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.

Systems and methods are disclosed herein for providing a configuration code for customizing a glucose level control system for at least an initial period. The configuration code can be based on one or more dosing parameters from a tracked medicament therapy administered to a subject over a tracking period by the glucose level control system. The configuration code includes encoded dosing parameters including a correction dosing parameter based on at least some of the correction boluses of medicament administered during the tracking period, a food intake dosing parameter comprising an indication of a food intake bolus size of medicament based on one or more food intake boluses provided during the tracking period, and a basal dosing parameter based on at least some of the basal doses of medicament administered during the tracking period.

A system is presented including a monitoring device and a medicament delivery device, where the monitoring device is configured to be releasably connected to the medicament delivery device and wherein the monitoring device comprises an induction sensor configured to detect a state of an electrically conductive drive member of the medicament delivery device in an medicament delivery process through an electrical current which is generated by a magnet field by the induction sensor on the electrically conductive drive element.

The present invention relates to a device for measuring a bodily fluid drainage amount, the device comprising: a measurement case which is formed of a rigid material and provided with a bodily fluid measurement space therein; a drainage tube which is coupled to an entrance of the measurement case in a releasable structure and transfers bodily fluids discharged from a human body to the bodily fluid measurement space of the measurement case; a plurality of fluid level sensors, which are horizontally disposed on an upper surface of the measurement case and measure and inform fluid levels of the bodily fluids collected in the bodily fluid measurement space; and a control device which receives and analyzes the fluid levels of the bodily fluids, infers a tilt of the measurement case from a difference in the fluid levels of the bodily fluids, and calculates and informs a bodily fluid drainage amount.

Ambulatory medical devices that provide therapy to a subject, such as blood glucose control, are disclosed. Disclosed systems and devices can transmit a request to modify blood glucose control therapy delivered to a subject. The request can be transmitted via a voice-activated control system, the ambulatory medicament pump can include a medicament reservoir, a pump controller, a wireless data interface, and/or other elements. The device can receive an indication that the request to modify therapy is approved and, in response to the indication that the request to modify the blood glucose control therapy is approved, instruct the pump controller to modify the blood glucose control therapy delivered to the subject.

Systems and methods for performing Direct Sodium Removal (DSR) therapy are provided in which an implantable device includes a pump coupled to an inlet catheter designed for placement in a patient's peritoneal cavity, an outlet catheter designed to be coupled to the patient's bladder, and is operably coupled to an analyte sensor, the pump programmed to transfer and/or cease transfer of fluid from the patient's peritoneal cavity to the patient's bladder for voiding responsive to a level of analyte detected by the analyte sensor. In addition, the system may include a processor that computes an amount of analyte transferred per pumping session.

An autonomous aerial vehicle for ventilating persons. The ventilation becomes necessary as a result of fires, accidents, or medical emergencies. In these and comparable cases, the aerial vehicle aids for ventilating a person quickly and independently of the transport links of a location or the traffic situation at the time so the state of the person is stabilized until the arrival of an emergency doctor or other rescue workers and the chances of survival improves. The aerial vehicle provides positional determination inside and/or outside buildings, recording of the surrounding area, ventilation of at least one person, and a communication method or mechanism.

Devices and methods are disclosed for assisting a user of a drug delivery device with an application executing on a mobile computing device. The mobile computing device may receive information from the drug delivery device related to its condition and/or operation and subsequently select an informational and/or instructional prompt to be displayed to the user based on the received information. The mobile computing device may also generate a display in the application including the selected informational prompt and/or the instructional prompt. Accordingly, the user of the drug delivery device can be guided through the drug delivery process in real time, thereby reducing the likelihood of improper or incomplete use of the drug delivery device.

The present disclosure relates to an activation system for a supplemental device that is attached to an existing design of a medicament delivery device, where the removal of a protective cap or other covering from the medicament delivery device pulls a blocking element from between electrical contacts to close a circuit between a battery module and a power source, thus activating the battery module. The supplemental device can further have a transmitter for communicating information about the use of the medicament delivery device to an external device, such as a smart device. Memory storage elements can also be included having unique identification data. The present disclosure also relates to a medicament delivery device having attached the supplemental device.

Methods and systems for configuring a plurality of infusion pumps according to a functional set. A method includes implementing a plurality of infusion pumps, each of the infusion pumps configured to administer medication to a patient, implementing a drug library, the drug library including at least one functional set defining a set of medications, receiving input data related to one of the at least one functional sets, obtaining a particular set of medications from the drug library corresponding to the input data, programming the plurality of infusion pumps according to the set of medications, and infusing the patient with the plurality of infusion pumps.