Injection systems and methods of using the same are described herein. Each injection system may include one, two, or more needles, with each needle being configured to move needle between an injection position and a retracted position to deliver an inoculant. The injection needles may rotate about a carriage axis that extends through the injection axis along which each needle moves when moving between their injection and retracted positions. The injection needles in systems that include two or more injection needles may be advanced from the retracted position to the injection position at the same or different times.

An on-body injector system includes a drug container assembly including a container, a seal member, and a sealing interface between the seal member and the container. The container includes an opening and the seal member at least partially covers the opening in the container. A fluid pathway assembly is coupled to the drug container assembly and includes a needle that is movable between a storage position, in which a point of the needle is spaced from the seal member, and a delivery position, in which the point of the needle is disposed at least partially through the seal member. A radiation generator is configured to emit rays of radiation to sterilize and/or disinfect the sealing interface. A barrier is disposed adjacent to the sealing interface and has an opening. At least a portion of the drug container assembly is positioned adjacent to the opening in the barrier.

A medical package containing a medical article, including: a support element comprising a hollow support tube and a support cap, wherein the support element includes a first chamber configured to enclose the medical article and wherein the support cap includes a support structure configured to hold the medical article captive; a stopper configured to be coupled to the hollow support tube in such a way that the support element has a grip part that protrudes from the stopper, the grip part of the support element configured to be held by a hand of a person; a hollow protective cover configured to be coupled to the stopper in such a way as to delimit, in cooperation with the stopper, a second chamber inside which there extends the grip part of the support element, the hollow protective cover configured to be separated from the stopper, wherein when the hollow protective cover is coupled to the stopper, a part of the stopper protrudes from the hollow protective cover, and is configured to form a grip end of the stopper that is configured to be held by a hand of a person, when the hollow protective cover is separated from the stopper, wherein a part of the support element is configured to be engaged by force inside the stopper, and when the hollow protective cover is separated from the stopper, the support element remains coupled to the stopper while the support element is also separable from the stopper when a person holds the grip part of the support element and pulls the support element so as to separate it from the stopper.

A medical container including a tubular barrel defining a reservoir for a medical product. The barrel is provided with a scale having graduations indicative of an injected volume or a remaining volume of said medical product. The barrel further includes a RFID tag including an antenna that forms, follows or overlays with at least a portion of the scale.

Methods and systems for sterilizing medical devices including, but not limited to, a pre-filled syringe. A method for sterilizing a pre-filled syringe may comprise placing the pre-filled syringe in a sterilization chamber and performing a plurality of pulsed sterilization steps. Each pulsed sterilization step may comprise drying the sterilization chamber, humidifying the sterilization chamber, evacuating the sterilization chamber to a target pressure, introducing a quantity of NO2 to the sterilization chamber from a buffer tank that is selectively fluidly linked to the sterilization chamber, passing a predetermined quantity of air through the buffer tank and into the sterilization chamber to aid in rinsing NO2 from the buffer tank into the sterilization chamber, and after the quantity of air is passed through the buffer tank, holding the sterilization chamber for a dwell period at a dwell pressure.

A method of sterilizing a cartridge (10), the cartridge (10) having a side wall (12) and a medicant therein; placing the cartridge (10) within an outer sleeve (18); sealing the sleeve in the side wall (12) of the cartridge (10) with a wiper seal (34) to form a hermetic microbial barrier; providing a breathable microbial membrane (38) over one end of the sleeve (18); subjecting the cartridge (10) and the outer sleeve (18) to a gas sterilization; and removing any sterilizing gas remaining after sterilization.

An on-body injector system includes a drug container assembly including a container, a seal member, and a sealing interface between the seal member and the container. The container includes an opening and the seal member at least partially covers the opening in the container. A fluid pathway assembly is coupled to the drug container assembly and includes a needle that is movable between a storage position, in which a point of the needle is spaced from the seal member, and a delivery position, in which the point of the needle is disposed at least partially through the seal member. A radiation generator is configured to emit rays of radiation to sterilize and/or disinfect the sealing interface. A barrier is disposed adjacent to the sealing interface and has an opening. At least a portion of the drug container assembly is positioned adjacent to the opening in the barrier.

A drug delivery sterilization system includes a housing defining at least one receptacle, a container assembly having first and second ends, an elongated portion extending therebetween, and an electron beam or x-ray generator disposed near the housing. The container assembly includes a container having a container contact region at the second end and an inner volume to contain a medicament, a seal member having a seal member contact region to form a sealing interface with the container contact region, and a coupling device adapted to sealingly couple the seal member to the container. The container assembly is at least partially disposed in the receptacle such that the second end of the container is exposed through the housing. The electron beam or x-ray generator generates a sterilizing beam that penetrates the seal member to sterilize the sealing interface.

A drug delivery system for injecting a medicament includes a housing defining a cavity, a container received within the cavity and configured to receive a medicament, the container comprising a stopper configured to move within the container and a closure, a drive assembly received within the cavity and configured to drive the stopper within the container, a needle actuator assembly received within the cavity and comprising a needle configured to be placed in fluid communication with the container, the needle moveable from a first position and a second position spaced from the first position, and a sterilizer received within the cavity and configured to sterilize at least one of the container, the drive assembly, and the needle actuator assembly upon activation of the drug delivery system.

A protective cap having a first cap and a second cap that are removably coupled together for use in short-term and long-term antimicrobial treatment of needleless connectors and access ports of an infusion system. The instant invention further provides a protective cap having a first cap and a second cap that each coupled to a different surface of a component of an infusion system, such as a syringe. The instant invention further provides a strip containing a plurality of disposable protective caps.