Abstract: According to various aspects and embodiments, a system and method for aerobic fermentation of an aqueous sugar solution is provided. The system includes a vessel, at least one air diffuser in fluid communication with an interior of the vessel, and at least one blower that is configured to deliver air to the at least one air diffuser.

Abstract: A measuring apparatus relates to a contractile ability of a spontaneously pulsating myocardial tissue. The measuring apparatus includes a measurement table and a pressure sensor. The measurement table includes a storage section having an opening and configured to hold liquid inside the storage section, and an attaching portion on which the myocardial tissue is attached around the opening. The pressure sensor is disposed inside the storage section.

Abstract: A reusable, disposable device for culturing plant tissues or cells including a non-rigid container having dimensions and gas exchange ports designed for maintaining oxygen saturation and shear forces suitable for culturing plant tissue or cells in 400 liters or more of culture medium is provided. Also provided are methods for producing a catalytically active human recombinant protein in a plant cell, using the disposable device of one of the embodiments of the instant specification.

Abstract: A portable apparatus useful for collection and processing of human biological material, such as adipose or cancellous bone material, to prepare a concentrated product (e.g., stromal vascular fraction). The apparatus has a container with a containment volume with a tissue retention volume and a filtrate volume separated by a filter and with a pellet well for collecting concentrate product in the form of a pellet phase from centrifuge processing. The pellet well is accessible only from above when the apparatus is in an access orientation. Collected pellet phase material may be removed from the pellet well by direct aspiration, without suspending the material in a suspension liquid within the container. Access ports may be configured for access only from above the container. The apparatus may include a tissue collector disposed in the disuse retention volume to engage and collect collagen or other stringy tissue.

Abstract: A specimen processing system includes a culture vessel, a spatula, a robot, and a robot controller. The culture vessel is open on a top surface and includes a circular culture surface on which cells are culturable. The spatula includes a blade to remove the cells off the culture surface. The robot includes a hand to hold the culture vessel and/or the spatula. The robot controller includes an operation controller to control the robot to: move the spatula relative to the culture vessel with a first end of the blade on a circumference of the culture surface to remove first cells that are nearer the circumference of the culture surface; and move the spatula relative to the culture vessel to remove second cells that are inner than the first cells on the culture surface.

Abstract: The invention relates to means and methods for the biomethanation of H2 and CO2. In particular, the invention relates to devices for producing methane by means of methanogenic microorganisms by converting H2 and CO2, wherein the devices comprise at least one reactor, an aqueous medium, which is provided in the at least one reactor, wherein the methanogenic microorganisms are contained in the aqueous medium, a feeding apparatus, which is designed to introduce H2 and CO2 into the at least one reactor, wherein H2 and CO2 form a gaseous mixture therein, and a reaction-increasing device, which is designed to enlarge the contact surface between the aqueous medium having the methanogenic microorganisms and the gaseous mixture. The invention further relates to methods for producing methane in a reactor device by means of methanogenic microorganisms.

Abstract: There is the problem that a liquid culture medium fed by a pump has a high frequency of contact with a gas during movement in a tube, and the pH value of the liquid culture medium before and after feeding changes easily. In a liquid feeder and a cell culture apparatus provided therewith, a feed pipe 7 is connected with a gas bag 14, the liquid to be fed into the feed pipe 7 is fed so as to be sandwiched by a gas for suppressing the qualitative changes of the liquid. Furthermore, the gas bag is connected with a container 8 for holding a liquid, and holds the gas for suppressing qualitative changes of the liquid in a gas phase of the container.

Abstract: The present invention is a composting bioreactor system that continually receives biodegradable solid wastes, waste waters and exhaust gases, automatically recycles the biodegradable wastes into nutrients and heat energy, and automatically supplies the nutrients and heat into an integrated hydroponic or aquaponic system. This invention together with integrated food growing system may be installed onsite such as balconies, backyards and premises of restaurants and food factories etc. therefore may lead to zero mileage targets both for recycling wastes and for supplying foods. This invention integrates composting process and aquaponic technology together and may establish a closed-loop recirculation of both water and gases therefore upgrades aquaponics into compoponics.

Abstract: Electrode systems have been developed for use in perfusion systems to measure the electrical activity of an explanted heart and to provide defibrillation energy as necessary. The perfusion systems maintain the heart in a heating state at, or near, normal physiological conditions; circulating oxygenated, nutrient enriched perfusion fluid to the heart at or near physiological temperature, pressure and flow rate. These systems include a pair of electrodes that are placed epicardially on the right atrium and left ventricle of the explanted heart, as well as an electrode placed in the aortic blood path.

Abstract: A device for controlling apical flow to a cell culture includes an apical insert that defines at least one inlet channel extending from an inlet port to an apical feed port and at least one outlet channel extending from an apical effluent port to an outlet port. The apical insert includes a projecting portion configured to extend into a cell culture insert to a depth that is less than a depth of the cell culture insert, and a contact surface configured to maintain a spatial relationship between the projecting portion and the cell culture insert.

Abstract: Systems and methods are provided for improving action potential morphology in iPSC-derived cardiac myocytes and utilizing such myocytes. Improved morphology may include, for example, physiological resting membrane potentials. Membrane voltages of the myocyte are measured and a synthetic inward rectifying current is applied to the myocyte based on the membrane voltage.

Abstract: Disclosed is a photosynthetic culture production device including at least one photo-bioreactor chamber having a supply/discharge unit, and including: an aqueous liquid containing a photosynthetic culture; at least one unit for supplying and discharging fluids from the chamber interacting with a management system; at least one light distributor including at least one first wall arranged so as to receive the light at a proximal end, at least one second wall arranged so as to emit at least part of the received light, and a sealed cavity defined by the at least one first wall and the at least one second wall, part of the emitting wall being immersed in the aqueous liquid containing the photosynthetic culture; at least one fluid partially filling the sealed cavity; and a cover, limiting evaporation. The cover has at least one opening, keeping the at least one light distributor stationary in the chamber.

Abstract: The present invention relates to a thermal cycler for the carrying out of chemical or biological reactions, such as PCR or other nucleic acid amplification reactions, that is segmented with a plurality of reaction vessel receiving elements. The reaction vessel receiving elements are thermally isolated from each other and provide an airtight seal to prevent liquids or moisture from penetrating below the reaction vessel receiving elements. The reaction vessel receiving elements have several recesses arranged in a pattern to receive the reaction vessels of a single standard microtiter plate and the segmented thermal cycler has a system for independently heating and cooling each of the reaction vessel receiving elements.

Abstract: A lysis/resealing process for preparing erythrocytes containing active ingredient is provided comprising placing a globular concentrate in suspension in an isotonic solution having a haematocrit level which is equal to or greater than 65%, with refrigeration at 1 to 8° C.; measuring the osmotic fragility based on a sample of erythrocytes from that same globular concentrate, preferably on a sample of the suspension; lysis and internalization procedure of the active ingredient, inside the same chamber, at a temperature maintained at 1 to 8° C., comprising allowing the erythrocyte suspension having a haematocrit level equal to or greater than 65% and a hypotonic lysis solution which is refrigerated at 1 to 8° C., to circulate in a dialysis cartridge; the lysis parameters being adjusted in accordance with the osmotic fragility previously measured; and resealing in a second chamber at a temperature of from 30 to 40° C. by means of a hypertonic solution.

Abstract: A bag includes an organ transporter compartment to contain an organ transporter disposed in the transporter compartment. The bag may include openings to access portions of the organ transporter, such as a battery or power cable, when the organ transporter is disposed in the bag. The bag may also include a frame and handles. The handles may include structure adapted to mate with handles on the organ transporter. The bag may also include a single cover that provides access to multiple compartments with their own internal covers. Also, the bag may include windows to view documents stored in the bag and/or to view and/or display control panels on the organ transporter.

Abstract: The present invention relates to a culture vessel which can be broadly applied to culture, regeneration, manufacture, observation and the like of targets such as cells, organs, and microorganisms. In the culture vessel of the present invention, a first vessel 10 and a second vessel 20 each being a close-bottom, open-top vessel are provided. In the first vessel 10 and the second vessel 20, a sideways-facing opening 12 and a sideways-facing opening 22 are formed. The opening 12 and the opening 22 communicate in a watertight manner when the openings 12, 22 are connected face to face.

Abstract: Disclosed is a cell stimulation apparatus. In particular, a cell stimulation apparatus according to an embodiment of the present disclosure includes a cell containment part in which at least one cell containment groove containing cells is formed; and a pressure control part that supports the cell containment part and transforms the at least one cell containment groove by applying pressure to the cell containment part, wherein a bottom of the at least one cell containment groove is made of a flexible material.

Abstract: A photobioreactor system and a process for its use is illustrated, whereby water and nutrients from multiple sources are balanced (mixed using aeration) to the specific requirements of the particular photosynthetic organism strain used, sterilized, further mixed to balance the system and seeded with the photosynthetic microorganism, e.g. microalgae (dilution of a concentrated stock or added to an existing algal biomass). In accordance with such an embodiment, the algal biomass is then grown for a most efficient number of hours in a totally controlled environment where temperature (using aeration, an internal coil cooling system, or a combination thereof), pH (via CO2 delivery) and light delivery (using internal lighting directly inside the algal biomass) are optimized to the algal strain grown.

Abstract: A system for monitoring growth media within a controlled environment is provided and includes a well plate having a plate top and a plate side and defines at least one well cavity. The plate top includes a top opening and the plate side includes a side opening and the side opening is communicated with one of the at least one well cavity. The system includes a sensor assembly unit that includes a unit structure defining a reference material chamber containing a reference material, a sensor chamber having a chamber opening, and a base chamber. Additionally, the system includes a reference electrode communicated with the reference material and the base chamber. A media sensor is provided and is communicated with the chamber opening and a media sensor electrode communicated with the media sensor. The reference electrode and media sensor electrode are communicated with a processing device.

Abstract: A container (2) has flexible walls surrounding a container interior (6). At least one electrical sensor (3, 3?, 3?, 3??, 3??) projects into the container interior (6) and has at least first and second electrically conductive plates (8, 8?, 9, 9?, 9??) for determining the conductivity or impedance of a medium that surrounds the plates (8, 8?, 9, 9?, 9??). The plates (8, 8?, 9, 9?, 9??) are connected via connecting lines (10, 11) to a control and regulating unit (4) outside the container interior (6). At least the first plate (8, 8?) is on a closed free end of a sheathing (5, 5?, 5??) and has a contact area exposed to the surrounding medium. The sheathing (5, 5?, 5??, 17, 17??) is a flexible hose (7) or bellows (19, 19??) through which the electrical connecting line (10, 11) of the plate (8, 8?, 9, 9?, 9??) is routed.