A method for reprocessing a medical device uses a medical device processor with an enclosure for holding the medical device. The enclosure also has a reservoir containing a disinfectant, a water source, and a mixing chamber that retains the medical device. The method delivers disinfectant from the reservoir to an internal channel of the medical device, and further delivers water from the water source to the mixing chamber. A flow sensor is operable to monitor the disinfectant delivered to the internal channels of the medical device.

An endoscope reprocessor having a tube and nozzles may be used to increase the effectiveness of an endoscope reprocessor. Fluid may be delivered into the tube through the nozzle, which may be oriented in various orientations. Energy of the flow within the tube may be increased by introduction of fluid through the nozzles, which may additionally move the endoscope within the tube.

A Laparoscopic Visualization System comprising a sterile, self-contained, disposable apparatus used in medical procedures for heating and applying an anti-fog solution to the distal end of laparoscopes or surgical devices is presented. It additionally serves as an endoscopic lens protector and cleaner. An efficient heating and narrow range temperature control mechanism is used in combination with an anti-fog solution to provide clear visualization through a distal lens of the surgical device inserted into the system. The configuration prevents the anti-fog solution from spilling out of the system and is designed to also be used as a holder for the surgical scope, protecting the distal lens from impact with a shock absorbent outer shell, prior to, during, and after a medical procedure.

Methods for generating a sterilant vapor in a sub-atmospheric environment for use in sanitization and sterilization. The vapor is generated from a mixture containing a sterilant and a molecular mobility enhancer (MME). More specifically, the use of the MME enhances the vaporization and mobility of the sterilant, particularly hydrogen peroxide and/or a peroxy acid, to provide enhanced or improved sterilization. Also provided are solid-form sterilant comprising a sterilant and an MME. Further provides are various packaged forms of sterilant, particularly containing hydrogen peroxide and/or a peroxy acid for use in sanitation and sterilization methods herein.

A medical device with a valve for autoclavability is disclosed. The medical device may include a cavity. A channel connects the cavity to an autoclave environment. The channel has a distal end and proximal end. The distal end of the channel may open to the autoclave environment and the proximal end may open to the cavity. A valve may be positioned in or near the channel. The valve may permit gas to flow from the cavity when a pressure inside the cavity is greater than a pressure in the autoclave environment outside the cavity. The valve may also prevent gas from flowing into the cavity when the pressure in the autoclave environment outside the cavity is greater than the pressure inside the cavity.

Control of expansion of a depth of field using a birefringent mask is realized in a more preferred aspect. A medical image processing apparatus includes a control unit that performs control so as to generate a corrected image by executing image processing on an image obtained by imaging a subject image of a patient acquired via an optical system including a birefringent mask and an acquisition unit that acquires information regarding an application situation of high-pressure steam sterilization processing on the optical system, in which the control unit controls the image processing according to the application situation of the high-pressure steam sterilization processing.

Disclosed herein is a novel medical implement drying apparatus and a method for holding and drying certain medical implements during a reprocessing sequence. This is accomplished by forcing air through the apparatus. The apparatus and method disclosed herein is useful for many medical implements having a hollow casing. The medical implement drying apparatus is particularly well suited for use with a drying cabinet containing one or more of the medical implements during the drying process which will facilitate drying of the exterior of each medical implement, while the disclosed apparatus removes water and water vapor from the interior of each medical implement. Specialized holders, racks, and drying gas pumping systems are also disclosed.

An endoscope cleaning station for cleaning an endoscope includes a sink having an inlet connected to a water supply for filling the sink and a drain for draining the sink, a fill solenoid for controlling a flow of water to the inlet of the sink, a detergent pump and detergent valve that cooperate to selectively dispense detergent into another flow of water thus creating a detergent solution, a manifold for injecting the detergent solution into the endoscope, a lumen solenoid for controlling the flow of the detergent solution to the manifold, a pressure regulator disposed downstream of the lumen solenoid and upstream of the manifold to reduce a pressure of the detergent solution delivered to the manifold, and a high-pressure port connected to a narrow channel of the endoscope, the high-pressure port receiving the detergent solution that bypasses the pressure regulator so that the detergent solution exiting the high-pressure port into the narrow channel has a higher pressure than the pressure of the detergent solution delivered to the manifold.

An endoscope management unit 32 manages whether or not an endoscope is in a cleaned state. A staff management unit 34 manages whether or not a medical staff member is in a state suitable for being assigned to work of handling an endoscope in a cleaned state. A staff identification unit 36 identifies a staff member who performs work related to the endoscope based on the state of the endoscope managed by the endoscope management unit 32 and on the state of the medical staff member managed by the staff management unit 34. A notification processing unit 42 notifies the identified medical staff member of the details of the work to be performed for the endoscope.

A method is provided for reprocessing an internal channel of a medical device with a reprocessing system having a valve, a fluid line fluidly coupled with the valve, and at least one sensor coupled with the fluid line. The method includes performing an actuation of the valve to direct liquid through the fluid line and into the internal channel, and detecting with the at least one sensor a predetermined condition within the fluid line while the liquid is being directed into the internal channel. In response to detecting the predetermined condition, a time duration measured from the actuation of the valve is recorded. The method further includes purging the liquid from the internal channel, and directing liquid through the fluid line and into the internal channel for the time duration.