A method of updating the status of an insurance customer includes identifying a plurality of individuals with a first insurance status and delivering home testing kits to the plurality of individuals. Upon completion of the home testing kits, medical image information is received from a mobile communications device and processed to determine a state of a medical analysis region. Individuals with medical analysis regions in a differing state of criticality are identified. Healthcare providers may be provided with information indicating that there is a likelihood that the identified individuals are entitled to a second insurance status.

An elongate barrel is shaped to define a channel therethrough. A proximal region of the barrel defines an opening into the channel, and a distal region of the barrel defines an outlet from the channel. A sponge holding a body fluid sample is introduced into the opening by sliding a distal portion of a plunger, to which the sponge is coupled, through the channel. A porous carrier holding a reagent is disposed within the channel. Sliding the distal portion of the plunger distally through the channel drives the sample out of the sponge and through the carrier, dissolving at least some of the reagent. The sample is driven, with the dissolved reagent, through the outlet and onto a sample pad of a lateral flow platform. Other embodiments are also described.

Certain aspects of the present disclosure relate to methods and apparatus for microbial sampling of foods. For example, a method may include providing at least one aggregating sampler at one or more sampling locations, and sampling a production lot of produce or other food items such as meat using the at least one aggregating sampler to create one or more samples that makes up a microbial sampling. Certain aspects of the present disclosure relate to methods and apparatus for microbial sampling of foods. For example, an apparatus, such as a microbial aggregating sampler, may include a covering having a microbial sampling material with a pocket formed in the covering to receive an appendage or a tool for handling of the covering.

The technology in part relates to diagnostic test devices and in part relates to test devices that include a lateral flow test strip. The technology in part relates to a test device system that incorporates sample collection, delivery, measuring, processing, incubation, flow regulation and analyzing a sample of interest in a single assembly.

A method of handling a fluidic sample includes taking fluidic sample from a sample source by a sample shaping tool so that a pre-shaped planar fluidic sample is held by the sample shaping tool with at least one main surface, or both opposing main surfaces, of the pre-shaped planar fluidic sample being exposed, and processing the pre-shaped planar fluidic sample such as by separating the pre-shaped planar fluidic sample in a sample separation device.

An open-cell foam structure that is impregnated with a disinfectant and used to remove pathogens from air, water, and surfaces, and kill the pathogens

Systems and methods for tracking healing progress of multiple adjacent wounds are provided. In one embodiment, a system may include a processor configured to receive a first image of a plurality of adjacent wounds near a form of colorized surface having colored reference elements, determine colors of the plurality of wounds, correct for local illumination conditions, receive a second image of the plurality of wounds near the form of colorized surface, to determine second colors of the plurality of wounds in the second image, match each of the plurality of wounds in the second image to a wound of the plurality of wounds in the first image, and determine an indicator of the healing progress for each of the plurality of wounds based on changes between the first image and the second image.

Systems and methods for analysing a fluid including a fluid sample delivery application. The system includes a sensing element configured to respond to at least one analyte in a sample of fluid. A detector is provided, configured to sense the response to the analyte by the sensing element. The fluid sample delivery apparatus includes a dosage needle configured to deliver the sample of fluid to the sensing element, at least one pump configured to control flow of fluid through the dosage needle, and at least one actuator configured to move the dosage needle relative to the sensing element. At least one controller is provided, configured to control the at least one pump and the at least one actuator.

A biological sample collector 500 comprising a solid support 12 having plural discrete areas (22,24,26,28 FIG. 1) for accepting a biological sample, each area being chemically differentiated, for example by having a different chemical treatment sorbed onto the solid support. An envelope 530 encloses the solid support. A cover portion 520 can cover the biological sample after collection to prevent infection. UV light can be applied to the collected sample to reduce the risk of infection.

A digital dispense system and method for analyzing samples. The system includes a fluid droplet ejection system housed in a compact housing unit. The fluid droplet ejection system contains a fluid droplet ejection head and fluid cartridge containing one or more fluids to be dispensed, a cartridge translation mechanism for moving the fluid droplet ejection head and fluid cartridge back and forth over a sample holder in an x direction; and a sample holder translation mechanism for moving a sample back and forth beneath the fluid droplet ejection head and fluid cartridge in a y direction orthogonal to the x direction. A digital display device is attached to the fluid droplet ejection system for displaying fluid volume information to a user. The fluid volume information is selected from relative fluid volume, absolute fluid volume, and a combination of relative and absolute fluid volumes.