A packaging system for storing a prosthetic valve and an elongated delivery system in a non-fluid environment. The packaging system includes a tray for securing both a prosthetic valve and an elongated delivery system. The tray includes a cavity sized and shaped to house a valve cover containing the prosthetic valve and at least part of the distal portion of the elongated delivery system. A mounting surface removably couples the valve cover to the cavity floor and to prevent the valve cover from moving. An engaging surface is disposed peripherally of the cavity and is elevated above the cavity floor. A ramp extends downwardly from the engaging surface and into the cavity through an opening defined in the peripheral side wall and adjacent the floor of the cavity. The engaging surface and ramp are configured to secure at least part of the elongated delivery system externally of the cavity.

A hand-held electromechanical surgical device is configured to selectively connect with a surgical accessory. The surgical device includes a power-pack, an outer shell housing, and a gasket. The power-pack is configured to selectively control a surgical accessory. The outer shell housing includes a distal half-section and a proximal half-section, the distal half-section and the proximal half-section together defining a cavity configured to selectively encase substantially the entire power-pack therein. The gasket is located between the distal half-section and the proximal half-section of the outer shell housing. The gasket is configured to create a seal between the distal half-section and the proximal half-section and to provide a sterile barrier between the power-pack and an outside environment outside the outer shell housing.

A package for a product and method of retaining and releasing a product, where a container body is configured to support the product and includes a key support and a retaining key that is supported by the key support. The retaining key is movable between locked and released configurations, while in the locked configuration the retaining key retains a portion of the product and while in the released configuration the retaining key retracts to facilitate removal of the product from the container body.

The present invention relates to packages and methods of using packages that provide a sterile enclosure for an implant so that the implant can be transported and retrieved without being contaminated. In one embodiment, the package includes an insert with an implant disposed therein and a tray. The insert includes a first engagement feature and the tray includes a second engagement feature corresponding to the first engagement feature. The insert is sized to fit within and engage with the tray through engagement of the first and second engagement features, where in a first position the implant is secured within the package and in a second position, the implant is retrievable from the insert. The insert moves relative to the tray between the first and positions, but remains secured to it in both positions.

A packaging system for an elongate tool to be coupled to a surgical device. A segmented packaging body comprises a first distal section, a second distal section, and a proximal section. The first and second distal sections provide a clamshell casing to the distal end of the tool, and the proximal section is pivotally coupled to the first distal section and configured to receive the proximal end of the tool. The packaging body may comprise a living hinge and perforations to facilitate mounting the tool on the surgical device without the user touching the tool, thereby minimizing risk of contamination and/or injury. The proximal section may be detached from the clamshell casing at the perforations after the tool is mounted on the surgical device. Secondary packaging may be provided to receive the packaging body. Methods for mounting the tool disposed within the packaging system are also disclosed.

In one example, a sterile container may include a tray having a plurality of walls at least partially defining a cavity. At least one of the plurality of walls may include an opening extending therethrough. The sterile container may further include a seal structure coupled to the tray. At least a portion of the seal structure may be received within the opening of the at least one of the plurality of walls. Additionally, the sterile container may include an extension structure coupled to the seal structure.

Clinical waste container (100) comprising a lower basket part (110) and an upper lid part (120), comprising a cylindrical part (121) having an upper lid opening (122); and a lid cap part (130), arranged to be fastened to said lid part so as to cover said lid opening, wherein the lid part and the lid cap part each comprise cooperating snap-lock means (123, 133), comprising several separated elongated protrusions (133a,133b), together defining a broken circle.

The lid part comprises at a lower end (124) a bend (125) of at least 60?, with an inner radius (R1) of at the most 5 mm and an outer radius (R2) of at the most 5 mm, defining a local material thickness increase of at least 25%.

The lid part and the lid cap part comprise at least 30% by volume wooden fibres.

The invention also relates to a method of manufacturing such a container.

Clinical waste container (100) comprising a lower basket part (110) and an upper lid part (120), comprising a cylindrical part (121) having an upper lid opening (122); and a lid cap part (130), arranged to be fastened to said lid part so as to cover said lid opening, wherein the lid part and the lid cap part each comprise cooperating snap-lock means (123, 133), comprising several separated elongated protrusions (133a,133b), together defining a broken circle.

The lid part comprises at a lower end (124) a bend (125) of at least 60?, with an inner radius (R1) of at the most 5 mm and an outer radius (R2) of at the most 5 mm, defining a local material thickness increase of at least 25%.

The lid part and the lid cap part comprise at least 30% by volume wooden fibres.

The invention also relates to a method of manufacturing such a container.

Clinical waste container (100) comprising a lower basket part (110) and an upper lid part (120), comprising a cylindrical part (121) having an upper lid opening (122); and a lid cap part (130), arranged to be fastened to said lid part so as to cover said lid opening, wherein the lid part and the lid cap part each comprise cooperating snap-lock means (123, 133), comprising several separated elongated protrusions (133a,133b), together defining a broken circle.

The lid part comprises at a lower end (124) a bend (125) of at least 60?, with an inner radius (R1) of at the most 5 mm and an outer radius (R2) of at the most 5 mm, defining a local material thickness increase of at least 25%.

The lid part and the lid cap part comprise at least 30% by volume wooden fibres.

The invention also relates to a method of manufacturing such a container.

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).