A microfluidic analysis system (1) performs polymerase chain reaction (PCR) analysis on a bio sample. In a centrifuge (6) the sample is separated into DNA and RNA constituents. The vortex is created by opposing flow of a silicon oil primary carrier fluid effecting circulation by viscous drag. The bio sample exits the centrifuge enveloped in the primary carrier fluid. This is pumped by a flow controller (7) to a thermal stage (9). The thermal stage (9) has a number of microfluidic devices (70) each having thermal zones (71, 72, 73) in which the bio sample is heated or cooled by heat conduction to/from a thermal carrier fluid and the primary carrier fluid. Thus, the carrier fluids envelope the sample, control its flowrate, and control its temperature without need for moving parts at the micro scale.

Provided herein is a method for analyzing the affect of at least one agent on a cell or cellular component using an analysis system. The method includes wrapping a droplet in an immiscible carrier fluid using a droplet generator wherein the wrapped droplet includes at least one cell or cellular component and at least one agent. The wrapped droplet then flows through the analysis system using a siphoning effect. The droplet is then analyzed to determine effect of the agent on the cell or cellular component.

A coulter assembly for collecting soil samples from an agricultural field in one embodiment comprises an annular collection blade configured for penetrating soil to capture a sample, an annular cam ring configured for stationary mounting to a frame of an agricultural vehicle and comprising a cam track, a blade hub coupled to the blade for rotatably supporting the annular collection blade from the annular cam ring, and a movable sample collector mounted to the annular collection blade. The moveable sample collector is configured and operable for extracting a soil sample as the annular collection blade is rotated through the soil. The moveable sample collector in one embodiment comprises a piston mechanism including a cylinder and rod movably disposed therein which actuated by the annular cam ring to alternatingly open and close a collection end of the cylinder as the annular collection blade rotates through the soil.

A computer-implemented method for processing biological samples in an environment including multiple automated analyzers having multiple modules is presented. The method includes receiving data related to a plurality of orders for processing biological samples at a main workflow engine. The main workflow engine receives and processes data for each of the multiple automated analyzers having multiple modules. The method further includes providing a data snapshot to at least one shadow workflow engine associated with a subset of one or more modules of the multiple modules. The data snapshot comprises only a portion of the data related to the plurality of orders that is necessary to determine actions of the module of the multiple modules. The method further includes determining, by the shadow workflow engine, a plurality of actions for the subset of modules to process the plurality of orders based on the data snapshot.

A computer-implemented method for processing biological samples in an environment including multiple automated analyzers having multiple modules is presented. The method includes receiving data related to a plurality of orders for processing biological samples at a main workflow engine. The main workflow engine receives and processes data for each of the multiple automated analyzers having multiple modules. The method further includes providing a data snapshot to at least one shadow workflow engine associated with a subset of one or more modules of the multiple modules. The data snapshot comprises only a portion of the data related to the plurality of orders that is necessary to determine actions of the module of the multiple modules. The method further includes determining, by the shadow workflow engine, a plurality of actions for the subset of modules to process the plurality of orders based on the data snapshot.