An orthopaedic instrument system including an instrument caddy is disclosed. The instrument caddy is configured to receive one or more cutting broaches to house the cutting broaches between orthopaedic surgical procedures. The instrument caddy is also configured to be used during a surgical procedure to assist a user in assembling the cutting broach with another surgical instrument. A method of assembling a surgical instrument is also disclosed.

A storage device (30) for storing a pen needle assembly (10) includes a housing (30) having first wells (44) with a dimension for receiving the pen needle assembly and second wells (46) for receiving an inner shield (24) of the pen needle assembly. The second wells (46) have a diameter less than a diameter of the first wells (44). An ejector (40) in the housing (34) can be actuated to eject the used needle hub (16) and outer covers (22) from the first well (44) and the inner shield (24) from the second well (46) for disposal. A method of coupling a pen needle delivery device to a needle hub positions a needle hub assembly (18) in the first well (44) and inserts the coupling end of the delivery device (10) into the first well (44) and is coupled to the needle hub. The needle hub is pulled from the outer cover (22). The inner shield (24) is inserted into the second well (46) to remove the inner shield from the needle hub.

Systems, devices and methods to improve safety and efficiency in an operating room comprise providing a suture package that holds new suture needles and needle receptacles for storing used needles. The devices can be safely worn for the surgeon to self-dispense new suture needles in the near surgical field and to secure the used needles into a needle trap or a needle retainer located on his extremity, on his operative instruments or on the surgical drapes. The device may provide automated and/or simplified needle counting both during use and after removal from the surgical field. The device may be configured for ergonomic and efficient use so as to minimize the actions and motions of the surgeon to dispense and secure the needle.

An analyte sensor applicator for applying a wearable analyte monitoring device includes a housing that holds an analyte sensor assembly, a cam assembly for delivering the analyte sensor assembly, and a skin piercing for inserting a sensor, wherein the skin piercing device is retracted within the housing top after insertion.

Packaging systems and surgical kits for a tool that has a working portion and a shaft. A casing includes a distal section defining a cavity to receive the working portion 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. In one implementation, at least a portion of the distal section comprises a colored indicator to provide a visual indication of a location of the working portion of the tool. In another implementation, instructions are provided on the proximal section and the instructions illustrate one or more steps for installing the tool to a surgical device.

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 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.

A container (10) for storing new and used pen needles (20,30), the container (10) comprising a housing (12) including a first compartment (50) configured to store one or mom new pen needles (20), and a second compartment (52) configured to store one or more used pen needles (30), wherein the first and second compartments (50,52) are inversely adjustable in size to accommodate various combinations of new and used pen needles (20, 30).

Safety-blade dispensers for safely storing surgical blades prior to surgery and optionally for retrieving used surgical blades after surgery. In either case, the safety-blade dispenser is configured to store one or more surgical blades in an orientation that allows a user to simply and safely attach a surgical tool handle to the surgical blades (and optionally remove the handle from the surgical blades) without requiring the user to physically touch or manipulate the surgical blades by hand. The safety-blade dispensers disclosed herein may be used alone or in conjunction with a system and method of preventing wrong-site surgery.

Some embodiments are directed to a portable electronic device for analyzing an analyte. The portable electronic device includes a housing, an adapter detachably coupled to the housing and a processor disposed in the housing. The adapter includes a body defining an opening for receiving a test strip and an interface port disposed within the body. The interface port is configured to read a signal from the test strip. The processor is communicably coupled to the interface port. The processor is configured to determine at least one parameter of the analyte based on the signal received from the interface port.