The embodiments described herein may relate to methods and systems for adjusting insulin delivery. Some methods and systems may be configured to adjust insulin delivery to personalize automated insulin delivery for a person with diabetes. Some methods and systems may be configured to adjust insulin delivery to a person with diabetes according to one or more conditions of an insulin delivery device. Some methods and systems may be configured to enable a lock-out mode where adjustment to insulin delivery to personalize automated insulin delivery is restricted.

Inflation devices configured to communicate with remote displays are disclosed herein. Systems including such inflation devices with portable display devices are also disclosed herein. Methods of pairing a medical device to a portable display and remotely displaying pressure data from a medical device are also disclosed herein. Devices, systems, and methods of connecting medical devices to remote displays using proximity pairing and visual aids, and transferring information to or from linked computers are also disclosed.

Examples relate to devices, systems, and methods for fluid collection, such as fluid. A portable fluid collection system may include a fluid collection container, a pump in fluid communication with the fluid collection container, a battery operatively coupled to the pump, and a pack. The pack may be sized and dimensioned to include at least the pump, the battery, and the fluid collection container therein. The pump may be configured to pull a vacuum on an interior region of the fluid collection container effective to draw fluid from a fluid collection device into the fluid collection container.

Disclosed herein is a wearable drug delivery device including a container filled at least partially with a drug including at least one of a PCSK9 (Proprotein Convertase Subtilisin/Kexin Type 9) specific antibody, a granulocyte colony-stimulating factor (G-CSF), a sclerostin antibody, or a calcitonin gene-related peptide (CGRP) antibody. The wearable drug delivery device may include a needle and an insertion mechanism configured to insert the needle into a patient. A fluid pathway connector may define a sterile fluid flowpath between the container and the insertion mechanism. Optionally, a cannula initially disposed about the needle may be included. The cannula may be retained in the patient at an injection site created by the needle after the needle is withdrawn from the patient. Methods of assembly and operation are also provided.

A system and method can provide for a remote electronic device to be used to remotely initiate delivery of a medicament bolus with a medical device, such as an insulin pump, with the medical device providing audible or tactile confirmation of the programmed bolus. The bolus amount can be calculated by or programmed or otherwise entered into the smartphone, etc., and then transmitted to the medical device. When the pump receives the transmitted bolus amount, it issues one or more indications such as audible sounds and/or vibrations in any number of desired combinations. For instance, each individual sound or vibration may correspond to an increment of the medicament. The user can therefore determine the size of the medicament bolus by the number of sounds or vibrations and can confirm or cancel delivery of the bolus.

A disposable module that can be coupled to a reusable module in order to form a pump for dispensing a medicament substance to a user in a metered manner in a coupled state, comprising a housing that encases the following components: a reservoir for receiving the substance to be dispensed; and at least one extensible cannula, which is fluidically connected to the reservoir either after being inserted or in a permanent manner. The disposable module may also comprise an electrical energy store, wherein the electrical energy necessary for the reusable module can be obtained both from the disposable module and also from a rechargeable battery in the reusable module, in order to ensure redundancy of the energy necessary for the reusable module.

A server 20 for monitoring of the state of use of an oxygen concentrator 10 that concentrates oxygen in air and supplies it to a user, comprises a communication unit 25, and a processing unit 21 that uses the communication unit 25 to receive operation data indicating the state of operation of the oxygen concentrator 10 and usage data for the state of use by the user using the oxygen concentrator 10, measured by a measuring apparatus 11, 12, while also generating message information when either or both the usage data and operation data fail to satisfy the monitoring conditions, and sending the message information together with the usage data and operation data, using the communication unit 25.

A circuit for measuring the conductivity of a medical fluid, the circuit comprising: a data collecting cell through which a medical fluid is configured to flow; an input voltage source that provides an input voltage to the data collecting cell; a voltage measurement unit configured to measure the input voltage and an output voltage of the data collecting cell; and a switch in communication with the voltage measurement unit, the switch configured to switch between a first state in which the voltage measurement unit is configured to measure the input voltage and a second state in which the voltage measurement unit is configured to measure the output voltage of the data collecting cell.

A system for facilitating control of and interaction with a tattoo machine and associated accessories is disclosed. In particular, the system includes a software application, which may be utilized to scan for devices within a communication range of a device executing the software application. Devices that are detected by the device and application may be wirelessly paired and/or synchronized with the application and with each other using any suitable communications technology. The detected devices, for example, may include wireless tattoo machines and associated tattoo machine accessories. Once the detected devices and/or application are wirelessly paired with each other, the system may enable a user to control the tattoo machine, the tattoo machine accessory, or both by utilizing the application. For example, the system may utilize the application to adjust settings of the tattoo machine, record tattoo machine usage, schedule tattoo sessions, and conduct a variety of other actions.

A charging device for a physiological signal transmitter is disclosed. The charging device includes a transmitter placing seat, and a controlling module controlling an operation between the charging device and the physiological signal transmitter in a safe state. When the physiological signal transmitter is at the predetermined position, the locking portion unlocks the operating portion to perform one of driving the second electrical connecting port to move from the first position to the second position to electrically connect to the first electrical connecting port and driving the second electrical connecting port to move from the second position to the first position to electrically disconnect to the first electrical connecting port.