A cell culture device is provided, which comprises a cavity and a base layer, wherein the base layer is a type of plastic thin film and has a thickness of 1 μm to 100 μm; a second-moment of inertia lower than 6×10.sup.6 μm.sup.4; and a resultant flexural rigidity of 1×10.sup.−6 Pa.Math.m.sup.4 to 0.02 Pa.Math..sup.4. Accordingly, the base layer can produce an out-of-plane strain, and bending deformation can occur. Therefore, a growth space close to in vivo environment is provided by the base layer for the cells when the cells attach to the base layer, thereby promoting the growth and maturation of the cells and tissues.

An incubation cassette for reducing liquid evaporation from wells of a microplate with a frame for receiving a microplate with wells, the frame having a central first opening surrounded by an inner wall, the dimensions are designed for inserting a microplate, and the frame having an outer wall that runs essentially parallel to the inner wall and which is attached to the inner wall connects so that a liquid reservoir surrounding the first central opening for receiving a liquid is formed by the two walls and the intermediate base is disclosed. The incubation cassette also includes a float provided in the liquid reservoir that can be brought into fluid contact with the liquid held in the liquid reservoir in such a way that the float is in relation to the liquid level of the liquid in the liquid reservoir absorbed liquid experiences buoyancy.

The invention relates to a cell culture device for a three-dimensional cell culture with one or more cell culture units, characterized in that a cell culture unit comprises: i. at least one matrix holder, with a central opening for uptake of a matrix; ii. a support, which is fixedly or reversibly connected to the at least one matrix holder; and iii. a well strip, consisting of a vessel with at least one cavity, which can comprise at least one matrix holder up to the upper end of the central opening or more, wherein the matrix holder is vertically oriented.

Example embodiments include a cell culture apparatus, methods for cell cultivation by using the cell culture apparatus, and a cell culture incubator comprising the cell culture apparatus. The cell culture apparatus comprises a plurality of cell culture modules arranged adjacent to each other. Each cell culture module comprises two or more culture medium reservoirs connected by two or more flow channels that go through a basal chamber arranged under an apical chamber. The apical and basal chambers are separated by a porous membrane. The basal chamber has a bottom part arranged higher than a bottom part of each of the culture medium reservoirs. The culture model comprises further a cavity under at least the bottom part of the basal chamber and at least one means for capturing at least one image from a bottom and/or top of the at least one cell culture module.

A bioreactor device includes a solid substrate having a first face and a second face. The solid substrate at least partially defines a perfusion channel, a plurality of chambers, a fluidic inlet, and a fluidic outlet. A first sheet disposed over the first face and a second sheet disposed over the second face. Characteristically, the combination of the solid substrate, the first sheet and the second sheet define the perfusion channel and each chamber of the plurality of chambers. The plurality of chambers are arranged in rows of chambers in which adjacent chambers are positioned at opposite side of the perfusion channel. The perfusion channel extends from the fluidic inlet and the fluidic outlet having a serpentine path along each row of chambers with each chamber being in fluid communication with the perfusion channel.

[Problem] An object of the present invention is to produce cancer cell clusters with intrinsic biological properties as cancer tissues, such as morphological polarity and tissue motion polarity, in vitro. [Solution] The present invention relates to a cell culture substrate including a base material and a biocompatible polymer layer, the substrate including a plurality of rough sections on the surface of the substrate, wherein the rough sections are not covered with the biocompatible polymer layer, have a predetermined surface structure with a predetermined shape, and are disposed at predetermined intervals. With the present invention, it is possible to obtain a live cancer cell aggregate having morphological polarity and tissue motion polarity similar to that observed in vivo, by a very easy operation of culturing cancer cells on a cell culture substrate having a predetermined structure, thereby performing live imaging of microtumors in vitro is enabled, which has been conventionally impossible. Moreover, since such a cancer cell aggregate is considered to reproduce a series of flow of development, proliferation, infiltration, metastasis, and recurrence of cancer in vivo, the cancer cell aggregate can be utilized as a research tool in cancer research, or for screening for an anticancer drug.

Provided is a cell culture test device including a plurality of well units. Each of the well units includes an inlet portion through which a first fluid and a second fluid are introduced and a bottom portion including a first sub-well in which the first fluid is accommodated. A first stepped portion protrudes toward the center of the well unit along the circumference of the inner wall of the well unit such that the well unit has a lower portion whose inner width is smaller than that of an upper portion at the inlet portion side.

The disclosure relates to multi-well plates having fluidic connections between neighboring wells that are useful to produce a cell culture substrate and compliant with American National Standards Institute of the Society for Laboratory Automation and Screening (ANSI/SLAS) microplate standards

Provided is a culture chamber that includes a plurality of recesses each formed of a bottom portion and an opening portion. The bottom portion has a hemispherical shape or a truncated cone shape. The opening portion is defined by a wall that surrounds an area from a boundary between the opening portion and the bottom portion to an end of each of the recesses, the wall having a taper angle in a range from 1 to 20 degrees. An equivalent diameter of the boundary is from 50 μm to 2 mm and a depth from a bottom of the bottom portion to the end of each of the recesses is from 0.6 or more times to 3 or less times the equivalent diameter, and the wall defining the opening portion forms a surface continuous to the bottom portion. An inclination of the continuous surface changes at the boundary.

A bench top incubator is described. The bench top incubator includes a first tray stack designed to retain microscope slides in a plurality of slide trays and a second tray stack designed to retain multi-well plates in a plurality of plate trays. The incubator is relatively simple and small in design and can be conveniently located to carry out temperature processing of biological samples such as fixed cells and tissues, biological fluids, and so forth.