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.

A device that stores, secures, and disinfects hazardous materials introduced therein, comprising a container having at least one interior surface, wherein the at least one interior surface forms at least one chamber within the container for storing the hazardous materials introduced into the container; at least one port having an aperture and unidirectional access for introducing the hazardous materials into the container and preventing outflow of the hazardous materials from the container; an absorbent material for securing the hazardous materials introduced into the container, wherein the absorbent material is affixed to the at least one interior surface of the container; and a disinfecting substance for disinfecting the hazardous materials introduced into the container, wherein the disinfecting substance is affixed to the at least one first interior surface of the container.

A sharps end capture device is disclosed for use in a system and method for the safe disposal and/or temporary storage of sharp-tipped implements including medical sharps, such as, syringe needles (epidural, spinal, blood collection, catheter, dialysis, intravenous, ophthalmic, hormonal pen, and radiologic). The device is useful to prevent injuries related to the use and disposal of sharp medical instruments, commonly known as, “sharps” or “sharps objects” is disclosed.

One variation of a method for monitoring needle consumption in a surgical space during a surgery includes: accessing a sequence of images captured by a camera facing an inventory field within the surgical space; scanning the sequence of images for needle packages and needles; in response to detecting entry of a needle package into the surgical space in a first image, logging entry of the needle package, labeled as sterile, into the inventory field at a first time and incrementing a sterile packaged needle counter for the needle package according to a first quantity of sterile needles associated with a type of the needle package; and, in response to detecting removal of a first needle from the inventory field in a second image, incrementing a deployed needle counter at a second time succeeding the first time and decrementing the sterile packaged needle counter.

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.

A point of care device for supporting management of medication at a point of care location is provided, comprising: a container defining an interior space accessible via an opening and a sensor system. A sensor system coupled to the container includes one or more vibration sensors, a memory, and a power supply. The vibration sensors (i) detect vibrations or movements resulting from end-user interactions with the container and (ii) output vibration signal data indicative of the vibrations detected. The memory stores the vibration signal data over a defined time period. In a first point of care mode, the container receives and contains used medication delivery devices into the interior space, and to contain said used medication delivery devices therein. In a second processing mode, the container allows access to the interior space for removal of the used medication delivery devices.

The present invention relates to a tamper resistant lid for a container. The lid exhibits a center axis (X) and includes an outer and an inner member. The outer and inner members are further adapted to be substantially prevented from displacement along the center axis (X) with respect to each other. At least a part of the inner member includes threads enabling a threaded connection to the container by means of rotating the outer member in a first direction. The lid further includes at least one stop member preventing the inner member from rotation with respect to the outer member. The at least one stop member is adapted to be controllably disabled with a designated force after said inner member has been connected to the container, so that the outer member can be freely rotated with respect to the inner member to thereby prevent removal of the lid from the container. The present invention enables the sealing of a container, while substantially preventing the container from being reopened.

A pen needle assembly apparatus (60) includes a housing (30), a movable support (40) for supporting a pen needle (18), an ejector (80) for ejecting a used pen needle from the support, and an actuator (56). The support (40) is rotated relative to the housing (30) to index the pen needles to a position where the pen needle can be accessed and coupled to a delivery device (10). The used pen needle (18) is returned to the well (42) in the support and the support rotated toward the ejector (80) where the used pen needle is ejected to a compartment (50) in the housing for disposal. A cover (60) on the housing includes at least one opening (65) for accessing the pen needle when the support is rotated to position a pen needle relative to the opening in the cover.

A sharps container includes a container portion and a closeable lid. The sharps container includes any suitable cross-sectional shape having at least one wall. The container portion is fabricated from a light translucent or transparent material, such that any suitable light may be shined through the at least one wall thereof. An upper perimeter of the container portion is treated, such that light will not shine through an upper twenty five percent of the container by volume. An opaque tape, an opaque paint, an opaque printing ink or any other suitable treatment is applied to an upper perimeter of the container portion to prevent light from passing through the container portion. At least one wall of the container is treated.

A system and related methods of preventing wrong-site surgeries and blade-related injuries to OR personnel, that includes a computer software system in combination with an electronic device. The system is configured to (a) receive surgical planning data that is related to a surgical procedure associated with a patient, including one or more audio files, (b) play the recorded audio files at a later time, and (c) provide, on a display screen, an interactive presentation that indicates (i) instructions to conduct an electronically-recorded “time-out” to confirm various details before starting the intended surgical procedure, and (ii) upon receiving indication of a successfully completed “time-out”, displaying a notification that the verification has been recorded in the electronic profile. 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.