Abstract: Various exemplary drug delivery devices with a multi-dispensing head, drug products utilizing the same, and methods of using drug delivery devices with a multi-dispensing head are provided. In general, a nasal drug delivery device is configured to dispense a drug therefrom into a nose. In an exemplary embodiment, the drug delivery device includes two tips each configured to be positioned in or adjacent to a nostril. The two tips are configured to be positioned in or adjacent to the nostrils simultaneously.

Abstract: Various exemplary drug delivery devices with propellant, drug products utilizing the same, and methods of using drug delivery devices with propellant are provided. In general, a nasal drug delivery device is configured to expel a drug into a nose of a patient and to drive delivery of the drug using a propellant. The propellant includes a gas, e.g., air, carbon dioxide, etc., and/or at least one material substance configured to produce energy that causes movement of the drug out of an opening of the drug delivery device.

Abstract: The present disclosure provides methods, systems, and devices for establishing dosing parameters for a drug administration device and establishing compatibility of components of the drug administration device. In an exemplary embodiment, a method can include acquiring data from a drug holder and communicating the data to a processor, communicating a relevant subset of dosing parameter data from a server to the processor, and establishing dosing parameters for a drug administration device based on the relevant subset of dosing parameter data. The relevant subset of dosing parameter data is determined based on the drug holder data. The method can include acquiring first component data relating to a first component of the drug administration device, comparing the first component data with acceptable first component data, and setting an operational status of the drug administration device based on the comparison.

Abstract: Various exemplary drug delivery devices (500, 700) with reusable components (512, 702) and disposable components (504, 704, 706), drug products utilizing the same, and methods of using drug delivery devices with reusable components and disposable components are provided. In general, a nasal drug delivery device is configured to deliver a drug therefrom and includes one or more disposable components and one or more reusable components. The one or more disposable components are releasably coupled to the one or more reusable components. After the drug is delivered from the drug delivery device, the one or more disposable components can be detached from the one or more reusable components. Another one or more disposable components can then be releasably coupled to the one or more reusable components and the drug delivery device used to again deliver a drug therefrom.

Abstract: A drug delivery device (400) comprises a tip (416) configured to be positioned in a nose of a patient, the tip having an opening (414) therein, a coupling mechanism (402) configured to releasably couple to a first vial (404) containing a first drug therein, to release the first vial therefrom, and to subsequently be releasably coupled to a second vial containing a second drug therein, and a plunger configured to be actuated to cause the first drug to exit through the opening and to be subsequently actuated to cause the second drug to exit through the opening. The same drug delivery device is therefore configured to deliver multiple doses. There are also disclosed various exemplary reloadable drug vials for multi-dose delivery, drug products utilizing the same, and methods of using reloadable drug vials for multi-dose delivery.

Abstract: Various exemplary drug delivery devices with a mechanical stop, drug products utilizing the same, and methods of using drug delivery devices with a mechanical stop are provided. In general, a nasal drug delivery device is configured to dispense therefrom first and second doses of a drug therefrom into a nose. The drug delivery device includes a mechanical stop configured to provide a pause between the delivery of the first and second doses. During the pause, a user of the drug delivery device can move the drug delivery device from one nostril, into which the first dose was sprayed, to another nostril, into which the second dose can be sprayed. The mechanical stop is configured to hold the drug delivery device in a static delivery state.

Abstract: Various exemplary drug delivery devices with multiple drug vials, drug products utilizing the same, and methods of using drug delivery devices with multiple drug vials are provided. In general, a nasal drug delivery device configured to dispense a drug therefrom into a nose and includes two or more vials each containing the drug therein. The drug delivery device is configured to deliver the drug from each of the vials for a total of two or more sprays into the nose. The same drug delivery device may therefore deliver multiple drug sprays to a user. In some embodiments, instead of including two or more vials that collectively contain enough drug therein for more than two drug sprays, the drug delivery device can include a single vial that contains enough drug therein for more than two drug sprays.

Abstract: Various exemplary drug syringes with a mechanical stop for a second dose, drug products utilizing the same, and methods of using drug syringes with a mechanical stop for a second dose are provided. In general, a nasal drug delivery device is configured to dispense therefrom first and second doses of a drug therefrom into a nose. The drug delivery device includes a mechanical stop configured to provide a pause between the delivery of the first and second doses. During the pause, a user of the drug delivery device can move the drug delivery device from one nostril, into which the first dose was sprayed, to another nostril, into which the second dose can be sprayed. The mechanical stop is configured to hold the drug delivery device in a static delivery state.

Abstract: Various exemplary drug holders (102, 200) for drug delivery devices (100), drug products utilizing the same, and methods of using drug holders for drug delivery devices are provided. In general, a nasal drug delivery device is configured to dispense therefrom at least one dose of a drug therefrom into a nose. The drug delivery device includes a drug holder that contains the drug therein that is delivered out of the drug delivery device. The drug holder can include two cavities (208, 210) therein that are fluidically sealed from one another prior to use of the drug delivery device to cause drug delivery. A first one of the cavities includes the drug therein, and a second one of the cavities includes a drug or air therein.

Abstract: Various exemplary drug delivery devices with a spinning nozzle, drug products utilizing the same, and methods of using drug delivery devices with a spinning nozzle are provided. In general, a nasal drug delivery device configured to dispense a drug therefrom includes a spinning nozzle configured to facilitate the drug's ejection into a patient's nose. The spinning nozzle is located between a drug holder containing the drug to be dispensed and an opening of the drug delivery device through which the drug exits the drug delivery device. The spinning nozzle is configured to spin during the drug's delivery as the drug travels from the drug holder and out of the drug delivery device. The spinning nozzle includes a plurality of perforations therein through which the drug as a liquid is configured to pass. The spinning of the spinning nozzle causes the drug to exit the drug delivery device as a fine mist.

Abstract: Various exemplary drug delivery devices with lock-out before drug delivery, drug products utilizing the same, and methods of using drug delivery devices with lock-out before drug delivery are provided. In general, a nasal drug delivery device is configured to dispense a drug therefrom into a nose and is configured to be releasably coupled to an accessory. The accessory is a separate, independent member from the drug delivery device such that in its decoupled state, the accessory is completely removed from the drug delivery device.

Abstract: Various exemplary drug delivery devices with on-board drug destruction, drug products utilizing the same, and methods of using drug delivery devices with on-board drug destruction are provided. In general, a nasal drug delivery device configured to dispense a drug therefrom into a nose includes a destruction mechanism configured to destroy drug contained in the drug delivery device. The destruction mechanism can be configured to destroy the drug before a first actuation of the drug delivery device to deliver the drug therefrom such that the destruction mechanism destroys substantially all of the drug contained in the drug delivery device. Alternatively or in addition, the destruction mechanism can be configured to destroy the drug after a first actuation of the drug delivery device to deliver the drug therefrom such that the destruction mechanism destroys substantially all of the drug remaining in the drug delivery device.

Abstract: Various packaging systems and packaging kits are described. In one exemplary embodiment, a packaging system is provided and includes a base configured to receive a drug delivery device having a device body having an upper segment and a lower segment, and an actuator. The base is configured to house the received drug delivery device therein at a non-zero angle relative to a longitudinal axis of the base. The base includes a retaining cavity and a gripping cavity adjacent the retaining cavity. The retaining cavity is configured to create an interference fit with at least a portion of an upper segment of a drug delivery device received within the base, and the gripping cavity is configured to receive a lower segment of a device body and a portion of an actuator of a drug delivery device received within the base.

Abstract: In general, methods, systems, and devices for remote aggregation of data for drug administration devices are provided. In one exemplary embodiment, data indicative of information sensed with a sensor of a drug administration device can be wirelessly transmitted from a drug administration device to a server. The server can use the data to correlate the patients use of the drug with the patients clinical outcome, perform a cost analysis of the patients treatment, determine whether the drug was delivered to the patient in compliance with the patients treatment plan, identify a malfunction in the administration of the drug, determine that additional data is needed from the drug administration device and trigger a request for the additional data to be wirelessly transmitted from the server to the drug administration device, and/or predictively model the patients clinical outcome.

Abstract: In general, drug administration devices configured to communicate with networks and external devices are provided. In an exemplary embodiment, a drug administration device is configured to adjust an operational parameter of the drug administration device based on a data packet formed from drug administration data ancillary data received from networks and/or external devices. In another example embodiment, a drug administration device is configured to scan for and establish communications with at least one external device. In another example embodiment, a method includes assessing whether to update a control program on a drug administration device from a network or external device. In another example embodiment, a system includes a first drug administration device configured to communicate with a second drug administration device to optimize a drug treatment.

Abstract: In general, interconnection of drug administration systems is provided. In an exemplary embodiment, a drug administration device and a remotely located server can establish a unique key for wireless communication between the device and the server. The drug administration device can be configured to sense information relating to at least one of the device and a drug and can be configured to anonymize data indicative of the sensed information using the key stored in memory of the device. The drug administration device can also be configured to use the key in decrypting data received from the server.

Abstract: The present disclosure relates to drug administration. In an exemplary embodiment, a system can include a drug administration device configured to dispense a drug to a patient, a monitoring device configured to log a delivery event of drug delivery from the drug administration device into the patient, and a sensor configured to sense a patient parameter following delivery of the drug into the patient. In another exemplary embodiment, a drug administration device can include a drug holder configured to hold a drug, a dispensing mechanism configured to dispense the drug, and a sensor configured to sense a patient parameter, and the drug administration device can be configured to locally activate the drug at a target location in the patient. In another exemplary embodiment, methods, devices, and systems are provided to assess when operation of a drug dispensing mechanism is complete and to confirm whether drug administration was successful.

Abstract: Drug delivery systems and methods are provided for monitoring and/or tracking exposure of a drug to one or more conditions that can affect performance of the drug.

Abstract: In general, systems and methods for monitoring and communicating information using drug administration devices are provided.