A medication delivery apparatus for use with a medication container includes a housing, a fluid conduit at least partially extending within the housing and configured to deliver medication within the medication container to a patient, a medication port extending from the housing and configured to be coupled to a fluid outlet of the medication container, the medication port being fluidically coupled to the fluid conduit, and at least one sensor disposed within the housing to generate information characterizing administration of the medication for processing by a remote data collection system. The housing can have a size and shape that enables it to be supported by a first hand of a user while the user administers the medication from the medication container via the medication port using a second hand of the user. Related apparatus, systems, and techniques are also described.

A cartridge acting as a dispenser for liquid treatments of a human or animal body is U shaped or hoop shape. The cartridge has a container containing a liquid treatment which when required to be dispensed is ejected through one or more nozzles projecting through the wall of the cartridge into the centre of the U or of the hoop. A base is provided for cartridges, the base controlling timing and quantity of treatments.

Provided are systems and methods for reducing pain during an injection or an insertion of an object into the skin of a subject.

Provided herein are dry powder formulations comprising epinephrine alone or in combination with at least one enabling agent suitable for nasal application. Also provided are unit dose forms and devices comprising such formulations and methods of using such formulations for the treatment of various conditions including anaphylaxis, anaphylactoid reaction, respiratory conditions, hemodynamic collapse, and for administration during cardiopulmonary arrest and other life-threatening conditions.

A medicine injection pen includes a body, a drive member, a cartridge housing, and a medicine cartridge retained within the cartridge housing. The drive member is configured to move relative to the body and the medicine cartridge defines an interior volume configured to retain a liquid medicine. The drive member is configured to translate a piston within the interior volume toward a dispensing end of the medicine cartridge to dispense at least some of the liquid medicine. The medicine cartridge also includes an insertion port configured to receive a medicine dispensing element therethrough for dispensing a liquid medicine into the interior volume to replace at least some of the liquid medicine dispensed through the dispensing end. Dispensing of the liquid medicine into the interior volume of the medicine cartridge applies a fluid pressure to the piston to translate the piston away from the dispensing end of the medicine cartridge.

A computerized electro-mechanical drug delivery device configured to deliver at least one dose of two or more medicaments. The device comprises a control unit. An electro-mechanical drive unit is operably coupled to the control unit and a primary reservoir for a first medicament and a secondary reservoir for a fluid agent, e.g. a second medicament. An operator interface is in communication with the control unit. A single dispense assembly is configured for fluid communication with the primary and the secondary reservoir. Activation of the operator panel sets a first dose from the primary reservoir and based on the first dose and a therapeutic dose profile, the control unit is configured to determine a dose or range of the fluid agent. Alternatively, the control unit determines or calculates a dose or range of a third medicament. Further, a dispense interface for use with a drug delivery device is disclosed.

A system includes a flow sensor contained within a flow sensor housing, a base, and a seal. The base houses a controller that generates at least one operation modification signal, and the flow sensor is separable from and mountable onto the base. A bottom surface of the flow sensor housing includes the seal. The seal forms a liquid-tight engagement between the flow sensor housing and the base when the flow sensor is mounted onto the base.

A blood donation system is provided that includes a plurality of collection containers (18, 20, 22, 24) interconnected by tubing (16, 28, 32, 34, 36, 38) and a leukocyte reduction filter (30). The system has a machine-readable identification code (48) associated therewith that is printed at repeated intervals on one of the tubings (16, 28, 32, 34, 36, 38), so as to define a plurality of discrete segments (44), each sized to contain a sample volume of blood or a blood product. After collection, heat seals (42) are formed on the tubing (16, 28, 32, 34, 36, 38) to capture in each segment (44) a volume of blood/blood product, such that a plurality of sample tubes are provided, each bearing the machine-readable identification code (48) and containing a volume of blood/blood product suitable for sample testing.

Methods and devices are provided precision filling of medical syringes. Generally, the methods and devices are designed to determine and measure dosages and fill a syringe with a precise amount from a medication vial and to store or transmit to a medical records storage system data associated with the process. In one embodiment, the fill apparatus weighs, photographs and stores information on a syringe and medicine vial, fills the syringe from the vial and confirms transfer of the medicine to the syringe from the vial.

Identification information for a patient and a user responsible for administering a medication are received from a controller associated with an infusion device. When a medication is scanned and information from the scan is received the system determines whether the user is authorized to operate the infusion device to administer the medication to the patient. If more than one order is available for the patient, pending medication orders for the patient are determined and presented on the controller for selection by the user before the administration. When a selected order is confirmed to be for the patient, and the user is authorized, the controller programs the infusion device to administer the medication according to the selected order.