The present disclosure is directed to wearable or insertable devices that allow for ongoing sampling and analysis of biomarkers and self-cleaning. In various embodiments, an apparatus may include a base (102) defining at least one reservoir (104), and at least one microneedle (106, 306, 406, 506, 606, 706, 806, 906) extending from the base. The at least one microneedle may define an inner lumen (409, 509, 609, 709, 809, 909) that fluidly couples the at least one reservoir with tissue of the patient. A mechanically responsive material (670, 770, 870) on an inner surface of the at least one microneedle defining the inner lumen may be reactive to various stimuli to undergo various mechanical responses, such as one mechanical response that purges fluid from the inner lumen of the at least one microneedle and another mechanical response that draws fluid into the inner lumen of the at least one microneedle.

Disclosed are methods, systems, devices and articles, including a method for adaptive wireless communication transmissions between units of an ambulatory portable medical device. The method includes obtaining data relating to wireless transmissions between the units of the medical device, and setting one or more attributes of wireless transmission of one or more messages between the units of the medical device based, at least in part, on the obtained data.

The present disclosure is directed to enhanced sampling of bioanalytes from bodily fluids using wearable and/or insertable devices. In some embodiments, an apparatus (100, 500, 600) for sampling bioanalyte(s) in tissue (107, 507, 607) may include: a base (102, 502, 602) having conduit(s) adapted to receive fluid extracted from the tissue; microneedles (106, 306, 506, 606) fluidly coupled with the conduit(s) and adapted to be pierced into the tissue; a plurality of individually-controllable energy emitters (112, 114, 350, 612, 614); and logic (90) operably coupled with the plurality of individually-controllable energy-emitters. The logic may be adapted to operate a subset of the plurality of individually-controllable energy emitters to apply energy at a first subset of the microneedles to induce bioanalyte flow through tissue towards the first subset or a second subset of the microneedles, or through the first subset or a second subset of the microneedles.

Various methods and apparatus for a wearable or insertable device (100, 200, 400, 600) with microneedles (106, 206, 306, 406, 606) that may be simultaneously used for radio frequency (RF) energy harvesting, communication, and transdermal fluid delivery and collection are disclosed. Such a device may comprise a substrate (102, 202, 302, 402, 602) that may be affixable/insertable into tissue (107, 607) of a patient, radio frequency circuitry (120, 220, 420, 620) disposed on the substrate, that may generate/process a signal with a frequency that may be modulated to carry information, and microneedles (106, 206, 306, 406, 606) extending from at least one surface of the substrate, where one or more microneedles define a micro-fluidic channel (130, 230, 430, 630) that fluidly couples the tissue with a conduit (132) of the substrate, and where one or more microneedles may be electrically coupled with the radio frequency circuitry and radiate/process electromagnetic waves based on the signal.

Devices associated with on-body analyte sensor units are disclosed. These devices include any of packaging and/or loading systems, applicators and elements of the on-body sensor units themselves. Also, various approaches to connecting electrochemical analyte sensors to and/or within associated on-body analyte sensor units are disclosed. The connector approaches variously involve the use of unique sensor and ancillary element arrangements to facilitate assembly of separate electronics assemblies and sensor elements that are kept apart until the end user brings them together.

Provided is a non-invasive blood measuring device comprising: a fixture which in part or in whole is buried in bone tissue of a patient; an abutment provided in a space inside the fixture; a sensing unit including biosensors for measuring a substance in the blood; a filter through which the substance in the blood to be measured is passed through; and an outcall unit.

A system is provided for monitoring analyte in a host, including a continuous analyte sensor that produces a data stream indicative of a host's analyte concentration and a device that receives and records data from the data stream from the continuous analyte sensor. In one embodiment, the device includes a single point analyte monitor, from which it obtains an analyte value, and is configured to display only single point analyte measurement values, and not any analyte measurement values associated with data received from the continuous analyte sensor. Instead, data received from the continuous analyte sensor is used to provide alarms to the user when the analyte concentration and/or the rate of change of analyte concentration, as measured by the continuous analyte sensor, is above or below a predetermined range. Data received from the continuous analyte sensor may also be used to prompt the diabetic or caregiver to take certain actions, such as to perform another single point blood glucose measurement. In another embodiment, the device provides for toggling between two modes, with one mode that allows for display of glucose concentration values associated with the continuous glucose sensor and a second mode that prevents the display of glucose concentration values associated with the continuous glucose sensor.

Devices associated with on-body analyte sensor units are disclosed. These devices include any of packaging and/or loading systems, applicators and elements of the on-body sensor units themselves. Also, various approaches to connecting electrochemical analyte sensors to and/or within associated on-body analyte sensor units are disclosed. The connector approaches variously involve the use of unique sensor and ancillary element arrangements to facilitate assembly of separate electronics assemblies and sensor elements that are kept apart until the end user brings them together.