A surgical system is disclosed. The surgical system can include a tray and a vacuum-fitted cover covering at least a portion of the tray. The surgical system can comprise a tray and a drape at least partially vacuum-fitted to the tray. A surgical drape is also disclosed. The surgical drape can comprise a cover including an opening and an interior cavity defined by a flexible wall which is configured to receive a support surface. The surgical drape can further comprise a closable portion configured to close the opening and seal at least a portion of the support surface within the interior cavity. The surgical drape can further include a valve in fluid communication with the interior cavity, wherein the valve is configured to enable the suction of air from the interior cavity and draw the flexible wall inwardly to closely envelop at least a portion of the support surface.

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 device retention assembly includes a delivery system and a device retention mechanism retaining the delivery system. The device retention mechanism includes a tray, a base coupled to the tray, and retaining flanges pivotally coupled to the base. The delivery system is enclosed within an opening defined by the base and retaining flanges. A key locks the device retention mechanism in the closed position retaining the delivery system. The key must be removed to unlock the device retention mechanism to release the delivery system.

A containment case assembly, including a tray and closing lid, comprises an upper frame that is configured to support from one to a plurality of removable screw decks is described. The screw decks have a column of first openings into which removable silicon plugs or inserts are positioned. The removable inserts include indicia or labels that indicate to a user the size of a surgical screw that is positioned in a row of second openings that are aligned in the screw deck immediately adjacent to one of the first openings. The upper frame of the containment case also has an inlet provided with a series of adjacent indicia or labels that are spaced at regular millimeter intervals for use in verifying the length of a surgical screw. The upper frame is further provided with a series of regularly spaced openings that have progressively larger sizes. These openings enable a user to verify the diameter of a surgical screw.

The exemplary embodiments herein provide a method for controlling access to medications. The method preferably includes the step of electronically unlocking a lid for a single bin out of a plurality of bins within a delivery module at a first location, to accept a medication into the unlocked bin, where the rest of the bins in the same delivery module remain locked. The method should then engage a mechanical lock on the lid once it has been closed, maintain the bin in a locked state during transport to a second location, and engage a mechanical lock on the delivery module once it has been lowered into a drawer at the second location.

A rectangular shaped lockable bin is defined by four walls and a bottom wall. A lid is hingedly mounted to the rear wall and has a slot located in a front portion thereof. A lock having a latch is pivotably mounted to the front wall of said bin at a pivot point and is configured to be selectively rotated between a locked position and an unlocked position by an actuator. A tail extending from the lock contacts a post located on the wall of the bin and basis the lock in the unlocked position. A series of such bins may be received in a delivery module, which may be received in a drawer.

A spinal implant package includes a tray having a body including spaced apart first and second cavities. The body includes a third cavity between the first and second cavities. The tray includes a first connecting feature that is movable relative to the body. A lid is coupled to the tray by a hinge. The lid includes a second connecting feature that is movable between a first position in which a bottom surface of the second connecting feature directly engages a top surface of the first connecting feature and a second position in which a top surface of the second connecting feature directly engages a bottom surface of the first connecting feature to provisionally fix the lid to the tray.

The disclosure describes systems and methods for altering bone sections in a patient. In one embodiment, a system may include an intramedullary implant including: a housing configured to be secured to a first section of bone, where the housing may include one or more shaft engaging grooves axially extending along an inner surface thereof; a distraction shaft configured to be secured to a second section of bone, where the distraction shaft may include one or more grooves axially extending along an inner surface thereof. The system may further include an actuator disposed within the housing and operably coupled to the distraction shaft, and in response to rotation of the actuator, the one or more grooves of the distraction shaft may engage with the one or more shaft engaging grooves of the housing, causing axial displacement of the distraction shaft relative to the housing.

A packaging assembly is designed for an applicator that contains a buttress assembly that is used with a surgical stapler to reinforce a cut and stapled tissue site. The packaging assembly protects the buttress assembly from damage due to physical contact as well as exposure to adverse environmental factors like excess moisture, etc. In one example the packaging assembly includes a dual tray design with an inner tray that holds the applicator. The combined inner tray and applicator are hermetically sealed within a foil assembly or foil pouch. The foil pouch with the inner tray and applicator within is placed within the outer tray to protect the foil from damage.

A minimally invasive precision cutting guide, targeting guide, implant, and other instruments comprise a system that permits a physician to surgically correct a bunion or similar deformity with a minimum disruption of surrounding soft tissue. The precision cutting guide ensures that the physician cuts bone in the proper location and orientation. Each of the instruments is designed to minimize disruption to surrounding soft tissue. The system also precisely locates an orthopedic implant such that it can fixate two bone fragments after an osteotomy, or two bones after surgery. The precision cutting guide, targeting guide, implant, and other instruments are provided in a sterile kit for the convenience of the surgeon and safety of the patient.