Abstract: Contrast administration data that relates to operation of a contrast media injector system (602) may be converted from at least one format (e.g., a CAN-compliant format) to at least one other format (e.g., an HL-7-compliant format) by an injection data management module (660) for use by a medical system (600). Data on contrast media prescribed for an imaging operation using an imaging system (690), contrast media data for use in this imaging operation, and data on contrast media actually administered/injected by a contrast media injector system (602) for this imaging operation may be stored in a data structure (780) on the injection data management module (660). Patient renal function data may be used to control the dispensing of contrast media from a contrast media/storage/dispensing unit (500), to control the operation of the contrast media injector system (602), or both, and may be stored in the data structure (780) as well.

Abstract: Contrast administration data that relates to operation of a contrast media injector system (602) may be converted from at least one format (e.g., a CAN-compliant format) to at least one other format (e.g., an HL-7-compliant format) for use by a medical system (600). Data on contrast media prescribed for an imaging operation using an imaging system (690), data on contrast media dispensed from a contrast media storage/dispensing unit (500) for use in this imaging operation, and data on contrast media actually administered/injected by a contrast media injector system (602) for this imaging operation may be stored in a data structure (780). Patient renal function data may be used to control the dispensing of contrast media from the contrast media/storage/dispensing unit (500), to control the operation of the contrast media injector system (602), or both, and may be stored in the data structure (780) as well.

Abstract: An injection data management system (172) is disclosed. Injection-related data (182) is stored on the injection data management system (172) on a customer-by-customer (122) basis. A given customer (122) may communicate with the injection data management system (172) over the Internet (160) using an appropriate data communications device (124). Upon providing appropriate authenticating data (146) to the system (172), a customer (122) can access, view, and/or assess its own injection-related data (182) that is stored on the system (172) over the Internet (160).

Abstract: Multiple embodiments of contrast media injector systems (800, 800?, 800c) are disclosed. A number of different devices are disclosed for providing user input to such a contrast media injector system (800, 800?, 800c), including at least one tablet computer (700), a user-mountable user input device (760), a smartphone (762), and various combinations thereof.

Abstract: A pharmaceutical product supply is disclosed in the form of a container, a pharmaceutical product receiver, pharmaceutical product, an adhesive, and at least one release liner. The pharmaceutical product receiver includes a plurality of receptacles for pharmaceutical product. The container is initially disposed in a first configuration where all of the pharmaceutical product receiver receptacles may be accessible. The container is thereafter disposable in a second configuration where no covering for any of the pharmaceutical product receiver receptacles is accessible through any openable access incorporated by the container. One or more release liners may be moved to expose adhesive for disposing and retaining the container in its second configuration. The noted second configuration of the container facilitates disposal of the pharmaceutical product supply (e.g.

Abstract: Various embodiments of pharmaceutical product containers are disclosed. Each pharmaceutical product container includes a cap, a container body, and a locking mechanism. The locking mechanism is disposable from a locked state to an unlocked state at least when the cap is in a closed position relative to the container body (e.g., to define an enclosed space for pharmaceutical product). Once in the locked state and with the cap being in a closed position, the locking mechanism is unable to return to its unlocked state. Pharmaceutical product enclosed within the container with the locking mechanism being in its locked state may then be disposed of in any appropriate manner (e.g., discarded in the trash).

Abstract: A contrast media injection system includes detects the absolute position of the syringe ram using a non-contact sensor. A series of magnets and Hall-Effect sensors may be used or an opto-reflective system. Illuminated knobs that are connected to the drive mechanism for the syringe ram rotate with the drive and provide visual feedback on operation through the illumination. Analog Hall-Effect sensors are used to determine the presence or absence of magnets that identify the type of faceplate being used. The faceplates include control electronics, connected to the powerhead through connectors, which may be interchangeably used by the two faceplates. The faceplate electronics include detectors for automatically detecting the capacity of pre-filled syringes.

Abstract: A pharmaceutical product supply is disclosed in the form of a container, a pharmaceutical product receiver, pharmaceutical product, an adhesive, and at least one release liner. The pharmaceutical product receiver includes a plurality of receptacles for pharmaceutical product. The container is initially disposed in a first configuration where all of the pharmaceutical product receiver receptacles may be accessible. The container is thereafter disposable in a second configuration where no covering for any of the pharmaceutical product receiver receptacles is accessible through any openable access incorporated by the container. One or more release liners may be moved to expose adhesive for disposing and retaining the container in its second configuration. The noted second configuration of the container facilitates disposal of the pharmaceutical product supply (e.g.

Abstract: A pharmaceutical product supply is disclosed in the form of a container, a pharmaceutical product receiver, pharmaceutical product, an adhesive, and at least one release liner. The pharmaceutical product receiver includes a plurality of receptacles for pharmaceutical product. The container is initially disposed in a first configuration where all of the pharmaceutical product receiver receptacles may be accessible. The container is thereafter disposable in a second configuration where no covering for any of the pharmaceutical product receiver receptacles is accessible through any openable access incorporated by the container. One or more release liners may be moved to expose adhesive for disposing and retaining the container in its second configuration. The noted second configuration of the container facilitates disposal of the pharmaceutical product supply (e.g.

Abstract: Systems and methods for managing use of a pharmaceutical product are provided. The systems and methods utilize an external cover and a container, along with a first material and a pharmaceutical product that are each contained within an internal space that exists when the external cover is in a closed position relative to the container. Release of the first material may bond the external cover to the container, may result in the first material coming into contact with the pharmaceutical product, or both.

Abstract: Contrast administration data that relates to operation of a contrast media injector system (602) may be converted from at least one format (e.g., a CAN-compliant format) to at least one other format (e.g., an HL-7-compliant format) by an injection data management module (660) for use by a medical system (600). Data on contrast media prescribed for an imaging operation using an imaging system (690), contrast media data for use in this imaging operation, and data on contrast media actually administered/injected by a contrast media injector system (602) for this imaging operation may be stored in a data structure (780) on the injection data management module (660). Patient renal function data may be used to control the dispensing of contrast media from a contrast media/storage/dispensing unit (500), to control the operation of the contrast media injector system (602), or both, and may be stored in the data structure (780) as well.

Abstract: Pharmaceutical product dispensers (e.g., in the shape of a common ink pen) are operable to indicate information regarding a dosing schedule of a pharmaceutical product dispensable from the dispenser. Embodiments of the dispensers may include a plurality of dosing segments, each corresponding to a different dose of the pharmaceutical product. Actuation of an actuator may result in interaction between the actuator and the pharmaceutical product storage area such that a dose of pharmaceutical product contained in the pharmaceutical product storage area is dispensed, along with a corresponding advancement of the plurality of dosing segments. The dispenser may also include one or more locks to prevent unauthorized access to the pharmaceutical product (e.g., by a child or the like). Furthermore, the pharmaceutical product dispenser may include a disabling mechanism to permanently disable actuation of the actuator of the dispenser.

Abstract: Containers and methods for disposing unused pharmaceutical product are disclosed. Each container (100, 200, 300) may include a container body (104, 204, 304) with an internal chamber (116, 216, 316) for storing pharmaceutical product, along with a cover (124, 224, 324) for selectively limiting access to the chamber (116, 216, 316). An encapsulation component (128, 228, 328) may be selectively disposable within the chamber (116, 216, 316), and may be operable to encapsulate the pharmaceutical product within the container (100, 200, 300). For instance, the encapsulation component (128, 228, 328) may melt and/or flow into contact with the pharmaceutical product and thereafter solidify to encapsulate the pharmaceutical product. The encapsulation component (128, 228, 328) may melt and thereafter solidify between the cover (124, 224, 324) and shell (104, 204, 304) to limit removal of the cover (124, 224, 324) from the shell (104, 204, 304).

Abstract: A pharmaceutical product supply in the form of a container (e.g., secondary packaging) and a pharmaceutical product receiver (e.g., primary packaging) is disclosed. The pharmaceutical product receiver may include a plurality of pockets or receptacles, and may be disposed within the container. Pharmaceutical product may be enclosed within one or more of these receptacles. The pharmaceutical product receiver may be locked to at least some degree within the container to facilitate disposal of the pharmaceutical product supply, for instance at a time when some of the pharmaceutical product may have been removed from the pharmaceutical product receiver but prior to utilizing all of the pharmaceutical product originally provided with the pharmaceutical product receiver.

Abstract: A contrast media injection system includes detects the absolute position of the syringe ram using a non-contact sensor. A series of magnets and Hall-Effect sensors may be used or an opto-reflective system. Illuminated knobs that are connected to the drive mechanism for the syringe ram rotate with the drive and provide visual feedback on operation through the illumination. Analog Hall-Effect sensors are used to determine the presence or absence of magnets that identify the type of faceplate being used. The faceplates include control electronics, connected to the powerhead through connectors, which may be interchangeably used by the two faceplates. The faceplate electronics include detectors for automatically detecting the capacity of pre-filled syringes.

Abstract: Multiple embodiments of contrast media injector systems (800, 800?, 800c) are disclosed. A number of different devices are disclosed for providing user input to such a contrast media injector system (800, 800?, 800c), including at least one tablet computer (700), a user-mountable user input device (760), a smartphone (762), and various combinations thereof.

Abstract: A transdermal patch container (10) that includes a container body (16), a first compartment (24), and a second compartment (28) is disclosed. One or more first transdermal patches (34) may be stored in the first compartment (24). One or more second transdermal patches (36) may be stored in the second compartment (28). The first transdermal patches (34) differ from the second transdermal patches (36) in at least one respect. A number of features may be incorporated to reduce the potential of being able to withdraw second transdermal patches (36) out of the second compartment (28). For instance, second transdermal patches (36) may be required to be directed through a slot (44) to enter a second compartment (28i). A flap (66) may be positioned below such a slot (58) within a second storage compartment (28ii). A plurality of vertically spaced or staggered flaps (96) may be positioned within a second storage compartment (28iv).

Abstract: Various embodiments of pharmaceutical product containers are disclosed. Each pharmaceutical product container includes a cap, a container body, and a locking mechanism. The locking mechanism is disposable from a locked state to an unlocked state at least when the cap is in a closed position relative to the container body (e.g., to define an enclosed space for pharmaceutical product). Once in the locked state and with the cap being in a closed position, the locking mechanism is unable to return to its unlocked state. Pharmaceutical product enclosed within the container with the locking mechanism being in its locked state may then be disposed of in any appropriate manner (e.g., discarded in the trash).

Abstract: A container (100) for storing transdermal patches is disclosed. The container (100) includes a child-resistant mechanism (112) to reduce the likelihood of access to the transdermal patches (TP) by children. The child-resistant mechanism (112) may include first and second access components (116, 120) that may be disposed in a non-opposing manner and that may be in any appropriate form (e.g., buttons). Activation or engagement of the first and second access components (116, 120) in a particular manner allows the container (100) to assume an open configuration to access and/or load patches. In one arrangement, the first and second access components (116, 120) may be simultaneously engaged (e.g., depressed) to open the container (100). In another arrangement, the first and second access components (116, 120) may be engaged in series in a particular sequence to open the container (100).

Abstract: A pharmaceutical product supply including primary packaging (e.g., a blister card) having a plurality of receptacles and pharmaceutical product (e.g., one or more pills, capsules, etc.) enclosed within at least one of the receptacles. Heating the pharmaceutical product supply to at least an activation temperature of a heat-activated encapsulation material associated with the supply may encapsulate the pharmaceutical product to reduce the likelihood that the pharmaceutical product can thereafter be administered, and thereby facilitates disposal of the pharmaceutical product. In one embodiment, a tray of a primary packaging is constructed of the heat-activated encapsulation material. In another embodiment, primary packaging may be disposed within a cavity of secondary packaging (e.g., carton), and the heat-activated encapsulation material may be in the form of a layer that is also located within the cavity.