The present invention provides a device (1) for monitoring the application of a drug to a patient by means of a drug pen (100), whereby the drug pen comprises a front end provided with an injection needle and a rear end provided with an actuation pushbutton, the device comprising a body (2) which can be dismountably coupled to the pen; an injection detection means determining when a drug injection is carried out; and a processing means configured for storing the date and time of the injection when the injection detection means detects that a drug injection is carried out, whereby the body is configured to be coupled to the pushbutton of the pen such that the pushbutton is actuated by pushing directly on the body, whereby the injection detection means is implemented as actuation detector configured for detecting said pushing action.

A fluid injection system that includes an injector head having a syringe for delivering a fluid to a patient; a mounting structure pivotally connected to the injector head and configured to support the injector head above a surface; and a control system operationally coupled to the injector head for controlling an injection procedure is disclosed. The fluid injection system is provided with various sensors to control various aspects of the fluid injection system, such as the establishment of a reference plane, the determination of a tilt angle of the injector head, and the determination of a temperature of an actuation system of the injector head.

Provided is an aerosol generating system including a holder configured to generate aerosol by heating a cigarette; and a cradle including an inner space into which the holder is inserted. The holder is configured to be tiltable with respect the cradle. The holder is inserted into the inner space of the cradle and then tilted to generate the aerosol.

Provided is an aerosol generating system including a holder configured to generate aerosol by heating a cigarette; and a cradle including an inner space into which the holder is inserted. The holder is configured to be tiltable with respect the cradle. The holder is inserted into the inner space of the cradle and then tilted to generate the aerosol.

Provided is an aerosol generating system including a holder configured to generate aerosol by heating a cigarette; and a cradle including an inner space into which the holder is inserted. The holder is configured to be tiltable with respect the cradle. The holder is inserted into the inner space of the cradle and then tilted to generate the aerosol.

A fluid dispenser assembly having a nasal fluid dispenser device (1000) with a reservoir (30) and, a dispenser head (1) assembled on the reservoir (30); a remote mobile device (2000); and an orientation sensor (113) to obtain optimal orientation of the dispenser device (1000) when actuated. The sensor determines the three-dimensional orientation of the device, including the angle () of the device relative to said remote mobile device. A second sensor (121) is provided for detecting when the device (1000) is actuated by the user. The remote mobile device includes an accelerometer to determine its position in three-dimensional space, in particular the angle () of the remote mobile device (2000) relative to the vertical.

A button (70, 270, 370, 470) for a drug delivery device with a reduced operating loudness comprises a plate-like button body forming a touch surface (70b, 270b, 370b, 470b), wherein the plate-like button body is coupled by an axial supporting member (75, 275, 375, 475) to a noise-generating interface of the drug delivery device and movable into a longitudinal direction of the drug delivery device, wherein the plate-like button body comprises a material composite with at least one first component (271, 272, 371, 372, 373, 374, 471) consisting of a first material and at least one second component (278, 378, 478) consisting of a second material different from the first material, wherein the at least one first component (271, 272, 371, 372, 373, 374, 47) and the at least one second component (278, 378, 478) are coupled via at least one coupling plane (270d, 270e, 370d, 470d) that is at least sectionwise slanted or perpendicular to the longitudinal direction. Further, the invention describes a button assembly for a drug delivery device which is shock resistant.

Described herein are devices, systems and methods for monitoring the use of a nebulized medication, such as can be administered using a nebulizer. These can be used for monitoring a patient undergoing treatment for COPD and improve compliance to the recommended therapy. Monitored parameters include flow, humidity and acceleration and provide data as to the quantity and quality of nebulizer use.

Apparatus configured to assist a user in correctly positioning the apparatus on a drug delivery device, the apparatus comprising: attachment means for attaching the apparatus to the drug delivery device; an imaging arrangement for capturing at least one image of a portion of a delivery device; a processor for processing the captured at least one image to determine a position of the apparatus relative to the drug delivery device and to determine a manner in which the apparatus should be moved in order to correctly position the apparatus on the drug delivery device; and a display for displaying an indication of the manner in which the apparatus should be moved in order to correctly position the apparatus on the drug delivery device.

An injection monitoring device includes a syringe having a barrel configured to contain a medicament and a plunger configured to be displaced linearly into the interior of the barrel to dispense the medicament, a flange positioned between a proximal end and a distal end of the injection monitoring device and configured to be gripped during performance of the injection, and one or more force sensors positioned to detect data associated with an amount of force applied to the injection monitoring device during performance of an injection.