A medical package containing a medical article, including: a support element comprising a hollow support tube and a support cap, wherein the support element includes a first chamber configured to enclose the medical article and wherein the support cap includes a support structure configured to hold the medical article captive; a stopper configured to be coupled to the hollow support tube in such a way that the support element has a grip part that protrudes from the stopper, the grip part of the support element configured to be held by a hand of a person; a hollow protective cover configured to be coupled to the stopper in such a way as to delimit, in cooperation with the stopper, a second chamber inside which there extends the grip part of the support element, the hollow protective cover configured to be separated from the stopper, wherein when the hollow protective cover is coupled to the stopper, a part of the stopper protrudes from the hollow protective cover, and is configured to form a grip end of the stopper that is configured to be held by a hand of a person, when the hollow protective cover is separated from the stopper, wherein a part of the support element is configured to be engaged by force inside the stopper, and when the hollow protective cover is separated from the stopper, the support element remains coupled to the stopper while the support element is also separable from the stopper when a person holds the grip part of the support element and pulls the support element so as to separate it from the stopper.

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.

Embodiments of the invention are directed to a caddy configured to receive medical implants coupled to respective holders. The medical implants and holders may be oriented and/or located in the caddy based on one or more of size, shape, and other configuration of the medical implants and holders and the openings in the caddy through which the medical implants are received. Another embodiment of the invention incudes a medical implant having an implant body portion and a detachable marking portion that is connected to the implant body portion by a frangible region structured to provide selective separation of the implant body portion from the detachable marking portion upon application of a force or torque to the implant body portion, and the detachable marking portion including one or more markings that correspond to identifying information associated with features or characteristics of the implant body portion.

A medical package containing a medical article, including: a support element comprising a hollow support tube and a support cap, wherein the support element includes a first chamber configured to enclose the medical article and wherein the support cap includes a support structure configured to hold the medical article captive; a stopper configured to be coupled to the hollow support tube in such a way that the support element has a grip part that protrudes from the stopper, the grip part of the support element configured to be held by a hand of a person; a hollow protective cover configured to be coupled to the stopper in such a way as to delimit, in cooperation with the stopper, a second chamber inside which there extends the grip part of the support element, the hollow protective cover configured to be separated from the stopper, wherein when the hollow protective cover is coupled to the stopper, a part of the stopper protrudes from the hollow protective cover, and is configured to form a grip end of the stopper that is configured to be held by a hand of a person, when the hollow protective cover is separated from the stopper, wherein a part of the support element is configured to be engaged by force inside the stopper, and when the hollow protective cover is separated from the stopper, the support element remains coupled to the stopper while the support element is also separable from the stopper when a person holds the grip part of the support element and pulls the support element so as to separate it from the stopper.

A spinal implant package includes a sleeve defining a cavity extending through an end surface of the sleeve. A cap defines an aperture extending through an end surface of the cap. First portions of the end surfaces are joined to define a hinge. The end surface of the sleeve includes a second portion defining a first lip. The end surface of the cap includes a second portion defining a second lip. The package is movable between a closed configuration in which the first lip is adjacent the second lip and a portion of the spinal implant is enclosed within the cavity and the aperture, and an open configuration in which the first lip is spaced farther apart from the second lip and the portion of the spinal implant is positioned outside of the aperture while remaining positioned inside of the cavity.

Methods and systems of placing a medical fastener at a predetermined depth in a bone are described. A surgical tool can include an attachment assembly configured to interchangeably engage a medical fastener and a cutting element or bone removal tool and a drive assembly coupled to the attachment assembly. The attachment assembly can be configured to automatically release the medical fastener in response to the drive assembly reaching its end or distal-most position to place the medical fastener at a predetermined depth within the bone.

A packaging assembly may retain a sterile medical device for use in a surgical setting, such as an orthopedic implant or instrument. The packaging assembly may have a first packaging component and a second packaging component. The first packaging component and the second packaging component may be attachable to each other to define a first interior space containing the medical device. The first packaging component may have a first retention feature that defines a first interior receptacle shaped to receive at least part of the medical device such that a user can manually grip the medical device through the first retention feature. The first interior space may be manually opened by a user grasping the medical device through the first retention feature.

A fastener guide that includes a body. The body includes a through-bore configured for receiving a fastener and an end configured for contacting a bone plate. The fastener guide further includes at least one member configured for contacting and retaining the fastener within the body.

A driven fastener guide for guiding a fastener into a hole of a bone plate. The driven fastener guide includes an elongated driver configured for connecting to a drill and a fastener guide member operably connected to the elongated driver. The fastener guide member includes a split body and a through-bore configured for receiving the fastener. The fastener guide member is configured for aligning the fastener relative to the hole of the bone plate.

Disclosed is a medical device having a substrate having an exposed surface and a texture over at least part of the exposed surface. The texture includes a plurality of nanofeatures that inhibit bacterial adhesion on the surface and that also inhibit bacterial growth on the surface and have a size range between about 0.01 nanometers and about 1,000 nanometers. The texture can include a plurality of nanofeatures applied thereto such that the texture has a first particle size at a first location, a second particle size at a second location, and a gradient of particle size from the first particle size to the second particle size between the first location and the second location.