an elongated member of a medical probe. The multifunctional enclosure is configured to prevent the elongated member of the medical probe from swinging and becoming damaged during transport. The multifunctional enclosure may further comprise an attachment component for securing the medical probe to the multifunctional enclosure. Furthermore, at least one vent may be configured onto the multifunctional enclosure, such as on a first end closure portion. The vent may allow for adequate flow for sterilization and/or drying.

A medical device inspection system may include a base, a medical device holder on the base, a fiber scope holder on the base, a moveable roller moveably attached to the base such that it is free to rotate around an axis and move from a first position to a second position along the base, and a feeder coupled with the base for feeding a flexible portion of the fiber scope into a lumen of the medical device. During use, the flexible portion of the fiber scope may extend from the handle, around the moveable roller, and through the feeder to enter an opening in the lumen of the medical device.

A method and device for the remote eradication of pathogens comprising a light source for emitting UV light in the pathogen killing wave length range, and a tangible transmission medium, which is at least initially resistant to degradation by the UV light. An optical interface between the UV light source and the tangible transmission medium is provided whereby the emitted UV light is collected from the light source and transmitted through the tangible transmission medium, whereby UV light emitted from the tangible transmission medium and directed against a pathogen in proximity thereto is at a power level sufficient to substantially effectively kill the pathogen within a reasonable period of time. The device is used for sanitization of biopsy channels of endoscopes and for treating of pathogens within humans and animals.

An endotracheal tube cleaning device, including a rod, and a cleaning head coupled to a distal end of the rod, including a low friction-generating surface; and a high friction-generating surface, wherein the low friction-generating surface contacts an inner surface of the endotracheal tube when moved along the tube in a first direction and the high friction-generating surface contacts the inner surface of the endotracheal tube when moved in a second, opposite direction.