An infusion pump includes a core member and a bladder member which are substantially spheroidal at one end and cylindrical at the other end. The core member is inserted inside the bladder member and a ring member engages the cylindrical ends of the core and bladder member to sealingly secure the bladder to the core. A tubular hose is included and is coupled with an infusion port of the core member. When fluid is injected into the pump, it causes the bladder member to inflate substantially symmetrically and spherically around an axial axis of the core member. Upon deflating the bladder member, the fluid is ejected out of the pump at a constant flow rate.

A vial assembly includes a vial and a needle with at least one port. The vial includes a particulate material, a septum, a neck region including a first width, and a particulate region including a second width greater than the first width. The vial assembly is configured to move to a locked position. The needle may be configured to puncture the septum with the at least one port configured to be in the neck region when in the locked position. The at least one port may be configured to inject a fluid into the vial assembly to mix with the particulate material upon actuation of a vial engagement mechanism in a first direction and to receive a resulting mixed fluid from the vial assembly upon actuation of the vial engagement mechanism in a second direction opposite the first direction.

A drive device includes: a feed screw configured to rotate about a central axis; and a guided member configured to be guided in an axial direction along the central axis, wherein the guided member includes at least one nut member having a screw portion screwed with the feed screw. In a transverse section orthogonal to the central axis, the screw portion is configured to move in both a first direction toward the central axis and a second direction intersecting the first direction.

An infusion pump includes: infusion-tube pressing parts configured to press a flexible infusion tube; an infusion-tube receiving surface configured to serve as a receiving surface when the infusion-tube pressing parts press the infusion tube; and a restoration device provided between the infusion-tube pressing parts, the restoration device being configured to move together with the infusion-tube pressing parts along the infusion-tube receiving surface and to press two sides of the infusion tube pressed by the infusion-tube pressing parts, wherein the infusion-tube pressing parts is configured to move sequentially in a longitudinal direction of the infusion tube along the infusion-tube receiving surface to deliver a liquid in the infusion tube in one direction while pressing the infusion tube by sandwiching the infusion tube with the infusion-tube receiving surface.

In one embodiment, an injector includes a sleeve, a drive assembly, and a drive assembly housing. The sleeve is configured to receive a reservoir having a plunger therein. The drive assembly is configured to pressurize the reservoir and includes a tip, an actuator, and mechanical segments. The tip is configured to be secured to the plunger. The actuator is configured to supply a motive force to the tip for moving it between retracted and extended positions. The mechanical segments are configured to transmit motive force from the actuator to the tip. The drive assembly housing has a housing length in a direction parallel to a central longitudinal axis of the tip. The reservoir has a reservoir length L. A package length is defined by the housing length and the reservoir length L. The package length is less than 2L.

There is described a patch pump comprising a cartridge, a power source, a pump system, a drug delivery device and a control system configured to operate in particular the pump system and the drug delivery device. The pump system includes, on the one hand, a pump having a pump housing containing a pump piston and a valve piston and, on the other hand, a pump drive including a piston motor and a valve motor for driving the pump piston and the valve piston independently from each other through a first and a second transmission. The drug delivery device includes a transdermal delivery system having a needle actuation mechanism configured for transdermal insertion of a cannula.

Infusion devices are disclosed herein. The present technology includes, for example, an infusion device for delivering a medicament to a body of a user. The device can comprise an insertion assembly comprising a cannula, a reservoir assembly comprising a reservoir configured to receive a medicament, and a trigger assembly configured to trigger insertion of the cannula into the user in response to a command from a remote computing device communicatively coupled to the infusion device.

A fluid delivery device comprises a fluid reservoir for containing medicament. The fluid reservoir is sealed proximate one end with a sliding seal piston. A delivery path is configured to fluidly couple the fluid reservoir and a patient wearing the fluid delivery device. A basal engine mechanism is configured to directly or indirectly move the sliding seal piston in the fluid reservoir at a controlled basal rate. A bolus mechanism configured to move the basal engine relative to the fluid reservoir and directly or indirectly move the sliding seal piston in the fluid reservoir a discrete bolus amount at a time.

The present disclosure relates to a medicament delivery device comprising a housing, a reservoir for medicament disposed in the housing and a dispensing member. The dispensing member is moveable relative to the housing from a first position to a second position to dispense medicament from the reservoir when the reservoir contains medicament. The medicament delivery device further comprises first and second biasing members. The first biasing member is configured to urge the dispensing member from the first position to an intermediate position. The second biasing member is configured to urge the dispensing member from the intermediate position to the second position.

An administration system for delivery of a pharmaceutical composition to a patient has a delivery device configured to deliver a dose of the pharmaceutical composition to the patient and a notification device in communication with the delivery device. The notification device is configured to communicate information about a status of at least one property of the delivery device. The delivery device can be a wearable automatic injector configured to be worn on the patient's skin. The delivery device of the present disclosure may allow a user or the patient to view a status of a container. For example, the delivery device of the present disclosure may provide a simple and effective visual means of displaying fill confirmation and delivery confirmation.