An optical fluid measurement element includes: an emitter that generates an optical output; an absorber that measures an optical input; and a fluid flow pathway, where the optical output of the emitter passes through the fluid flow pathway and is received as the optical input to the absorber after passing through the portion of the fluid flow pathway. An automated method of measuring fluid volume using an optical fluid measurement element includes: activating an emitter; capturing data from an optical sensor; detecting a leading edge of fluid travelling along a flow pathway; starting a counter when the leading edge is detected; and calculating a volume based on a value of the counter. An automated method of measuring fluid attributes along a flow pathway. The method includes: activating an optical emitter; receiving a signal from an optical sensor; and processing the received signal to determine at least one fluid attribute.

An apparatus for procuring bodily fluid samples with reduced contamination includes a housing having a sequestration chamber, an inlet, and an outlet. A flow controller defines a portion of the sequestration chamber and can transitionin response to a suction force exerted by a fluid collection device fluidically coupled to the outletfrom a first state in which the sequestration chamber has a first volume to a second state in which the sequestration chamber has a second volume greater than the first volume, to draw an initial volume of bodily fluid into the sequestration chamber. An actuator is coupled to the housing and is in fluid communication with the inlet and the sequestration chamber in a first configuration, and is transitioned to a second configuration to sequester the sequestration chamber from the inlet, and allow a subsequent volume of bodily fluid to flow from the inlet to the outlet.

A blood collecting device collects blood in a short time after puncture without scattering the blood into the open air other than a container for collecting the blood. One of representative blood collecting devices has a container unit that includes a screw portion, a holder that holds the container unit serving as a system whose one end is closed, a puncture unit that can be attached to the container or the holder, a through-hole of the puncture unit, and a puncture unit protection member that protects the puncture unit and the container unit.

An apparatus for procuring bodily fluid samples with reduced contamination includes a housing having a sequestration chamber, an inlet, and an outlet. A flow controller defines a portion of the sequestration chamber and can transitionin response to a suction force exerted by a fluid collection device fluidically coupled to the outletfrom a first state in which the sequestration chamber has a first volume to a second state in which the sequestration chamber has a second volume greater than the first volume, to draw an initial volume of bodily fluid into the sequestration chamber. An actuator is coupled to the housing and is in fluid communication with the inlet and the sequestration chamber in a first configuration, and is transitioned to a second configuration to sequester the sequestration chamber from the inlet, and allow a subsequent volume of bodily fluid to flow from the inlet to the outlet.

A system for collecting a physiological sample includes a dermal patch configured for attaching to a subject's skin and an applicator for coupling to the dermal patch. The dermal patch includes a reservoir configured to store a processing fluid, a sample collection chamber for receiving the processing fluid and a physiological sample extracted from a subject. The applicator includes at least one actuating lever for activating the dermal patch to receive the physiological sample from the subject and directing the physiological sample into the sample collection chamber.

An optical fluid measurement element includes: an emitter that generates an optical output; an absorber that measures an optical input; and a fluid flow pathway, where the optical output of the emitter passes through the fluid flow pathway and is received as the optical input to the absorber after passing through the portion of the fluid flow pathway. An automated method of measuring fluid volume using an optical fluid measurement element includes: activating an emitter; capturing data from an optical sensor; detecting a leading edge of fluid travelling along a flow pathway; starting a counter when the leading edge is detected; and calculating a volume based on a value of the counter. An automated method of measuring fluid attributes along a flow pathway. The method includes: activating an optical emitter; receiving a signal from an optical sensor; and processing the received signal to determine at least one fluid attribute.

A blood collecting device collects blood in a short time after puncture without scattering the blood into the open air other than a container for collecting the blood. One of representative blood collecting devices has a container unit that includes a screw portion, a holder that holds the container unit serving as a system whose one end is closed, a puncture unit that can be attached to the container or the holder, a through-hole of the puncture unit, and a puncture unit protection member that protects the puncture unit and the container unit.

A vacuum assisted lancing system for blood extraction can include a tubular body having a vacuum chamber, a lancing mechanism configured to removably couple with a lance, a vacuum mechanism including a piston slideably coupled within the body, a release mechanism for selectively holding the vacuum mechanism in an energized state, and an opening for allowing fluid communication between the vacuum chamber and an atmosphere surrounding the vacuum chamber. The system can include means for selectively commencing dissipation of the vacuum and a fixed or adjustable depth controller. A method of manipulating a surface for blood extraction can include coupling the lancing system to the surface, blocking the opening, creating a vacuum, moving the lance coupler from a first position distal from the surface to a second position proximal to the surface, maintaining the vacuum for a period of time, and commencing dissipation of the vacuum by unblocking the opening.