A storage apparatus is provided for storage of elongate articles in a vertical orientation, such as for storage of flexible esophageal dilators. The storage apparatus includes a gripping element of flexible material supported at a support frame. The gripping element includes receiving slots or apertures aligned with the spaced holes in the rigid panel. The support frame may include a rigid support panel with a pattern of spaced holes corresponding to respective ones of the receiving apertures of the gripping element. The gripping element grips and holds elongate articles at respective receiving apertures to suspend the articles in a vertical orientation. The elongate articles are retained in the gripping element until a user exerts a removal force on the article to retrieve it from the storage apparatus. The support frame may be disposed inside of a container, such as a cabinet or drawer.

A cart for supporting one or more instruments during a computer-assisted remote procedure can comprise a base; a steering interface having a portion configured to be grasped by a user; a sensor mechanism configured to detect a force applied to the steering interface by a user; and a switch operable between an engaged position and a disengaged position. The cart may further include a drive system comprising a control module operably coupled to receive an input from the sensor mechanism in response to the force applied to the steering interface and, on the condition that the switch is in the engaged position, to output a movement command based on the received input from the sensor mechanism. A driven wheel mounted to the base of the cart may be configured to impart motion to the cart in response to the movement command.

A medical cart having a chassis with a plurality of wheels attached thereto; a plurality of drawers supported on the chassis; a temperature-regulated compartment in the chassis; a locking bar pivotally attached to the chassis; a headwall mount attached to the chassis; a display mounted on the chassis; and a positionable task light attached to the chassis. Each drawer includes a drawer lock shiftable between a locked position and an unlocked position. The locking bar is shiftable between a locked position and an unlocked position so that the locking bar serves as a secondary safety lock for all the drawers and the door of the temperature-regulated compartment.

An example automated product cabinet includes a housing defining a storage area configured to receive a product and a face. The cabinet includes a plurality of slots, where each slot is configured to receive a respective unit of the product, and a plurality of visual indicators configured to indicate positions of the units of the product. The cabinet includes a scanning bar configured to be slidably repositioned along the face of the housing, and a data capture device attached to the scanning bar and configured to capture information about the product. The cabinet includes a controller operably coupled to the data capture device. The controller is configured to inventory the product based, at least in part, on the information about the product, and actuate one or more of the visual indicators that are associated with a desired unit of the product.

Manifold for a medical/surgical waste collection assembly. A shell includes a proximal end base, and a lip extending proximally from the proximal end base. The lip extends around an outlet opening defined in the proximal end base that is off-centered to a longitudinal axis of the shell. A cap including a cap head is coupled to a side wall of the shell. A drip stop may be seated within a space defined by the lip to cover the outlet opening. An arcuate section of the lip may be flush with an adjacent section of the side wall. The cap head may define a through hole, and a flapper valve unit may be coupled to the cap head with another component having ears extending through the through hole. A fence may extend from the cap head and configured to be grasped by a user.

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.

A modular system of plastic walls having embedded and coextensive electrically conductive components configured to electrically connect with each other when the walls are mated. The walls have joining edges that form joint seams with other walls when joined together to create an enclosure. When enough walls are used to surround a storage space, a Faraday cage is created. The walls additionally have portions of tortuous paths at each joining edge that mate with a complementary portion of a tortuous path of another wall when the walls are joined together. A torturous path seal is thereby created at each joint seam. The plastic walls can be configured in a multiplicity of combinations to create various enclosures necessary for RFID-enabled storage and tracking of medical articles. Containers, enclosures, cabinets, and drawers of differing heights and sizes can be made and they may be stacked or otherwise assembled.

A method for preparing surgical kits for use during a surgery includes preparing a pre-operative surgical plan for a patient and selecting a set of surgical instruments based on the pre-operative surgical plan. The set of surgical instruments includes at least a general instrument, a first size-specific instrument, a patient-specific instrument, and a surgeon-specific instrument. The general instrument is selected from a predetermined group of off-the-shelf instruments. The first size-specific instrument has a first size selected from predetermined sizes. The patient-specific instrument includes a three-dimensional contoured engagement surface configured to nest into a portion of a native anatomy in a single location. The surgeon-specific instrument is selected based on a surgeon preference and is a different instrument than the selected general instrument, first size-specific instrument, and patient-specific instrument. The method further includes preparing a surgeon instrument kit containing the set of surgical instruments in sterilized form.

A manifold for a medical/surgical waste collection assembly. The manifold includes a housing shaped to be removably received within a manifold receiver of the medical/surgical waste collection assembly. An inlet fitting is coupled to the housing and adapted to be coupled with a suction line. An outlet opening is in fluid communication with the inlet fitting to define a fluid communication path from the suction line to the outlet opening and through a filter. The manifold includes a data carrier storing data useable to regulate operation of the medical/surgical waste collection assembly. The data carrier may include a radiofrequency identification tag having memory storing data suitable for determining whether the manifold is usable with the medical/surgical waste collection assembly. The RFID tag is adapted to be in electronic communication with a data reader when the manifold is coupled with the manifold receiver for communicating the data from the manifold.

A system for containing and transporting a medical device may include a container including a bottom face and surrounding side faces as a closed first end and an open second end to form an inner portion for receiving and retaining the medical device. At least a portion of one or more of the side faces may have an indentation extending along a length of the respective side face. A liner and cover may be removably enclosable about the container. The liner may be extendable over the side faces to line the inner portion of the container to an outer surface of the bottom face of the container. The cover may enclose the medical device in the container between the liner and cover. The indentation may be formed into the inner portion of the container. The container may be compatibly receivable in a first transportation device in a first orientation.