An injection device includes a syringe barrel for holding medication, a collar positioned on a proximal end of the syringe barrel, a piston assembly including a piston arranged in the syringe barrel, and a rod member extending through the collar to the piston, and a blocking member arranged on the rod member. The piston assembly is movable distally relative to the syringe barrel in a priming stroke. The piston assembly is movable relative to the collar during the priming stroke of the piston assembly such that the blocking member longitudinally abuts the piston assembly and the collar at an end of the priming stroke of the piston assembly.

Devices and methods for use with syringes are disclosed. A plunger rod includes an outer housing having proximal and distal ends and a lumen between the ends, as well as an inner body axially slidable within the lumen between a first and second position. The inner body has a retention member extending therefrom. When the inner body is in the first position, the plunger rod has a first length, and, when the inner body is in the second position, the plunger rod has a second length greater than the first length. When the inner body is in the second position, the inner body is configured to be rotated relative to the outer housing until the retention member is received within the outer housing to preclude the inner body from moving in the axial direction.

An auto-injector for administering a dose of a liquid medicament includes an elongate tubular case and a carrier subassembly including a tubular carrier slidably arranged inside the case. The carrier is adapted to contain a syringe with a hollow injection needle, a drive spring, and a plunger for forwarding load of the drive spring to a stopper of the syringe, wherein the syringe is lockable for joint axial translation with the carrier, wherein the drive spring acts between the carrier and the plunger, wherein the plunger, in an initial state, is locked to the carrier by a ramped engagement to the carrier and by being prevented from rotating out of this ramped engagement, depending on a relative longitudinal position of the carrier in the case, and wherein the plunger is arranged to be released for rotating out of the ramped engagement.

Devices, systems, and methods for minimization of backlash in a syringe pump are described herein. Syringe pumps may comprise a syringe including a cylindrical body and a plunger, and a controller. The plunger may comprise a linear gear that may operably couple with a circular gear in the controller. The controller may be configured to bias the circular gear in a biasing rotational direction, thereby positioning the plunger to move towards a biasing translational direction. The methods may comprise determining a backlash compensation amount, determining a fluid transfer movement amount, moving at least one component of the syringe pump the backlash compensation amount and the fluid transfer movement amount in a first direction, and moving the at least one component of the syringe pump a biasing movement amount in a second direction opposite the first direction to re-engage the first gear and the second gear to minimize backlash.

A surgical instrument for delivering fluids or other agents or materials to an injection site, such as a surgical, treatment or tissue site. The surgical instrument comprises a multiple dispensing unit housing needle configured to house a plurality of fluid or materials dispensing units, or sub-needles, a needle cover sleeve, and an outer cannula. The surgical instrument is configured to provide fluid or materials to multiple areas of a surgical or treatment site during a single injection period, without having to remove the needle and re-insert to position it to inject fluid to another area of the surgical or treatment site.

A method of sterilizing a prefilled syringe comprises assembling a syringe assembly and performing at least one ethylene oxide (EtO) sterilization procedure cycle. The assembling step includes inserting a tip cap at a first end of a plunger, filling a non-glass barrel with sterilization sensitive material at a second end of the barrel, and inserting the plunger into the barrel at a second end to seal the sterilization sensitive material within the barrel. The EtO sterilization procedure cycle comprises undergoing a preprocessing stage, a wash and conditioning stage, an EtO sterilization stage and a wash and post exposure stage. Upon completing the EtO sterilization procedure cycle, a resultant pH of the sterilization-sensitive material does not exceed an acceptable pH range as defined by the United States Pharmacopeia. The disclosure also discusses inserting an assembled prefilled syringe into a procedure tray prior to performing the EtO sterilization procedure cycle.

An injection device includes a lower housing, a needle guard and an upper housing. With the upper housing in a pre-use position and the needle guard in a first position, an abutment body of an arm of the upper housing abuts a catch of the lower housing, preventing the upper housing from moving distally relative to the lower housing toward a dispensed position. Proximal movement of the needle guard from the first position to a second position thereof causes proximal movement of a camming ramp of a leg of the needle guard with respect to the catch and the abutment body such that the camming ramp engages the arm, thereby deflecting the abutment body radially outwardly by a distance sufficient to allow the abutment body to pass radially outside of the catch, and, in turn, permits distal movement of the upper housing into the dispensed position of the upper housing.

An injector device comprising: an outer housing for receiving a medicament container; and a drive mechanism for dispensing medicament from a medicament container received in the outer housing. The drive mechanism comprises a plunger rod and a displacing member configured to displace a distal end of the plunger rod into said medicament container to dispense said medicament. The device further comprises a brake configured to slow the rate of displacement of the plunger rod under the force of the displacing member.

Embodiments of the present disclosure relate to techniques, processes, devices or systems for pump devices. In one approach, a wearable drug delivery device, may include a reservoir configured to store a fluid, the reservoir comprising a housing including an outer wall defining an interior chamber, and a drive mechanism for driving the fluid from the reservoir. The drive mechanism may include a plunger received in the interior chamber of the reservoir, a leadscrew extending from the plunger, and a clutch mechanism threadably engaged with the leadscrew, wherein the clutch mechanism is configured to allow the leadscrew to pass through the clutch mechanism when disengaged and is configured to grip the leadscrew when engaged such that the clutch mechanism rotates to advance the leadscrew and the plunger into the reservoir.

Disclosed is a device for the parenteral delivery of a medication, such as a drug. The device includes upper and lower housings in which the upper housing is configured to move relative to the lower housing as a result of application of an external force to permit the user of the device to control the rate at which the drug is administered.