Methods for setting up, maintaining and operating a radiopharmaceutical infusion system, that includes a radioisotope generator, are facilitated by a computer of the system. The computer may include pre-programmed instructions and a computer interface, for interaction with a user of the system, for example, in order to track contained volumes of eluant and/or eluate, and/or to track time from completion of an elution performed by the system, and/or to calculate one or more system and/or injection parameters for quality control, and/or to perform purges of the system, and/or to facilitate diagnostic imaging.

The present specification discloses a solution delivery device having a container component and a plug component configured for selective engagement with the container component. The container component has an internal cavity including an elongated mixing channel containing a first constituent, and the plug component provides an internal flow path configured for introduction of a second constituent into the mixing channel for mixing with the first constituent. The plug component may be inserted within the container component partially in a first operational mode and fully in a second operational mode. The first constituent may be a drug and the second constituent a diluent, such that the drug may be lyophilized with the device in the first operational mode and reconstituted with the device in the second operational mode. Multiple devices may be employed in tandem for the co-delivery of multiple constituents. The device may be included in a kit or installed within an injector.

A fluid transfer assembly, drug container, and method for enabling fluid transfer in an infusion system is taught. The assembly includes a fluid container containing an infusion fluid, and a drug container. The fluid container has at least one inlet port for receiving a medical substance from the drug container. The assembly further includes at least one fluid barrier controlling fluid passage between the drug container and the fluid container. The inlet port exhibits a first luer-lock connector, and the drug a container is sealed by a cap exhibiting a second luer-lock connector for attachment to the first luer-lock connector. The fluid barrier is designed and arranged to be ruptured by an external force to allow the fluid passage.

Embodiments provide apparatus and methods for delivering liquid form medication within the body wherein the medication is stored in solid form and then mixed with a liquid in an apparatus implanted within the body. One embodiment provides an implantable apparatus for in vivo delivery of medication comprising a housing including a reservoir, a store of solid form medication (SSM) and a pump. An SSM element is added to the reservoir along with fluid to form a medication solution comprising at least one drug. The medication solution is then delivered to a delivery site using a pumping means to pump solution from the reservoir through a delivery member such as catheter to a delivery site. Embodiments of the invention are particularly useful for delivering medication to a patient to treat a medical condition over an extended period of time without requiring the patient to take external medication.

Methods for setting up, maintaining and operating a radiopharmaceutical infusion system, that includes a radioisotope generator, are facilitated by a computer of the system. The computer may include pre-programmed instructions and a computer interface, for interaction with a user of the system, for example, in order to track contained volumes of eluant and/or eluate, and/or to track time from completion of an elution performed by the system, and/or to calculate one or more system and/or injection parameters for quality control, and/or to perform purges of the system, and/or to facilitate diagnostic imaging.

A delivery system configured to be secured on a patient skin which comprises a first container having a first variable volume; a second container having a second variable volume; and a skin adherable unit configured to secure the first container and the second container to the patient skin. The medical device may further comprise a containers' interface configured to operatively couple the first container and the second container such that a volume increase of the second variable volume may induce a volume decrease of the first variable volume. Preferentially, the system further comprises a vent device configured to prevent any unintended pressure increase in the first storage compartment.

Examples of the present application disclose a medication delivery apparatus comprising a first plunger, a second plunger and a container configured to receive the second plunger and at least a portion of the first plunger. The container and the second plunger define a dilution chamber that is configured to receive a diluent. The container defines a dilution chamber opening. The first plunger, the container and the second plunger define an active agent chamber that is configured to receive a pharmaceutical preparation. The second plunger comprises a one-way valve configured to control a flow of pharmaceutical preparation from the active agent chamber to the dilution chamber. The one-way valve is configured to move from a closed position to an open position upon application of a force exceeding a valve threshold force to an inlet side of the valve. The valve threshold force is less than a sum of a break loose force of the second plunger and a break loose force of the first plunger.

A device for administering needle-free subcutaneous treatment to a patient comprises an actuator configured to deliver a plurality of volumes of a treatment at a plurality of locations on a body of the patient; at least one imaging device configured to detect a movement of the needle-free device from a first location on the body of the patient to a second location on the body of the patient; and a processor configured to determine the second location on the body of the device relative to the first location from the movement of the needle-free device relative to the first location on the body, the processor further configured to determine a volume of the plurality of volumes of the treatment to deliver to the body of the patient at the second location.

An integrated cartridge assembly that is employed with an automated medication administration system in response to the acute medical condition. The cartridge assembly configured to be operatively coupled between a pump assembly and a medical port. The cartridge assembly includes a first cartridge and a second cartridge positioned within a housing. The first cartridge contains a portion of saline, while the second cartridge contains a portion of a medicament. The cartridge assembly also includes a gate member that maintains a separation distance between a manifold assembly and the first and second cartridges when in a locked position when the cartridge assembly is in the stored state. The cartridge assembly is operatively coupled to the medical port via a tube set that is fixedly coupled to the manifold assembly.

A device and method for parenteral administration of a solution of a therapeutic agent include a fluid reservoir having a chamber for holding fluid and an outlet port. The outlet port is fluidly coupled to a therapeutic agent conduit having a fluid inlet and a fluid outlet that define a fluid flow path. An infusion device is fluidly connected to the fluid outlet of the therapeutic agent conduit. The infusion device is capable of parenteral administration of fluid. A polymeric matrix is disposed in the therapeutic agent conduit, the polymeric matrix having a therapeutic agent dispersed therein. The therapeutic agent is at least partially dissolvable when contacted by fluid and a solution of the therapeutic agent is formed when contacted by the fluid.