The present disclosure relates to a protective case for an insulin infusion set that can be used by diabetics to store the needle or needle and hub of an insulin infusion set when removed from the body to participate in various activities throughout the day. The insulin infusion set includes a first half shell and a second half shell connected together by a hinge and a port on its front side which allows a cannula or tube to pass through into the interior of the case to store the needle or needle and hub inside the case when in a closed configuration. The main body portion of the protective case and the port of the protective case may be various sizes and shapes as disclosed herein. The protective case may also be attached to an insulin pump housing or case through various means as disclosed herein.

A packaging assembly comprises a case configured to at least partially contain a plurality of injection devices for delivering a medicament; and a sensor arrangement comprising at least one device sensor; wherein the at least one device sensor is configured to detect one or more injection devices contained in the case, and to output a signal according to a result of the detection.

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. Such personalization may include adjusting user specific dosage parameters in response to one or more back-filled time segments associated with a diurnal time block.

Pre-connected analyte sensors are provided. A pre-connected analyte sensor includes a sensor carrier attached to an analyte sensor. The sensor carrier includes a substrate configured for mechanical coupling of the sensor to testing, calibration, or wearable equipment. The sensor carrier also includes conductive contacts for electrically coupling sensor electrodes to the testing, calibration, or wearable equipment.

A drug delivery system includes a packaging housing a first component including at least one of a drug product, a diluent, a saline solution, or an IV stabilizing solution (“IVSS”) and a second component comprising at least one of the drug product, the diluent, the saline solution, and the IVSS, the first component being different than the second component. The first component is disposed in a first container in a storage state and the first container is positioned in a first compartment of the packaging housing. The second component is disposed in a second container in a storage state and the second container is positioned in a second compartment of the packaging housing. At least one of the first compartment and the second compartment may include an individual seal and wherein each of the individual seals and the first and second compartments are sterilized.

A kit to facilitate creation of and compliance with a personalized injection site rotation plan includes a plurality of disposable injection devices adapted for giving an injection of a medication to a patient in need thereof, each disposable injection device having a permanent, distinctive mark that may be the same as or different from the distinctive mark on other disposable injection devices in the kit; and a plurality of user-defined association tools, wherein for each unique distinctive mark on a disposable injection device, at least one user-defined association tool has a distinctive mark that corresponds to the unique distinctive mark.

A liquid medication injection device includes a housing having an opening on one side thereof, a sealing part disposed inside the housing and covering the opening, a storage container disposed inside the housing and storing liquid medication, and an injection needle which is connected to the storage container and through which the liquid medication is injected via the sealing part.

Disclosed is a medical device component for delivering medication fluid to a patient. The medical device component includes a fluid infusion device to regulate delivery of medication fluid, a body-mountable base unit, and a top cover assembly that is removably couplable to the base unit and to the fluid infusion device. The base unit includes a cannula to deliver medication fluid under the control of the fluid infusion device, and a physiological analyte sensor to measure a physiological characteristic. The base unit also includes an electronics assembly electrically connected to sensor leads to obtain measurements in the analog domain, to convert measurements into digital sensor data, and to communicate conditioned digital sensor data to the fluid infusion device. The top cover assembly is configured to provide both fluid and electrical connections for the base unit, by way of an infusion tube having sensor conductors integrated therein or otherwise associated therewith.

Pre-connected analyte sensors are provided. A pre-connected analyte sensor includes a sensor carrier attached to an analyte sensor. The sensor carrier includes a substrate configured for mechanical coupling of the sensor to testing, calibration, or wearable equipment. The sensor carrier also includes conductive contacts for electrically coupling sensor electrodes to the testing, calibration, or wearable equipment.

A medical package containing a medical article, including: a support element comprising a hollow support tube and a support cap, wherein the support element includes a first chamber configured to enclose the medical article and wherein the support cap includes a support structure configured to hold the medical article captive; a stopper configured to be coupled to the hollow support tube in such a way that the support element has a grip part that protrudes from the stopper, the grip part of the support element configured to be held by a hand of a person; a hollow protective cover configured to be coupled to the stopper in such a way as to delimit, in cooperation with the stopper, a second chamber inside which there extends the grip part of the support element, the hollow protective cover configured to be separated from the stopper, wherein when the hollow protective cover is coupled to the stopper, a part of the stopper protrudes from the hollow protective cover, and is configured to form a grip end of the stopper that is configured to be held by a hand of a person, when the hollow protective cover is separated from the stopper, wherein a part of the support element is configured to be engaged by force inside the stopper, and when the hollow protective cover is separated from the stopper, the support element remains coupled to the stopper while the support element is also separable from the stopper when a person holds the grip part of the support element and pulls the support element so as to separate it from the stopper.