The present disclosure provides methods and materials for the cultivation and/or propagation of a photosynthetic organism. Such methods may comprise the use of a lamp assembly that comprises a plurality of circuit boards, each comprising at least three edges, arranged in a substantially spherical shape defining an interior lamp assembly volume, wherein the plurality of circuit boards comprise a first planar surface in contact with the interior lamp assembly volume and an opposing second planar surface comprising light emitting diodes (LEDs); and a barrier that surrounds the plurality of circuit boards forming the substantially spherical shape.

Medical instrument includes a substrate, in which cells are in contact with or held on a surface of the substrate, and at least the surface of the substrate which holds the cells is formed of a fluorine-containing cyclic olefin polymer which contains a repeating structure unit represented by Formula (1),

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wherein in Formula (1), at least one of R.sup.1 to R.sup.4 is fluorine, an alkyl with 1 to 10 carbon atoms which contains fluorine, an alkoxy with 1 to 10 carbon atoms which contains fluorine, or an alkoxyalkyl with 2 to 10 carbon atoms which contains fluorine, R.sup.1 to R.sup.4 are selected from hydrogen and certain non-fluorinated groups when R.sup.1 to R.sup.4 do not contain fluorine, R.sup.1 to R.sup.4 may be the same as or different from each other, and R.sup.1 to R.sup.4 may be bonded to each other to form a cyclic structure.

An inclined reactor of bottom gas-inlet type for aerobic fermentation and a method for aerobic fermentation are provided, a fermenter is provided with a circular inner tank, end covers and a jacket; an airtight fermentation space is formed in the fermenter by the inner tank, an upper end cover and a lower end cover; a feed opening and an exhaust outlet are arranged at an upper part of the fermenter, and a discharge opening is arranged at a lower part of the lower end cover of the fermenter; a length of the fermenter is greater than or equal to a diameter of the fermenter, the fermenter is fixed on a base having a height difference and is hence in an inclined state; an energy-saving stirrer is mounted in the fermenter, and the energy-saving stirrer is formed by connecting several groups of tangential plates or a spiral combination of tangential plates, a radial rod, a stirring rod and a stirring shaft; several groups of air chambers are arranged at an external wall at the bottom of the inner tank of the fermenter, the air chambers are arranged inside the jacket, several aeration nozzles are defined on an inner side of each air chamber, and the aeration nozzles are close to the inner tank.

The present disclosure relates to the design, fabrication, and applications of a three-dimensional (3D) bioreactor for cell expansion and cell secreted substance production. The bioreactor is composed of non-random interconnected voids providing a continuous three-dimensional surface area for cell adherence and growth.

A mixing device for an application in a container including a rotatable shaft; a drive device through which the rotatable shaft is drivable; and at least one mixing element arranged at the shaft, wherein the mixing element is rotatable together with the shaft, wherein the shaft includes a support device connected with the shaft, wherein the support device is arranged in an end portion of the shaft that is oriented away from the drive device, wherein the shaft is rotatable about its longitudinal axis relative to the support device, wherein the mixing device is supportable through the support device in a receiving device connected with the container, wherein the support device is moveable by a straight bearing or a rolling element bearing along a guide device into the receiving device, wherein the straight bearing includes at least one sliding surface that is moveable on a corresponding sliding surface.

A embryo culture dish comprising: a first sidewall; a second sidewall attached to the first sidewall; a third sidewall attached to the second sidewall; a fourth sidewall attached to the third and first sidewalls, the four sidewalls forming an outer perimeter that forms a generally rectangular shape; a dish floor that is generally in communication with the four sidewalls, the dish floor comprising: a top surface that is at a first elevation; at least one rectangular shaped embryo culture well, the at least one rectangular shaped embryo culture well comprising: an outer perimeter that has generally a rectangular shape; a first slanted wall that comprises a first side of the rectangular shaped embryo culture well; a second slanted wall that comprises an opposite side from the first side of the rectangular shaped embryo culture well, the first and second slanted walls extend downward and towards each other until they both intersect with a well floor of the rectangular shaped embryo culture well, the well floor having a well top surface, and where the well top surface is at a second elevation, the second elevation being below the first elevation; at least one shaped well, the shaped well comprising: an outer perimeter that has generally a shape; a shaped well floor, the shaped well floor having a shaped well floor top surface, and where the shaped well floor top surface is at a third elevation, the third elevation being below the first elevation. A method of using a square time-lapse dish, the method comprising: adding a medium to a square time lapse dish; tilting the square time-lapse dish to an angle α; removing excess medium from a large well in the time-lapse dish, with the square time-lapse dish at angle α; and returning the square time-lapse dish to a horizontal orientation.

A system for quickly determining antibiotic sensitivity of a microorganism comprising a triangular-shaped plate and cover for culturing, recovering, and re-suspending recovered microbial colonies and a second triangular-shaped plate comprising a non-liquid medium cut with concentric trenches over which the re-suspended microbial colonies are distributed by centrifugation and contacted with antimicrobial strips or disks.

A packed-bed bioreactor system for culturing cells is provided, the system including a cell culture vessel having at least one interior reservoir, an inlet fluidly connected to the reservoir, and an outlet fluidly connected to the reservoir; and a cell culture matrix disposed in the reservoir. The cell culture matrix includes a structurally defined multi-layered substrate for adhering cells thereto, and each layer of the multi-layered substrate has a physical structure and a porosity that are substantially regular and uniform.

A fixed-bed bioreactor system is provided that includes a vessel with a media inlet, a media outlet, and an interior cavity disposed between and in fluid communication with the media inlet and media outlet. The vessel further includes a cell culture substrate disposed in the interior cavity between the media inlet and the media outlet in a packed-bed configuration, the cell culture substrate including a plurality of porous disks in a stacked arrangement. The interior cavity includes a cell culture section and a spacer section, the cell culture substrate defining the cell culture section and the spacer section being disposed between the cell culture section and the media outlet, and each of the plurality of porous disks has a surface configured to culture cells thereon.

An exposure unit is used in order to expose a gas-phase substance to a cell in a buffer solution. The exposure unit includes a base body. The base body has a groove formed in the base body so as to be exposed to an outside and retaining the cell together with the buffer solution, and a first storage portion connected to one end of the groove and storing the buffer solution to be supplied to the groove.