A fluid handling device includes a receiving container with a piston arranged therein in a displaceable manner, such that the volume of a fluid receiving reservoir may be changed by a displacement of the piston. In addition, the fluid handling device includes an actuation mechanism configured to displace a carrier bearing upon actuation of the former. Finally, the fluid handling device includes a spring mechanism configured to transfer a force from the carrier bearing to the piston so as to effect, in response to displacement of the carrier bearing in a first direction, a displacement of the piston within the receiving container such that a volume of the fluid reservoir is increased.

Devices, systems and methods for controlling, regulating, altering, transforming or otherwise modulating the delivery of a substance to a delivery site. The devices, systems and methods optimize the delivery of the substance to an intended site, such as a vessel, vascular bed, organ and/or other corporeal structures, while reducing inadvertent introduction or reflux substance to other vessels, vascular beds, organs, and/or other structures, including systemic introduction.

Devices, systems and methods for controlling, regulating, altering, transforming or otherwise modulating the delivery of a substance to a delivery site. The devices, systems and methods optimize the delivery of the substance to an intended site, such as a vessel, vascular bed, organ and/or other corporeal structures, while reducing inadvertent introduction or reflux substance to other vessels, vascular beds, organs, and/or other structures, including systemic introduction.

A dispensing device which disperses medicate through a needle across a zone within a body. The device includes a needle which is, during use, becomes encapsulated within a tubular needle-receiving member, a reservoir in fluid communication with the needle, positioned within the housing, and in communication with the needle, a second reservoir, a reservoir-connecting conduit in communication with the reservoir, a fluid drive in communication with the fluid in the second reservoir and in communication with the reservoir-connecting conduit, and a linear drive attached to the needle or to the needle-receiving member. The fluid drive impel fluids from the second reservoir to the reservoir-connecting conduit and thus drives the therapeutic agent from the reservoir during the linear displacement of the needle towards the housing. Fluid communication from the therapeutic agent reservoir to the needle is maintained by the tubing during operation of the linear drive.

In an aspect, the present invention is directed to a ball lock assembly comprising a retention pin for use with an injection device. The ball lock assembly includes a ball lock frame and a ball lock core housed within the ball lock frame that includes a longitudinal opening within which a portion of the pin is positioned. In other aspect, the present invention is directed to an injection device that includes the ball lock assembly of the present invention and a method of using the same.

In an aspect, the present invention is directed to a ball lock assembly comprising a retention pin for use with an injection device. The ball lock assembly includes a ball lock frame and a ball lock core housed within the ball lock frame that includes a longitudinal opening within which a portion of the pin is positioned. In other aspect, the present invention is directed to an injection device that includes the ball lock assembly of the present invention and a method of using the same.

Provided is a micro-jet drug injection device comprising: a pressure chamber having a pressure driving liquid hermetically filled therein; a drug chamber having a micro nozzle defined in a wall; an elastic membrane elastically expandable and restorable and to separate the pressure chamber from the drug chamber; an energy-focusing unit concentrating energy on the pressure driving liquid in the pressure chamber; and the storage unit supplying the drug solution therein into the drug chamber through a drug supply channel. The drug chamber has a partial inner space defined therein. The partial inner space is in fluid communication with the drug supply channel and is partially defined by the membrane. A nozzle closure is disposed inside or outside the drug chamber. The nozzle closure blocks inflow of air outside the micro-nozzle into the partial inner space after the elastic membrane has expanded and before elastic recovery of the membrane is completed.

A system and method for monitoring the pressure of an injection site, utilizing a fluid operating in the laminar regime flowing through a calibrated tube, and measuring a pressure at one end of the calibrated tube with a pressure sensor, as well as a fluid velocity with a flow sensor, such as an elastic filament velocimeter, that comprises a nano-scale sensing element. Additional elements may be utilized, including the use of data acquisition units, processors, user interfaces, pumps, syringes, and control loops.

A needleless injector assembly can have a spring injector and an ampule. The spring injector can include a housing having a first housing portion and a second housing portion defining a bore and having a casing located in the bore and fixed relative to the first housing portion but the second housing portion can be rotatable relative to the casing. The casing can have a threaded receiving end at an end to threadedly receive a threaded end of an ampule. A pin having an end can project from the second housing portion and into an opening of the first housing portion and wherein the pin is retractable away from the first portion before the second housing portion is rotatable relative to the casing.

The present invention relates a botulinum toxin prefilled syringe system with desirable injection force characteristics, in particular low gliding force and low break loose force, comprising a syringe barrel of glass containing a liquid botulinum toxin composition, a plunger stopper and a closure device such as a tip cap or a needle shield. In addition, the present invention relates to a kit comprising the botulinum toxin prefilled syringe system, and optionally instructions for use, and to the use of the botulinum toxin prefilled syringe system in therapeutic and cosmetic applications.