A system and method are provided for packaging and sterilizing analyte sensors. The packaging system provides a structure for securing the analyte sensors in a fixed position and fixed orientation within the package.

Bodily fluid sample collection systems, devices, and method are provided. The sample is collected at a first location and subjected to a first sample processing step. The sample may be shipped to a second location and subjected to a second sample processing step that does not introduce contaminants into a plasma portion of the sample formed from the first processing step. The sample may also be mixed with other material(s) in the collection device.

The present invention provides methods, compositions, kits, and devices for detecting heavy metals in dried blood (e.g., dried blood spots). For example, the present invention provides: 1) dried blood spot paper that is detectably free of heavy metals and methods of preparing such paper using organic acid; 2) dried blood extraction solutions optimized for heavy metal detection (e.g., extraction solutions containing acetic acid and/or gold); 3) methods for estimating venous blood volume from dried blood mass; and 4) kits and kit components optimized for heavy metal detection in dried blood (e.g., kits with paper detectably free of heavy metals, heavy metal free skin wipes, metal free collection case, etc.).

Automated modular physical health testing systems and associated devices and methods are disclosed herein. A modular system configured in accordance with embodiments of the present technology can include, for example, a housing, a communications hub, and a plurality of physical health testing devices. The housing integrates the communications hub and stores the plurality of physical health testing devices. The physical health testing devices are in wired and/or wireless communication with the communications hub. Each physical health testing device is configured to generate physical health data of a user and to transmit generated physical health data to the communication hub and/or a user's mobile device. The modular physical health testing system provides an automated physical exam that can be performed at user's homes or other convenient locations.

A specimen transfer device adapted to receive a blood sample is disclosed. The specimen transfer device includes a housing and an actuation member. A deformable material is disposed within the housing and is deformable from an initial position in which the material is adapted to hold the sample to a deformed position in which at least a portion of the sample is released from the material. A viscoelastic member is disposed within the housing between the material and the housing and between the material and the actuation member. The viscoelastic member is engaged with the actuation member and the material such that movement of the actuation member from a first position to a second position deforms the material from the initial position to the deformed position.

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.

Various embodiments of the present disclosure describe a diversion device that traps an initial flow of blood in a diversion chamber of the diversion device. The diversion chamber may be defined, in part, by a housing shell, a housing base, and a filter. The filter may be a porous material that allows air, but not blood, to flow through it. After the diversion chamber is filled, a subsequent flow of blood may be directed into a collection vessel through an internal conduit of the diversion device.

A finger receptacle having an elongated, flexible sleeve having a length defined between a proximal end and a distal end, the sleeve further comprising a support base, a ceiling and a top surface defining a longitudinal axis X, whereby the sleeve is adapted to bias toward a radially contracted state and when urged into a radially expanded state effects a radial compression action about the length to releasably secure a finger within the receptacle; and at least one angled projection extending from the ceiling and top surface at the distal end of the sleeve, the at least one angled projection angled inwardly from the longitudinal axis X of the ceiling and adapted to contact a nail of the finger releasably secured in the sleeve at the distal end of the receptacle to effect a second compression action. The invention further related to devices of blood capture and blood collection and those that incorporate said receptacle or a finger compression sleeve.

An implantation device for prompt subcutaneous implantation of a sensor to measure a physiological signal of an analyte in a biofluid of a living body is disclosed. The implantation device includes a housing, an implantation module, a detachable module and a bottom cover. The housing has a bottom opening. The implantation module includes an implanting device and a needle extracting device. The detachable module includes the sensor detachably engaged with the implantation module; and a base configured to mount the sensor thereon. The bottom cover is detachably coupled to the bottom opening so that the housing and the bottom cover together form an accommodating space. The implantation module and the detachable module are accommodated in the accommodating space. The bottom cover has an operating portion configured to bear a force, and a supporting portion is formed on the opposite end of the operating portion.

A blood sample collection system includes a blood access device having a fluid flow path and a diagnostic device configured to receive a sample of blood, where the diagnostic device is in fluid communication with the fluid flow path, and where the diagnostic device is configured to be detached from the blood access device.