Activable injection device including: an external casing having a first opening to be put in fluidic communication with a first reservoir and a second opening to be put in fluidic communication with a second reservoir; an internal body having a first and a second fluidic path, being linearly mobile inside the external casing and being thus able to be translated between a fluid gathering position and a fluid injection position; and an injection needle in fluidic communication with the second fluidic path. The fluid gathering position puts the first opening of the external casing in fluidic communication with the second opening of the external casing through the first fluidic path. The fluid injection position puts one of the openings of the external casing in fluidic communication with the injection needle through the second fluidic path.

A prefilled syringe and a method of filling a syringe with a pegfilgrastim solution to provide a target extracted volume of pegfilgrastim solution from the syringe are described. A method includes selecting the target extracted volume of pegfilgrastim solution, determining an estimated drug transfer loss, determining an estimated syringe dead volume, filling the syringe with a volume of pegfilgrastim solution comprising at least the target extracted volume plus the estimated drug transfer loss plus the estimated syringe dead volume.

Various systems and methods for the pressure-regulated transfer of medical fluids are disclosed. The system can include an adapter assembly that connects with a medical container and with a syringe assembly. The syringe assembly can include a first reservoir and a second reservoir. In various embodiments, when the adapter assembly and the syringe assembly are coupled, the first reservoir and the container can exchange regulating fluid and the second reservoir and the container can exchange medical liquid from the medical container.

Automatic injection device includes a housing, a syringe, a plunger, and a syringe carrier. The housing includes a barrel between a first end and a second end. The barrel includes an elongated window to allow viewing of contents inside the housing. The syringe is disposed within the housing and has a reservoir. The plunger is at least partially disposed within the syringe and includes a visual indicator. The syringe carrier is disposed within the housing and configured to contain the syringe and displace the syringe within the housing between a first position and a second position. The syringe carrier can be substantially transparent. The syringe carrier can have first and second legs and an extension disposed therebetween, and at least a portion of the extension can be configured to align with the window and the reservoir when the syringe carrier is in the first position.

A system and method to enable treatment through cell therapy. The system can enable cell injection such as, for example, injecting beta cells/islets, cartilage cells, fat cells, and others. The system and method ensure that the delivery rate and delivered volume of the material pumped through a tube and into the injection needle is consistent over the course of the start-operation-stop process from run to run. The system and method can automatically stop delivery and alarm if an occlusion is detected during delivery.

A syringe is disclosed. The syringe comprises a plunger and a barrel. The plunger can be rotated relative to the barrel to lock, unlock and/or translate the components relative to each other.

Aspects of the present disclosure disclose a system for delivering a medication. In one aspect, the disclosure is directed to a medical dispensing device that includes a label with a series of zones of varying widths, with each of the zones corresponding to a pre-determined volumetric dose of a drug that is correlated to a physical characteristic of a patient. In one specific example, the label is further affixed to the medical dispensing device such that a smallest dose of the drug to be administered corresponds to a first zone that is proximate an opening through which the drug is to be dispensed.

A syringe apparatus for disinfection of central line port needleless connector and method of disinfecting a central line port needleless connector. The syringe apparatus includes a syringe tip including a first O-ring including a disinfectant located in a first section of a tip cavity between an inner tip portion of the syringe tip and an outer tip portion of the syringe tip. The syringe tip preferably further includes one or more Luer lock sections and one or more additional O-rings. The syringe apparatus preferably also includes a cap including an inner layer including a disinfectant.

A securing device for an injection device which receives a syringe with a proximal end portion having a radially outwardly projecting flange, has a body with proximal and distal end portions, an opening for accepting the syringe, an outer surface, and a proximal end surface for contacting a distally-facing surface of the flange when the syringe is advanced distally, preventing further advancement. A securing arm includes a free end; a base end fixed to the outer surface; a first portion extending radially outwardly from the base end to permit the flange to pass; and a second portion extending radially inwardly in a rest position, contacting the flange as the syringe is advanced. The securing arm is elastically flexible to allow the free end to move radially outwardly, allowing the advancing flange to pass, and is biased to the rest position to secure the flange and the syringe against proximal movement.

A dispensing system includes a hollow tube having an outer wall with an air vent formed in the outer wall. A valve including a flexible flap is disposed inside the tube. The flexible flap, normally biased into a retracted position, is moveable between an extended position for sealing the air vent and the retracted position for unsealing the air vent. A syringe connector interconnects a syringe with the proximal end of the hollow tube and defines a fluid flow path. A flowable viscous fluid is disposed within the syringe. When a syringe plunger is depressed, the flowable viscous fluid is expelled from the syringe and forced through the fluid flow path and into the proximal end of the hollow tube. When the flowable viscous fluid engages the flexible flap, the flexible flap is forced to move into a position that seals the air vent.