A medical wetness sensing device includes a base adapted to be disposed on a wearer of the medical wetness sensing device. The base includes a first electrical conductor and a second electrical conductor electrically insulated from the first electrical conductor. The first electrical conductor includes a hinge portion enabling a first portion of the first electrical conductor to deflect, at the hinge portion, relative to a second portion of the first electrical conductor. The medical wetness sensing device includes a controller electrically connected to the first electrical conductor and the second electrical conductor. The controller is configured to detect a presence or an absence of a medical fluid electrically connecting the first and second electrical conductors.

A device is disclosed that is configured as a fully autonomous and integrated wearable apparatus for diabetes management. The device comprise a self-pressurized reservoir for storing the medication for subsequent delivery to a patient, a needle for delivering the medication to the patient subcutaneously, a first MEMS device configured as a microvalve in a fluid path between the self-pressurized reservoir and needle for controlling flowrate of medication through the needle as the self-pressurized reservoir discharges, a second MEMS device configured as a micropump configured to increase flowrate of the medication in the fluid path to ensure a constant flowrate in the fluid path as the self-pressurized discharges independent of orientation of the device, a flow sensor configured to measure flowrate in the fluid path for controlling microvalve and micropump, and control circuitry connected to the microvalve, micropump and flow sensor for controlling operation of the micropump and microvalve.

A peristaltic pump includes a plunger-cam follower, a tube receiver, a spring-biased plunger, a spring, a position sensor, and a processor. The plunger-cam follower engages the plunger cam to follow the plunger cam and to disengage from the plunger cam. The spring-biased plunger is coupled to the plunger-cam follower and the spring biases the spring-biased plunger toward the tube receiver. The position sensor determines a position of the spring-biased plunger when the plunger-cam follower is disengaged from the plunger came. The processor estimates fluid flow utilizing at least the position of the spring-biased plunger as indicated by the position sensor when the plunger-cam follower is disengaged from the plunger cam and the spring biases the spring-biased plunger against the tube.

Infusion devices, systems, and related operating methods are provided. A method of detecting an occlusion in a fluid path involves a control module of an infusion device operating a driver module to provide energy to an actuation arrangement to achieve a commanded actuation state, wherein the actuation arrangement is coupled to a plunger configured to deliver fluid via the fluid path, obtaining a measured actuation state of the actuation arrangement via a sensing arrangement, and detecting an occlusion condition based on a relationship between the commanded actuation state and the measured actuation state.

A monitoring device may include a housing, which may include a distal end, a proximal end, and a fluid pathway extending through the proximal end and distal end. The distal end may include a connector configured to couple to a catheter assembly. The monitoring device may include one or more sensors disposed within the fluid pathway. The sensors may facilitate identification of an occlusion within the catheter assembly.

A drug delivery device is provided, the drug delivery device comprising a thermal coupling surface which is arranged and configured to transfer thermal energy, and a thermally controlled member, which is thermally conductively connected to the thermal coupling surface, wherein the thermally controlled member is configured to operate in response to thermal energy transferred through the thermal coupling surface, and wherein the drug delivery device is configured to perform a drug delivery operation.

A drug solution administration device that detects an administration condition of a drug solution with higher accuracy. The drug solution administration device includes a pusher, a drive mechanism configured to move the pusher forward and backward with respect to a distal end opening of the drug solution container, and a control unit configured to control operation of the drive mechanism. The drive mechanism includes a motor configured to generate driving force for moving the pusher forward and backward, and a rotation detection unit configured to detect rotation of the motor. The control unit has an operation confirmation function of confirming an operating condition of the motor on the basis of a detection result of the rotation detection unit. After confirming that the motor is stopped by the operation confirmation function, the control unit starts reverse rotation of the motor to determine whether or not the pusher moves backward.

Embodiments of the current disclosure are directed toward systems, devices and methods for diabetes management. In particular, the present disclosure relates to devices and methods for dispensing insulin to a patient. A portable fluid infusion device, comprising a disposable part (DP) and a reusable part (RP) is disclosed. The DP comprises a first reservoir and a second reservoir, the second reservoir less than or equal to the first reservoir in length, while the RP comprises a first compartment configured to receive the first reservoir, a second compartment configured to receive the second reservoir and a gasket for sealing a junction between the second reservoir and the second compartment upon connection of the RP and the DP.

Systems and methods are disclosed herein for switching an application executing on an ambulatory medical device to a new application without interrupting therapy provided by the ambulatory medical device to a subject. The ambulatory medical device may receive an indication that an update to an application executing on the ambulatory insulin pump is available, establish a communication connection to a host computing system, download and install the application update, while a prior version of the application continues to run. The disclosed systems and methods can confirm successful installation of the application update on the ambulatory medical device and switch control of the ambulatory medical device from the prior version to the new version of the application without interrupting therapy provided to the subject.

A method of dispensing a therapeutic fluid from a line includes providing an inlet line connectable to an upstream fluid source. The inlet line is in downstream fluid communication with a pumping chamber. The pumping chamber has a pump outlet. The method also includes actuating a force application assembly so as to restrict retrograde flow of fluid through the inlet while pressurizing the pumping chamber to urge flow through the pump outlet. A corresponding system employs the method.