An instrument tray is configured for use with surgical and/or other invasive or non-invasive medical procedures, such as in operating rooms or ICU rooms within a hospital, for example. The tray facilitates a safe transfer of instruments between a procedural team and performing the procedure. In an embodiment the surgical tray may be attached directly to the patient and/or patient's drapes so that the tray may rest upon the patient.

An instrument tray is configured for use with surgical and/or other invasive or non-invasive medical procedures, such as in operating rooms or ICU rooms within a hospital, for example. The tray facilitates a safe transfer of instruments between a procedural team and performing the procedure. In an embodiment the surgical tray may be attached directly to the patient and/or patient's drapes so that the tray may rest upon the patient.

The invention relates to a facility which has a dirty facility area and an adjacent clean facility area, baskets for receiving the dirty articles, and a wall separating the dirty area from the clean area, the dirty area including an entry door for receiving the dirty articles, pre-processing stations with tables for the pre-washing and/or sorting by a human operator, or even by a robotic operator, of the dirty articles and for arranging the pre-washed and/or sorted articles in the baskets, pick-up points at the pre-processing stations for pick-up of the baskets with the pre-washed and/or sorted articles, a plurality of washers, eg. machines operating in a manner similar to a dishwasher, positioned along the dividing wall, for washing the pre-washed and/or sorted articles arranged in the baskets, the washers having an inlet opening in the dirty area and an outlet opening for washed articles in the clean area, the clean area including processing stations with tables for processing by a human operator, or even a robotic operator, of the washed articles. One or more unmanned vehicles are configured for travelling on the floor of the dirty area at least between pick-up points and an inlet opening of the respective washers, each vehicle including a base with a front end and a rear end, an upper part with a loading platform configured for supporting the baskets, an on-board control device for receiving and executing mission information, each pre-processing station including a first type control device for direct or indirect communication with one or more of the vehicles, each washer including a respective second type control device for direct or indirect communication with the one or more vehicles and/or for direct or indirect communication with the first control devices, each first control device being for calling a vehicle to the pick-up point and/or for dispatching a vehicle from the pick-up point.

The invention relates to a facility which has a dirty facility area and an adjacent clean facility area, baskets for receiving the dirty articles, and a wall separating the dirty area from the clean area, the dirty area including an entry door for receiving the dirty articles, pre-processing stations with tables for the pre-washing and/or sorting by a human operator, or even by a robotic operator, of the dirty articles and for arranging the pre-washed and/or sorted articles in the baskets, pick-up points at the pre-processing stations for pick-up of the baskets with the pre-washed and/or sorted articles, a plurality of washers, eg. machines operating in a manner similar to a dishwasher, positioned along the dividing wall, for washing the pre-washed and/or sorted articles arranged in the baskets, the washers having an inlet opening in the dirty area and an outlet opening for washed articles in the clean area, the clean area including processing stations with tables for processing by a human operator, or even a robotic operator, of the washed articles. One or more unmanned vehicles are configured for travelling on the floor of the dirty area at least between pick-up points and an inlet opening of the respective washers, each vehicle including a base with a front end and a rear end, an upper part with a loading platform configured for supporting the baskets, an on-board control device for receiving and executing mission information, each pre-processing station including a first type control device for direct or indirect communication with one or more of the vehicles, each washer including a respective second type control device for direct or indirect communication with the one or more vehicles and/or for direct or indirect communication with the first control devices, each first control device being for calling a vehicle to the pick-up point and/or for dispatching a vehicle from the pick-up point.

A method and device for documenting use of at least one implant used in a surgery and/or for the localization thereof. The implant can be provided for a surgery and used in the surgery. The method includes: a) providing a surgical set having a plurality of implants; b) capturing a first sequence of images of the plurality of implants of the surgical set using a device; c) analyzing the sequence of images of the plurality of implants in order to identify each individual implant; d) optionally outputting a signal when one and/or each implant has been identified; e) capturing a second sequence of images of the plurality of implants of the surgical set using the device after a surgery in order to ascertain missing implants; f) classifying a missing implant as used in surgery.

A method and device for documenting use of at least one implant used in a surgery and/or for the localization thereof. The implant can be provided for a surgery and used in the surgery. The method includes: a) providing a surgical set having a plurality of implants; b) capturing a first sequence of images of the plurality of implants of the surgical set using a device; c) analyzing the sequence of images of the plurality of implants in order to identify each individual implant; d) optionally outputting a signal when one and/or each implant has been identified; e) capturing a second sequence of images of the plurality of implants of the surgical set using the device after a surgery in order to ascertain missing implants; f) classifying a missing implant as used in surgery.

The present disclosure generally pertains to methods and kits for preparing an ACL repair surgical implant, the method including drilling femoral and tibial bone plugs of a tendon graft to create medial to lateral holes, and passing a braided suture around the tendinous portion of the tibial end, through soft tissue, and out the tibial end. Next, an anterior to posterior femoral hole is drilled, and a flat-braided suture is passed through the femoral medial to lateral hole and, using a bent needle, passed through junctions of the femoral bone plug and the tendinous portion and out through junctions of the tibial bone plug and the tendinous portion on both sides of the graft. Ends of the flat-braided suture are crisscrossed through the medial to lateral tibial hole. A bone-to-bone fixation suture assembly is passed through the anterior to posterior femoral hole.

The present disclosure generally pertains to methods and kits for preparing an ACL repair surgical implant, the method including drilling femoral and tibial bone plugs of a tendon graft to create medial to lateral holes, and passing a braided suture around the tendinous portion of the tibial end, through soft tissue, and out the tibial end. Next, an anterior to posterior femoral hole is drilled, and a flat-braided suture is passed through the femoral medial to lateral hole and, using a bent needle, passed through junctions of the femoral bone plug and the tendinous portion and out through junctions of the tibial bone plug and the tendinous portion on both sides of the graft. Ends of the flat-braided suture are crisscrossed through the medial to lateral tibial hole. A bone-to-bone fixation suture assembly is passed through the anterior to posterior femoral hole.

A system and related methods of preventing wrong-site surgeries and blade-related injuries to OR personnel, which includes a computer software system (for use on computers or hand-held devices in the medical environment) in combination with a surgical supply carrier (such as a safety blade-dispenser or other surgical sharps dispenser). The surgical supply carrier comprises at least one component, such as a label, which prevents or impedes a surgeon from accessing one or more surgical instruments stored within until after a “time-out” is performed by the surgeon or authorized OR personnel to confirm various details including but not limited to correct patient, correct procedure, correct equipment, etc, before starting the intended surgical procedure. Data can be captured throughout the medical environment (from “decision-to-incision” and beyond) to assess wrong-site surgery data (including “near miss” data) and enable a host of analytics on wrong-site surgery prevention.

Surgical instruments and their methods of use are disclosed. In some embodiments, the surgical instrument may include a handle and an elongated shaft extending distally from the handle. The surgical instrument may also include a fastener deployment system for deploying fasteners from the elongated shaft including a reciprocating driveshaft disposed within the elongated shaft. In other embodiments, the fastener deployment system may include a follower disposed within the elongated shaft for displacing one or more fasteners within the elongated shaft towards a distal fastener deployment position. In some embodiments, the surgical instrument may include a removable preload lock-out attached to the elongated shaft to prevent the follower from applying a preload to the fasteners.