A surgical sterilizing container tub is provided on which a sterilizing container lid is adapted to be detachably fitted for formation of a surgical sterilizing container for holding surgical instruments for sterilization. The sterilizing container tub has a bottom and a container wall projecting from the bottom. The sterilizing container tub defines a set-down plane, and the bottom forms a fluid collection area for collecting fluid. In order to provide such a surgical sterilizing container tub and such a surgical sterilizing container with which fluid to be removed can be effectively conducted to the fluid collection area, the bottom has a fluid drainage surface which is inclined relative to the set-down plane and is in fluid connection with the fluid collection area for draining fluid in the direction of the container wall. A surgical sterilizing container is also provided.

An endoscope tray is provided. The tray comprises an interior for storage of an endoscope. The interior has an upstanding element having a top surface, and a plurality of apertures disposed on at least a portion of the top surface of the upstanding element to facilitate drainage of fluids. Systems and methods are also provided.

Methods of using a soft tissue cutting device are disclosed. The methods include providing the soft tissue cutting device, positioning the soft tissue cutting device in a priming slot of a tray configured for receiving and holding the soft tissue cutting device, attaching a priming syringe to the soft tissue cutting device, priming a balloon disposed on a distal end of the soft tissue cutting device by equalizing a first pressure inside the balloon to a second pressure inside the priming syringe, removing the soft tissue cutting device from the priming slot, and positioning the distal end of the soft tissue cutting device on a safety slot included in the tray to determine whether the tissue cutting device has been properly primed.

A medical device component is provided. The medical device component may include a body having a first surface being at least partially formed from a markable material having a first color, the markable material having a characteristic that an area exposed to laser irradiation of a predetermined wavelength of ultraviolet light changes to a second color different from the first color; a film covering at least a portion of the first surface of the body, the film having a transmittance at the predetermined wavelength of ultraviolet light of at least 5%; and a visible mark on the markable material at the first surface of the body covered by the film. The visible mark may include one or more areas of the markable material at the first surface having the second color. Methods of manufacturing the medical device component are also provided.

A packaging system includes a stackable tray for storing one or more implements. The stackable tray has one or more first interlocking features at a first surface of the tray and one or more second interlocking features at a second surface of the tray. A first stackable tray is arranged to mate with a second stackable tray via engagement of the first interlocking features or the second interlocking features when the first stackable tray is rotated from a first orientation to a second orientation.

Devices, systems, and/or methods discussed herein relate to medical device packaging that includes various features for packaging a medical device and/or preparing the medical device for use in a procedure. For example, packaging can include features to retain a medical device during distribution, such as foldable ends that are configured to cover the medical device. Further, the packaging can include features that are configurable to elevate one end of packaging to assist in preparing the medical device for a procedure, such as to flush the medical device in an elevated state. Moreover, the packaging can include features to hold and/or dispose of a fluid in an efficient manner.

A tracker attachment for a high-speed drill device may include an attachment that includes an attachment body engageable with a surgical handpiece and a tracker operable with a surgical navigation system to track the position of the attachment. The attachment may further include a cantilever arm extending proximally of the attachment body to an accessory mount. The tracker may include an accessory socket configured for removable engagement with the accessory mount. The system may further include a sterile packaging system for storing and transporting the tracker.

A cart for storage of an endoscope is provided. The cart comprises a housing having a slot configured to slidably receive a tray. The tray is configured to store an endoscope, and a timer is coupled to the housing, slot and/or tray. The timer is configured to display increments of time that the endoscope is stored in the tray. Systems and methods are also provided.

A closing/locking mechanism for a sterile container includes an actuation lever, a tension bow or claw coupled to the actuation lever, and an engagement element forming an undercut and with which the tension bow or claw can be brought into operative engagement to apply a tensile force to the engagement element. The tension bow or claw is mounted for sliding transversely to the tensile force to be applied. A spring is arranged in an operative position relative to the tension bow or claw in such a way that, when a predefined actuation position of the actuation lever and a predefined/predefinable sliding position of the tension bow or claw are reached, in which position the tension bow or claw already reaches behind the engagement element, the spring applies a compressive force to the tension bow or claw in the direction of the tensile force.

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.