Abstract: A differential extraction system is directed to a micro fluidic-based integrated cartridge to automate differential extraction of specific cell types within a mixed sample. The integrated cartridge includes a sonication module for selective cell lysis, separating means to eliminate centrifugation, high surface area pillar chip modules to purify DNA from a cell lysate, and micro fluidic circuitry to integrate the steps in an automated platform.

Abstract: Fan blades within a fan assembly are rotated in a first rotational direction, thereby generating airflow from above the fan blades downward past the fan blades. Airborne particles adhere to the surface of the fan blades as the air flows past. The fan direction is then reversed maintained at a relatively low rotational rate. A fluid is dispensed onto the hub of the fan blades. Due to the centripetal force of the spinning fan blades, the fluid is spread thin across the top surface of the fan blades and the liquid film washes the blade of the fan, removing particulates from the fan blade. The solution is pushed outward against the inner wall of the fan housing forming a fluid meniscus. The fan speed is increased to push the fluid meniscus into an annular reservoir. The collected fluid is then vacuumed and consolidated into the collection vessel.

Abstract: A collection and detection system is configured as a detect to warn system in which the presence of specific types of particles are detected, and may or may not be identified. An air collection module intakes ambient air, detect the presence of one or more different types of airborne particles within the ambient air, and collect the airborne particles, such as within a fluid. A triggering mechanism is positioned to continuously monitor the airflow, to determine one or more characteristics of the airborne particles. If those measured characteristics match specific known characteristics, a trigger signal is generated. In response, a confirmation device performs a detection method on a fluid solution including the airflow particles to determine the presence of one or more different types of specific biological particles.

Abstract: An integrated collection and detection system is configured to monitor the ambient air for specific particles, such as toxins and pathogens. An air collector captures airborne particles and outputs a fluid sample including the captured particles in a fluid solution. The collection and detection system includes a control module configured to control the processing of the fluid sample such that detection of one or more types of particles is fully automated within the integrated system. The types of particles to be processed and detected include, but are not limited to, cells, bacteria, viruses, nucleic acids, toxins, and other pathogens. If one or more specific types of particles are detected, a system alarm is triggered. The system alarm triggers a local audio/visual alarm and/or is transmitted over a communications network to either a local or central monitoring location. More than one collection and detection system can be coupled to the network and monitored by the central monitoring location.

Abstract: An integrate device includes a heater thermally coupled to a plurality of flow-through tubes to perform thermally-driven chemical reactions. A wire mesh heater is wrapped around each of multiple flow-through tubes, thereby creating a thermal interface between the mesh and the tubes. Each end of the wire mesh is coupled to an electrical contact. The electrical contacts are preferable positioned at an exterior portion of the integrated device to be easily placed in electrical contact with a voltage source. As current passes through the mesh, heat is produced. The heat passes from the mesh to each of the flow-through tubes via the thermal interface. The flow-through tubes can be fluidically coupled to a sample preparation module. The sample preparation module, the flow-through tubes, and the heater can be integrated within a single integrated device that provides automated sample preparation and thermally-driven chemical reactions for a variety of applications.

Abstract: A differential extraction system is directed to a microfluidic-based integrated cartridge to automate differential extraction of specific cell types within a mixed sample. The integrated cartridge includes a sonication module for selective cell lysis, separating means to eliminate centrifugation, high surface area pillar chip modules to purify DNA from a cell lysate, and microfluidic circuitry to integrate the steps in an automated platform.

Abstract: A sonication apparatus is directed to a microfluidic-based system to automate differential extraction of specific cell types within a mixed sample. The microfluidic-based system includes a sonication module for selective cell lysis, separating means to eliminate centrifugation, high surface area pillar chip modules to purify DNA from a cell lysate, and microfluidic circuitry to integrate the steps in an automated platform.

Abstract: A standalone bench top laboratory instrument designed to disrupt, or lyse, cells, spores and tissue samples using ultrasonic energy. The lysing device is programmable, allowing the user control over the sample volume, sonication power level, and lysing duration in order to optimize lysing protocols for specific targets. Once a lysing protocol is entered, the device automatically lyses the sample according to the entered lysing protocol. The lysing device also provides a cooling feature, enabled by a heat exchanging sub-assembly, to prevent the sample from exceeding a maximum set temperature.

Abstract: A handheld and portable extraction device is directed to a microfluidic-based system to be used in the field to extract and purify an analyte, preferably a nucleic acid, from a fluid-based sample. Preferably, the fluid-based sample is water-based. The fluid-based sample can also be a biological fluid sample. The handheld and portable extraction device includes a syringe-like device coupled to a purification chip. The purification chip is preferably included within a chip block which is removable from the remaining portion of the handheld and portable extraction device. The analyte collected within the purification chip can be later removed and collected for analysis.

Abstract: A sonication apparatus is directed to a microfluidic-based system to automate differential extraction of specific cell types within a mixed sample. The microfluidic-based system includes a sonication module for selective cell lysis, separating means to eliminate centrifugation, high surface area pillar chip modules to purify DNA from a cell lysate, and microfluidic circuitry to integrate the steps in an automated platform.

Abstract: A differential extraction system is directed to a microfluidic-based integrated cartridge to automate differential extraction of specific cell types within a mixed sample. The integrated cartridge includes a sonication module for selective cell lysis, separating means to eliminate centrifugation, high surface area pillar chip modules to purify DNA from a cell lysate, and microfluidic circuitry to integrate the steps in an automated platform.