Abstract: This invention relates to a novel architecture of a passive RFID (Radio-Frequency Identification) tag which is highly miniature in size, capable of metal mounting and suitable for global operation in the entire UHF band (860 MHz to 960 MHz) without necessity of territory specific optimization of the antenna design layout. This invention envisages a novel antenna design that consists of a circular or rectangular microstrip antenna of ultra-small size (??/50), which is suitably loaded in shunt by lumped components resistor (R), inductor (L) and capacitor (C). The feed point, feed layout and the loading values are so optimized that a single tag will display optimum performance in all the territories. This invention relates to a method of encapsulating the passive tag with radio transparent materials like Radel® R, as well as a metal backplane so that the encapsulated tag can withstand autoclaving while maintaining the required performance.

Abstract: This invention relates to a novel architecture of a passive RFID (Radio-Frequency Identification) tag which is highly miniature in size, capable of metal mounting and suitable for global operation in the entire UHF band (860 MHz to 960 MHz) without necessity of territory specific optimization of the antenna design layout. This invention envisages a novel antenna design that consists of a circular or rectangular microstrip antenna of ultra-small size (??/50), which is suitably loaded in shunt by lumped components resistor (R), inductor (L) and capacitor (C). The feed point, feed layout and the loading values are so optimized that a single tag will display optimum performance in all the territories. This invention relates to a method of encapsulating the passive tag with radio transparent materials like Radel® R, as well as a metal backplane so that the encapsulated tag can withstand autoclaving while maintaining the required performance.

Abstract: A tag for tracking inventory levels and uses of an implant. The tag has a first component having a proximal portion and a distal portion and a second component having a proximal portion and distal portion. Additionally, the tag has an implant receiving cavity formed by the distal portion of the first component and the distal portion of the second component, in which the implant receiving cavity includes an encapsulating extension to substantially encapsulate an implant. Furthermore, the tag has a planar surface formed by the proximal portion of the first component and the proximal portion of the second component. The planar surface extending from the implant receiving cavity is substantially transverse to a longitudinal axis of the implant received within the implant receiving cavity. In addition, the tag has a tamper evident locking mechanism configured for locking the first component to the second component.

Abstract: A tag for tracking inventory levels and uses of an implant. The tag has a first component having a proximal portion and a distal portion and a second component having a proximal portion and distal portion. Additionally, the tag has an implant receiving cavity formed by the distal portion of the first component and the distal portion of the second component, in which the implant receiving cavity includes an encapsulating extension to substantially encapsulate an implant. Furthermore, the tag has a planar surface formed by the proximal portion of the first component and the proximal portion of the second component. The planar surface extending from the implant receiving cavity is substantially transverse to a longitudinal axis of the implant received within the implant receiving cavity. In addition, the tag has a tamper evident locking mechanism configured for locking the first component to the second component.

Abstract: A modular surgical tray and delivery system is disclosed. According to one embodiment of the present invention, the surgical tray system comprises a surgical tray having a base portion and a plurality of lower endcaps secured to the base portion. The system also includes a surgical tray cover having a top portion and a plurality of upper endcaps secured to the top portion. According another embodiment, a method of manufacture of a surgical tray system is disclosed. The method includes the steps of: (1) providing a surgical tray having a base portion; (2) securing at least one lower endcap to the base portion of the surgical tray; (3) providing a surgical tray cover having a top portion; and (4) securing at least one upper endcap to the top portion of the surgical tray cover.

Abstract: Packaging systems for medical devices, such as surgical instruments, implants, and prostheses, are provided herein. In one embodiment, the packaging system comprises a blister tray that is at least semi-transparent and has at least one cavity capable of containing a medical device or portion thereof. The system additionally comprises a card having at least one window, wherein the at least one cavity in the blister tray protrudes through the at least one window in the card. The packaging systems provide a convenient, informative, and preferably sterile means of distributing medical devices.