A manually operated mechanical pump for drug infusion through a syringe including a plunger slidable within a syringe body to cause drug contained within the syringe body to exit a front opening of the syringe. The pump has a pump body with an open front end, to which the syringe attaches, and an open rear end, at which a drive member is associated movably relative to the pump body. A pair of thrust members are provided between the drive member and the syringe to impart longitudinal thrust in a distal direction onto the plunger to cause the drug to exit the front opening. An elastic element is provided between the thrust members to store and release elastic energy when the first thrust member proximal to the drive member is manually actuated, thus causing the second thrust member proximal to the syringe to advance as the drug exits the front opening.

An electric injection device at least comprises an outer case, a drive mechanism, a transmission mechanism, a linkage mechanism and a push mechanism. The drive mechanism, the transmission mechanism, the linkage mechanism and the push mechanism are all assembled in the outer case, and the drive mechanism is used to drive the transmission mechanism. The transmission mechanism can transmit power to rotate a push block regularly and drive a brake end of the linkage mechanism continuously. The push mechanism comprises at least a pushing shaft and a pushing element. The brake end can continuously push the pushing element, and the pushing element propels the pushing shaft to further push a syringe assembled on the outer case, so as to use electric injection instead of manual injection to complete the syringe.

Disclosed herein are apparatuses and methods for a user-wearable infusion pump actuated with a shape memory alloy (SMA) wire. Embodiments enable an SMA wire driven infusion pump using a single length of SMA wire to provide multiple pulse sizes and corresponding medicament dispensing sizes. The multiple pulse sizes can include a larger pulse size for larger volumes to limit battery drain but smaller pulse sizes for precision of delivery.

Disclosed is a syringe for a micro-dosing syringe pump. The syringe includes a reservoir having an outlet port; a plunger having a track, with the plunger received inside a portion of the reservoir; a plunger driver comprising a gear connected to one end of a shaft and a pin located adjacent an opposite end of the shaft, with the plunger driver received inside the plunger and with the pin located inside and engaging the track. In use, rotation of the gear in a first direction advances the plunger into the reservoir a first distance as the pin travels in the track and rotation of the gear in a second direction opposite the first direction advances the plunger a further distance into the reservoir as the pin travels in the track. The design prevents excess dosing in a runaway motor failure.

A drug-delivery device is provided including a drug reservoir configured to contain a fluid drug, a needle cartridge comprising a plurality of needle assemblies, a drive member, a pump, one or more springs, a loading button and a dosing button. The device is configured to use work done by the user in actuating the loading button to load the one or more springs. When the user actuates the dosing button after actuating the loading button, the device is configured to (i) release the one or more loaded springs to operate the drive member to drive a needle assembly that is in operational alignment with the drive member from a retracted position to an injection position, (ii) drive the pump to pump fluid drug from the drug reservoir through the driven needle assembly, and (iii) retract the driven needle assembly from the injection position to the retracted position.

A fluid injector system (1000) is configured to perform an injection protocol. The fluid injector system includes a housing (11) and a controller (900) operatively associated with a user input device (40) and a fluid actuator (16). The controller includes at least one processor programmed or configured to determine an orientation of the housing, receive at least one signal from the user input device, determine a direction of fluid actuation based on the orientation of the housing and the at least one signal, and actuate the fluid actuator in the direction of fluid actuation. The direction of fluid actuation corresponds to at least one of actuating the fluid actuator to inject fluid from a fluid reservoir and actuating the fluid actuator to draw fluid into the fluid reservoir.

Infusion devices, systems, and related operating methods are provided. A method of detecting an occlusion in a fluid path involves a control module of an infusion device operating a driver module to provide energy to an actuation arrangement to achieve a commanded actuation state, wherein the actuation arrangement is coupled to a plunger configured to deliver fluid via the fluid path, obtaining a measured actuation state of the actuation arrangement via a sensing arrangement, and detecting an occlusion condition based on a relationship between the commanded actuation state and the measured actuation state.

An improved device delivers a fluid medicament to the subcutaneous tissue of a user. The device is better suited for patients with Parkinson's Disease and other central nervous system disorders, than conventional infusion devices. The device can include a reusable part including a drive component (e.g., motor) and control electronics and a disposable part including a medicament reservoir. Medicament can be evacuated from the medicament reservoir by a plunger assembly that includes a plunger attached to a lead screw that is rotated by a nut, all within the disposable part. The device can be fluidically coupled with the tissue via a flexible cannula. Various embodiments relate to an improved cannula insertion mechanism that delivers the cannula under a force applied by a spring. Various embodiments relate to improved filling of the device, for example, using a vial adapter and an automated filling station.

A system for mass vaccination includes a plurality of portable electronic injectors, a mobile process manager and a database. Each portable electronic injector includes at least one needle to administer a measured amount of at least one vaccine to a body skin/tissue and an indicator system to provide an indication when either an injection error occurs or when a vaccination indication is required. The mobile process manager is in wireless communication with the plurality of injection devices and controls a mass vaccination. The process manager transmits task data to all injection devices in parallel via WI-FI, receives the vaccination indications from each injector in real time, also receives injection errors and vaccination process data, alerts a vaccination process overseer generally in real-time of the errors and transmits the injection data from each injector via cellular and/or internet transmission to the database.

A rotary pump for a fluid metering system is provided. The rotary pump reciprocates, and is reversed by a signal from a limit switch that is deflected by an actuator arm on a rotating sleeve of the pump system. The rotary pump includes a plunger and optional stopper formed from a two-shot molding process, and including seals overmolded onto the head of the plunger and the head of the optional stopper.