A retainer device for positioning of medical instruments for cleaning and sterilization, including an elongated body portion with a first end and a second end, and a first end section positioned at the first end and a second end section positioned at the second end. Each of the first end section and the second end section includes a central opening and a gap connected to the central opening. Preferably, the end sections form a ring-like structure having a circular shape with the central opening and gap therein. The gap and the central opening are configured to receive a portion of a surgical instrument.

Packaging systems and surgical kits for a tool that has a cutting bur and a shaft. A casing includes a distal section defining a cavity to receive the cutting bur of the tool. A proximal section is coupled to the distal section and receives the shaft of the tool. The proximal section is detachable from the distal section. At least a portion of the distal section comprises a colored indicator to provide a visual indication of a location of the cutting bur of the tool. Instructions are provided on the proximal section and the instructions illustrate one or more steps for installing the tool to a surgical device.

A system and method for rapidly accessing a tourniquet located in a pouch with a pull-away cover includes a tear-away cover. The tourniquet holder allows users to safely store in a fabric pouch a prepared tourniquet that is quickly accessible and coupled to a removable cover of the pouch. Users are able to fold the tourniquet in a manner that allows the tourniquet to be removed from the pouch and used nearly instantaneously.

A buttress is applied to an end effector of a surgical stapler. The buttress is loaded on a platform of a buttress applier cartridge. The end effector is closed upon the platform. An adhesive layer of the buttress secures the buttress to the end effector. The buttress is thus adhered to the end effector when the end effector is opened. The end effector is then actuated on tissue of a patient, thereby stapling the buttress to the tissue.

A method includes hermetically sealing a medical device within a pouch, the pouch including peeling panels that are free from one another. The pouch is placed within a tray and the peeling panels are attached to unloading handles of the tray. The unloading handles are releasably coupled together. The method further includes simultaneously separating the unloading handles and the peeling panels to open the pouch and expose the medical device for removal thereof.

Nonwoven resorbable pouches that at least partially enclose implantable medical devices and improved methods for producing the implantable medical device pouches are described. The nonwoven pouches may comprise one or more drugs. Implantable medical devices that are placed in the pouches prior to implantation are prevented from migrating from the site of implantation by tissue ingrowth into the pouch. Antibiotics may be incorporated into the pouches to prevent post-operative infections. The pouches may be formed in fewer steps than conventional pouches, and without polymer coatings. Nonwoven pouches can be formed in one step by dry spinning instead of using multiple processing steps. In embodiments, the nonwoven pouches are smoother on the inside than the outside to tightly fit the implantable medical devices internally while encouraging external tissue ingrowth. In embodiments, the nonwoven pouches eliminate the use of knitted or woven multifilament fibers that can trap bacteria and result in post-operative infection.

Medical device kits for use in placing, maintaining, altering, and/or removing medical devices in, on, and/or from the body of a patient are disclosed. Such medical device kits can include one or more wrap assemblies for use in the placement/maintenance procedure. In accordance with present embodiments, the one or more wrap assemblies of the medical device kit can include various features to assist the clinician performing the particular procedure. In one embodiment, a medical wrap assembly is disclosed, comprising a foldable wrap body that includes a front surface, wherein the front surface is configured to define a sterile field. A plurality of pockets is included on the front surface of the wrap body. The pockets are configured to contain therein a plurality of medical components. The medical components are arranged in the pockets in a predetermined order of use for the medical procedure.

Biodegradable and resorbable polymer pouches are described for use with cardiac rhythm management devices (CRMs) and other implantable medical devices (IMDs), i.e., a pouch, covering, or other receptacle capable of encasing, surrounding and/or holding the CRM or other IMD for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other IMD. Optionally, the biodegradable and resorbable pouches of the invention include one or more drugs in the polymer matrix to provide prophylactic effects and alleviate side effects or complications associated with the surgery or implantation of the CRM or other IMD.

A device for folding an implant having a wing into a an overlapped configuration includes a funnel body comprising: a first portion configured to receive and protect the implant when the wing of the implant is in a flat or relaxed state, a second portion proximal to the first portion and configured to engage and fold opposite first and second side portions of the wing of the implant in a predetermined direction when the implant is retracted proximally from the first portion of the funnel body and into the second portion of the funnel body, and an overlap guide configured to direct the path of a first one of the side portions of the wing such that the first and second side portions of the wing are overlapped in a predetermined manner and to prevent respective edges of the first and second side portions of the wing from butting into each other as the first and second side portions of the wing are guided into the overlapping configuration during proximal retraction of the implant relative to the funnel body.

A method of operating a surgical assembly is disclosed. The method includes receiving a first input from a first RFID scanner indicative of a first information stored in a first RFID chip of a first modular component of the surgical assembly, receiving a second input from a second RFID scanner indicative of a second information stored in a second RFID chip of a second modular component of the surgical assembly, determining an operational parameter of a motor of the surgical assembly based on the first input and the second input, and causing the motor to effect a tissue treatment motion of the first modular component.