A drug delivery device includes a container for storing a drug, the container having a stopper for expelling the drug; an injection drive comprising an energy source for directly or indirectly acting on the stopper to expel the drug; a sensor for detecting contact between the drug delivery device and a body of a patient; and a user interface (UI) for activating or causing the activation of the injection drive. The device is operative for drawing attention to the UI, if the sensor detects contact between the drug delivery device and the body of the patient, to thereby indicate that the injection drive is ready to be activated, which activation is the next step in the drug administration process.

Disclosed herein are apparatuses and methods for an ambulatory infusion pump actuated with a shape memory alloy (SMA) wire. An SMA wire operated mechanism can include an actuator lever to increase the SMA wire’s strain into a usable displacement to move a pawl that ratchets to a ratchet wheel to rotate a lead screw to advance a plunger a precise amount within a reservoir to deliver a precise amount of fluid.

A drug delivery device, in the form of an injector, may include one of a number of systems for limiting the delivery of a medical fluid or drug product in case of movement of (e.g., removal of) the injector relative to the patient as determined by a proximity sensor. The drug delivery system may in the alternative or in addition include systems for indicating the amount of medical fluid or drug product delivered (or not delivered) in case of movement of (e.g., removal of) the injector relative to the patient as determined by the proximity sensor. The injector may be, for example, an on-body injector or an hand-held autoinjector.

A cartridge-based computer controlled self-injection device automatically regulates time and dosage administered to a patient. Cartridges can be electronically tagged so the injection device can determine the content, volume, expiration date, and physician prescribed dosage timetable. Authentication verifies the device and ensures the proper patient is using the device with the appropriate therapeutic injectant. Authentication further provides information controlling device operation including expiration dates and clock synchronization. Therapeutic injectant administration statistics, such as date and time of administration of a therapeutic injectant are stored and provide to a health care provider for monitoring. Patients can be notified of nearing or missed administrations.

A drug delivery system for injecting a medicament includes a housing, a container configured to receive a medicament including a stopper configured to move within the container and a closure, a needle in fluid communication with the container, a spacer configured to be engaged with the stopper, a first plunger, a first spring configured to bias the first plunger in an axial direction, second plunger disposed about the first plunger, a second spring configured to bias the second plunger in an axial direction. The first plunger is configured to move the spacer and the container relative to the housing via the first spring to establish fluid communication between the container and the patient needle, and the second plunger is configured to move the spacer and the stopper relative to the container via the second spring.

This invention relates to a fluid delivery apparatus, system and method, in particular the use of elastic bands to generate the force required to push fluid out from a container. The fluid that is delivered from the container maybe prefilled and stored prior to its actuation by the elastic band driver or it could be filled just before use. In one embodiment disclosed, a prefilled option would require the user to attach an appropriate extension tubing that acts as a flow control tube to the fluid container which in one embodiment is tubular shaped. In the application where the device is filled just before use, the fluid container that would be engaged with the actuating housing is presented with a fixed rate flow tube. The selection of a particular device configuration replaces the need for programming a flow rate into an electronic syringe pump.

The present invention relates to a medical apparatus, methods and system for fluid medication delivery. The apparatus has a drive mechanism module and a fluid container engaged to the drive mechanism. The drive mechanism includes a resilient member compressed to act against a gasket movably disposed in the fluid container. When extending to its original shape, the resilient member pushes the gasket to move inside the fluid container to eject the fluid out of the fluid container. The fluid container is connected to a flow restrictor tube that allows a predetermined flow rate of medication to be infused or injected to a patient.

The present invention relates to a drug delivery device comprising a dose setting member (70) for setting user variable doses of a medicament and a display for indicating the dose set by the dose setting member (70). The display comprises a number wheel (100), which is rotationally coupled to the dose setting member (70) and is provided with a series of markings on its outer circumference, and at least one prism (90) deviating the image of the markings of the number wheel (100), e.g. by 90°.

A wearable drug delivery device that can deliver a liquid drug stored in a container to a patient is provided. The container can be a prefilled cartridge that can be loaded into the drug delivery device by the patient or that can be preloaded within the drug delivery device when provided to the patient. A sealed end of the container is pierced to couple the stored liquid drug to a needle conduit that is coupled to a needle insertion component that provides access to the patient. A drive system of the drug delivery device can expel the liquid drug from the cartridge to the patient through the needle conduit. The drive system can be controlled to provide the liquid drug to the patient in a single dose or over multiple doses.

An automatic injection device with flow regulation is disclosed. The automatic injection device has an insertion needle configured to be inserted into a patient and a drug container which contains a pharmaceutical product and includes a plunger. The automatic injection needle also has a fluid path which fluidly connects the drug container to the patient via an insertion device, a potential energy source, and a regulator configured to restrict release of potential energy and restrict linear movement of the plunger and the pharmaceutical product into the fluid path at a proscribed pace. The regulator includes a clock escapement mechanism. The potential energy source may be a spring that surrounds the drug container and may be magnetically coupled to the plunger. The clock escapement mechanism is configured to control the spring at a regulated rate over a time interval using a gearbox and rotational-to-linear translator comprising a rack and a pinion.