A surgical instrument and a method for installing a RFID label on the surgical instrument are provided. The surgical instrument includes a surgical instrument body, a RFID label and an adhesive, the surgical instrument body and the RFID label are fixedly connection by the adhesive, the adhesive comprises a first adhesive and a second adhesive; the first adhesive is disposed between a bottom surface of the RFID label and a surface of the surgical instrument body, the other surfaces of the RFID label are covered by the second adhesive, the second adhesive also covers an intersection of the RFID label with the surgical instrument body; and the first adhesive and the second adhesive are different types of adhesives, and an adhesive intensity of the first adhesive is greater than an adhesive intensity of the second adhesive, and fluidity of the second adhesive is greater than fluidity of the first adhesive.

A single use container (10, 40, 70) for holding a plurality of endoscope valves during a cleaning and disinfection procedure defines a plurality of chambers (34, 64, 84) which are isolated from each other and configured to receive a single valve such that a valve in one chamber cannot contact a valve in another chamber. A plurality of apertures (36, 58, 86) in each chamber allow fluid flow therethrough. A closure device (14, 44, 92) is operable to close each chamber (34, 64, 84). An attachment device (38, 68, 77) is configured for attaching the container (10, 40, 70) to an endoscope and to prevent detachment without breaking of the attachment device (38, 68, 77).

A sterilization wrap system with features for protecting a sterilization wrap and/or a sterilization tray of the sterilization wrap system is provided. Such features include strap or belt protectors, edge protectors, corner protectors, and/or expandable protectors, which each may provide protection of one or more areas of the sterilization wrap and/or tray when positioned against an outer surface of the wrap and/or between an inner surface of the wrap and a container for holding implements to be sterilized. A size-selectable protection system also is provided. The size-selectable protection system provides a material having a plurality of perforations such that a length of the material may be selected and detached from the rest of the material. The selected length of material may be used with a sterilization wrap system to protect a sterilization wrap and/or sterilization tray from cuts, tears, or the like.

A sterilization wrap system with features for protecting a sterilization wrap and/or a sterilization tray of the sterilization wrap system is provided. Such features include strap or belt protectors, edge protectors, corner protectors, and/or expandable protectors, which each may provide protection of one or more areas of the sterilization wrap and/or tray when positioned against an outer surface of the wrap and/or between an inner surface of the wrap and a container for holding implements to be sterilized. A size-selectable protection system also is provided. The size-selectable protection system provides a material having a plurality of perforations such that a length of the material may be selected and detached from the rest of the material. The selected length of material may be used with a sterilization wrap system to protect a sterilization wrap and/or sterilization tray from cuts, tears, or the like.

The present disclosure provides a system to transport medical instruments. The system includes an instrument bag configured to receive a medical instrument. The instrument bag forms an opening. A subjacent label is at least partially disposed along a peripheral surface of the opening of the instrument bag. The subjacent label includes a first portion engaged to an exterior surface of the instrument bag, and a second portion configured to be removably engaged to the instrument bag. A superjacent label is at least partially disposed along a peripheral surface of the opening of the instrument bag. The superjacent label includes an attached portion removably adhered to the subjacent label, and a free portion configured to be removably engaged to at least one of subjacent label and the instrument bag.

The present invention provides a method of fixating a mesh implant to a tissue of a subject comprising attaching said mesh implant to said tissue, covering said mesh implant by an antiadhesive barrier, wherein said antiadhesive barrier is attached to said mesh implant by a biocompatible adhesive.

Sterile transport, storage, and operation of fluid collection tubes in platelet-rich fibrin and platelet-rich plasma procedures. Sterile sample tube packages comprise a tray having a recessed cavity formed therein, one or more fluid collection tubes, and a cover. Each cavity houses a tube. A practitioner accesses a tube without contaminating the remaining tubes.

Cannula holders for holding a nasal cannula are described. The cannula holders may also be configured to hold a CPAP mask, BIPAP mask, nebulizer mask, or any other piece of medical equipment. The cannula holders may be used to help prevent a nasal cannula from coming into contact with unclean surfaces when not in use, helping to keep the nasal cannula clean. The cannula holders may help prevent a nasal cannula from falling onto the floor or elsewhere when not in use. The cannula holders provide an alternative to placing or hanging a nasal cannula on equipment, furniture, or elsewhere.

A packaged bioprosthetic heart valve comprising a bioprosthetic heart valve, an adaptive seal and a package. The bioprosthetic heart valve comprises an at least partially dehydrated biological tissue leaflet structure coupled to a supporting frame. The bioprosthetic heart valve has a periphery, an inflow portion, and an outflow portion. The adaptive seal is coupled to the bioprosthetic heart valve around at least a portion of the periphery. The adaptive seal comprises an expandable material that expands after exposure to an initiating condition. The bioprosthetic heart valve and the adaptive seal is stored and contained within the package, which does not contain a liquid storage solution in contact with the bioprosthetic heart valve and the adaptive seal.

A tissue retrieval device includes a tubular member, an expandable member, and a tissue retrieval bag. The introducer tube is sized to be inserted into a patient through a trocar. The bag may be selectively opened by the expandable member within the patient. The bag may receive a tissue specimen and be withdrawn from the patient. The bag may be manipulated for packing within the tubular member in a variety of ways. Manipulation of the bag may include folding the bag about axes that are perpendicular to or parallel to the tubular member; rolling the bag about axes that are perpendicular to or parallel to the tubular member; or wrapping the bag about the expandable member, wrapping the bag about a rod, or twisting the bag at a position distal to the expandable member. The tubular member may comprise an environmentally responsive capsule.