Electronic devices that detect their position and/or orientation with respect to earth's frame of reference are described. A coupler can removeably maintain the electronic devices in physical proximity of one another. Each electronic device can have a housing and the coupler can be included on the housing and arranged to physically connect the housing of the electronic device to the housing of at least one other electronic device. Alternatively, the coupler can be a packaging that maintains the electronic devices in physical proximity of one another. Each electronic device can be calibrated using the orientation or position information obtained by other electronic devices maintained by the coupler. Further, each electronic device can include a power source that remains inactive until the device is ready for use.

A sterilization cabinet, comprising a top panel, at least two side panels, and a floor panel forming a part of a chamber of the sterilization cabinet; at least one door connected to at least one of the at least two side panels of the sterilization cabinet; a vent formed in at least one of the two side panels; at least one first filter covering the vent and a filter cover configured to hold the first filter against the vent; a drain positioned in the floor panel, wherein the floor panel has a slope configured to cause condensate within the chamber to flow into the drain and wherein the drain is the only outlet for the condensate along the floor panel; and a second filter covering the drain such that condensate flowing into the drain passes through the second filter.

A sterilization cabinet, comprising a top panel, at least two side panels, and a floor panel forming a part of a chamber of the sterilization cabinet; at least one door connected to at least one of the at least two side panels of the sterilization cabinet; a vent formed in at least one of the two side panels; at least one first filter covering the vent and a filter cover configured to hold the first filter against the vent; a drain positioned in the floor panel, wherein the floor panel has a slope configured to cause condensate within the chamber to flow into the drain and wherein the drain is the only outlet for the condensate along the floor panel; and a second filter covering the drain such that condensate flowing into the drain passes through the second filter.

Apparatus (40) for compressing a transcatheter cardiac stent-valve (10) comprises: a hollow channel (42) having an interior surface (50) shaped for progressively compressing the stent-valve in response to longitudinal advancement of the stent-valve within the channel; a driver (46) threadedly engaged on the exterior of the channel for generating a longitudinal driving force in response to rotation; a mover (44) having limbs (56) that project through slots (58) in the channel wall to transmit the driving force to the stent-valve within the channel; and a channel extension (48) removably attachable at the exit (54) to provide a generally cylindrical containment bore (66).

A packaging system for storing a deployable medical device within a sterilized environment includes a sealed container; a tray disposed within the sealed container; a catheter assembly comprising at least one sheath; a deployable medical device engaged with the catheter assembly; and a sterilizing fluid. The tray comprises a first chamber; a second chamber in fluid communication therewith; and at least a third chamber between the first and second chambers, and in fluid communication with at least the first chamber. The deployable medical device is disposed within the tray in a storage configuration, in which the deployable medical device is disposed within the first chamber in a partially deployed state distally from a distal end of the catheter and the catheter assembly spans between the first chamber and the second chamber. The sterilizing fluid contacts at least a part of the deployable medical device in the storage configuration.

A surgical stapling assembly that comprises a stapling device is disclosed. The stapling device includes an authentication lockout that is movable between a locked position wherein the stapling device is inoperable and an unlocked position wherein the stapling device is operable. The assembly further includes a deactivator tool that includes a deactivation key that is configured to move the authentication lockout into the unlocked position prior to seating a staple cartridge into the device.

A surgical stapling assembly that comprises a stapling device is disclosed. The stapling device includes an authentication lockout that is movable between a locked position wherein the stapling device is inoperable and an unlocked position wherein the stapling device is operable. The assembly further includes a deactivator tool that includes a deactivation key that is configured to move the authentication lockout into the unlocked position prior to seating a staple cartridge into the device.

A holding device for a packaging, more particularly for a sterile packaging, for holding, in a specific location, a medical tool having a tool shaft with a working end, which is to be protected against user-side contact, in a receiving space of the packaging, wherein the holding device has holding means for receiving, in a specific position, the tool, wherein the holding device has a stop for the working end for positioning the tool in the direction of the tool shaft.

The invention relates to a device for packaging an object, comprising: a main hollow body (100), a closure element (101), and a support (110) housed inside the main hollow body (100), said support being configured to receive an object (150), such as a medical implant. The support comprises a seat having an axial through-hole designed to allow part (170) of the object (150) to extend below the seat, while another part (160) of the object (150) bears on the seat. The packaging device is configured to limit or block the rotation of the support (110) relative to the main hollow body (100) about the axis of the through-hole in the seat. The support (110) is designed to limit or block the rotation of at least part of the object (150) about said axis, whereby the object (150) can move freely out of the main hollow body (100) when the closure element (101) is open. The invention also relates to a corresponding extraction method.

A sterilizable cover for a handle of an accessory of a medical suspended ceiling assembly includes a generally tubular stem portion and an annular flange portion. The generally tubular stem portion has a sufficient size to be gripped by the human hand, and has a proximal end that is open and a distal end that is closed, and defines a cavity along a longitudinal axis for receipt therein of a handle grip portion. The generally tubular stem portion includes a friction fit portion that is configured to flex radially outwardly to create a friction fit with a portion of the handle grip portion upon receipt of the handle grip portion in the cavity of the generally tubular stem portion. The annular flange portion extends radially outwardly from a proximal end of the generally tubular stem portion. The generally tubular stem portion and the annular flange portion are a single continuous piece of flexible silicone rubber.