Abstract: A reagent supply device includes a plurality of chambers which are separated from each other such that different reagents may be injected, the plurality of chambers having bottom surfaces made of a membrane, the membrane comprising a destruction pattern which is formed at a position corresponding to each of the plurality of chambers and breachable by an external impact to discharge the injected reagent from the chamber.

Abstract: The invention relates to an exhaust gas filter device for filtering contaminants out of exhaust gases, comprising: a filtering apparatus for filtering the exhaust gases, wherein the exhaust gases enter the filtering apparatus at a filter inlet surface, flow through the filtering apparatus and exit the filtering apparatus at a filter outlet surface; and a distribution channel for distributing the exhaust gases to be filtered along the filter inlet surface, and a collection channel for collecting the filtered exhaust gases exiting at the filter outlet surface; wherein the cross section of the collection channel increases in the direction of flow of the exhaust gases and/or the cross section of the distribution channel decreases in the direction of flow of the exhaust gases.

Abstract: A hand-held molecular diagnostic test device includes a housing, an amplification (or PCR) module, and a detection module. The amplification module is configured to receive an input sample, and defines a reaction volume. The amplification module includes a heater such that the amplification module can perform a polymerase chain reaction (PCR) on the input sample. The detection module is configured to receive an output from the amplification module and a reagent formulated to produce a signal that indicates a presence of a target amplicon within the input sample. The amplification module and the detection module are integrated within the housing.

Abstract: System, including apparatus and methods, for performing droplet-based assays. The system may comprise a droplet transporter configured to pick up droplets from each emulsion of an array of reacted emulsions and to drive flow of the droplets through a detection region. The system also may comprise a detector configured to collect data related to one or more analytes from individual droplets of the reacted emulsions as such individual droplets travel through the detection region. The system further may comprise a controller programmed to determine, based on the data collected, an aspect of the one or more analytes in one or more samples included in droplets of the emulsions.

Abstract: A foam sensor system includes a flexible bag comprised of a polymeric material and bounding a compartment. A foam sensor assembly is mounted on the flexible bag and includes a foam contact disposed within the compartment of the flexible bag. A ground assembly is mounted on the flexible bag and includes a ground contact disposed within the compartment of the flexible bag, the foam sensor assembly and the ground assembly being configured so that an electrical potential can be applied between the foam contact and the ground contact.

Abstract: A photo-bioreactor and method of operating are described. The photo-bioreactor includes a reactor vessel arranged to contain a fluid medium within which bio-material is grown, and at least one light-emitting rod extending into the reactor vessel, wherein the light-emitting rod has an elongate tubular member characterized by a length along a longitudinal axis and a width along an axis normal to the longitudinal axis, and designed with an outer wall that encloses one or more light-emitting devices arranged along the longitudinal axis, the outer wall being transparent to at least part of the light emitted by the one or more light-emitting devices into the reactor vessel. The photo-bioreactor further includes a drive system coupled to the elongate tubular member, and operatively configured to rotate the light-emitting rod about the longitudinal axis within reactor vessel, and circulate the fluid medium through the reactor.

Abstract: An attachment arrangement for providing a sensor in a flexible bag, said attachment arrangement comprising: a sensor holding part adapted to be integrated with the flexible bag and comprising first locking part protruding out form the flexible bag, the sensor holding part holding an optical sensor inside the flexible bag; an adaptor part provided outside the flexible bag and adapted to hold an optical fiber, the adaptor part comprising second locking part adapted to mate with the first locking part to lock the first locking part and the second locking part together such that the optical fiber can communicate with the optical sensor inside the bag.

Abstract: A process and apparatus for sequestering carbon and converting it to fuel, such as methane, and/or materials, such as fermentation substrates, biopolymers, bioplastics, oils, pigments, biochar, metals, such as mercury, chromium and arsenic, fibers, proteins, vitamins, fertilizers and animal feed. The apparatus comprises a deep well carbon-sequestering bioreactor coaxially located within a deep well anaerobic bioreactor. Carbon is sequestered into a photosynthetic biomass or a heterotrophic biomass, which is subsequently digested by an anaerobic biomass containing methanogenic microbes, whereby methane is a digestion product. Alternatively, the biomass can be subjected to physical-chemical treatment to produce oil and other useful byproducts.

Abstract: A photo-bioreactor system for growing and harvesting photosynthetic organisms includes an interior space partitioned into a plurality of independently controlled reactor cells, each stepped downward along a slope from a first elevation to a second elevation, and a light source coupled to each reactor cell and configured to illuminate the photosynthetic organisms with first and second light-emitting surfaces. The system includes a fluid circulation system coupled to the reactor container and configured to force a continuous flow of fluid through the cell passages.

Abstract: An exhaust system suitable for high volume exhaust from flexible disposable bags is described that prevents nutrient media volume loss and prevents cross-contamination without using any filters. The invention described here allows the use of disposable two-dimensional bioreactors for the cultivation of bacterial and other organisms and cells require high aeration.

Abstract: The present invention relates to a device, a system and a method for performing monitoring and/or cultivation of microscopic objects. Microscopic objects are in particular microscopic organisms like bacteria and cell cultures, such as cultivation objects like tissue samples and embryos, providing optimal and safe cultivation conditions for incubation during embryo development and for facilitating the selection of optimal embryos to be used in vitro fertilization (IVF) by facilitating embryo handling for automated digital imaging and time-lapse microscopy.

Abstract: A method of homogenously mixing the contents of a plurality of bioreactors by providing a receiving container capable of holding an appropriate quantity of the liquid and repeatedly raising and lowering the receiving container to a position above or below the position of the bioreactors resulting in mixing the contents of the bioreactors.

Abstract: The present disclosure relates to a diffusion cell for testing the permeation of a compound(s) across a membrane. Also, the present disclosure relates to a method of manufacturing a diffusion cell. Further, the present disclosure relates to a method of performing an assay using a diffusion cell.

Abstract: This disclosure provides a thermocycler system for performing polymerase chain reaction. The thermocycler system can comprise a plurality of bus bars, a microplate, a clamp and a current application device in electrical communication with the bus bars. The clamp is suitable for forming a low resistance electrical connection between the microplate and an individual bus bar of the plurality of bus bars. In some instances, the clamp includes a spring-loaded pivot and a ram. Operation of the clamp forces the microplate into contact with the bus bar, or vice versa, to provide an electrical contact between the microplate and the bus bar. The microplate can comprise a substrate having a metallic material for heating samples, and a barrier layer disposed adjacent to the substrate.

Abstract: Disclosed herein is a cell culture apparatus that can achieve appropriate culture conditions. The cell culture apparatus (1) includes: a cylindrical culture vessel (10) that holds a culture liquid containing cells; a supporting column (20) that stands upright in a center of an inner surface of a bottom (12) in the culture vessel; and a stirring device (30) that includes an attaching portion (32) that is attached to an upper portion of the supporting column so as to be rotatable relative to the supporting column and a stirring blade (34) whose upper portion is fixed to the attaching portion so as to rotate around the supporting column.

Abstract: Disclosed are fluidics devices and assemblies allowing for fluid flow between a plurality of wells. The fluidics devices and assemblies that are provided mimic in vivo tissue environments by allowing for initially segregated tissue cultures that can then be linked through fluid flow to measure integrated tissue response. The devices and assemblies provide a pumpless system using surface tension, gravity, and channel geometries. By linking human tissue functional systems to better simulate in vivo feedback and response signals between the tissues, the need for testing in animals can be minimized.

Abstract: An improved method of culturing cells for cell therapy applications that includes growing desired cells in the presence of antigen-presenting cells and/or feeder cells and with medium volume to surface area ratio of up to 1 ml/cm2 if the growth surface is not comprised of gas permeable material and up to 2 ml/cm2 if the growth surface is comprised of gas permeable material. The desired cells are at a surface density of less than 0.5×106 cells/cm2 at the onset of a production cycle, and the surface density of the desired cells plus the surface density of the antigen presenting cells and/or feeder cells are at least about 1.25×105 cells/cm2.

Abstract: The present invention is directed to a method and automated unloading means for unloading a container from an apparatus. The apparatus of the present invention may include a means for automated loading, a means for automated transfer and/or a means for automated unloading of a container (e.g., a specimen container). In one embodiment, the apparatus can be an automated detection apparatus for rapid non-invasive detection of a microbial agent in a test sample. The detection system also including a heated enclosure, a holding means or rack, and/or a detection unit for monitoring and/or interrogating the specimen container to detect whether the container is positive for the presence of a microbial agent. In other embodiment, the automated instrument may include one or more, bar code readers, scanners, cameras, and/or weighing stations to aid in scanning, reading, imaging and weighing of specimen containers within the system.

Abstract: Provided are a microfluidic platform for cell culturing and a cell culturing method using the same. By applying a structure of a compartment which surrounds at least a portion of an annular reservoir and moving cells to be cultured to a site adjacent to a microchannel via rotation, a probability of observing cells that grew after culturing may increase and a probability of causing cells, particularly neurons, to grow so as to correspond to a signal transfer direction may increase.

Abstract: An aqueous enzyme based sensor comprising one or more enzymes and at least one indicator compound capable of indicating a reaction of at least one of the enzymes with at least one target analyte, wherein the enzyme and the indicator are capable of being delivered, preferably by being sprayed, to a surface having the target analyte without sampling the surface. An aqueous enzyme based sensor is provided that is capable of detecting an enzyme specific substrate as the analyte. This aqueous enzyme based sensor further comprises of one or more enzyme specific substrates in which the sensor detects enzyme inhibition. The aqueous enzyme based sensor optionally comprises one or more of a light scattering additive(s), an adhesive polymer(s), a protein stabilizer(s), a protein stabilizing sugar(s), a surfactant(s), and a solvent(s), and combinations thereof. A dispensing system and a method of detecting a target chemical on a surface without sampling the surface is provided.