DE102015202402B3 - Cell culture plate - Google Patents

Abstract

The invention relates to a cell culture plate (10) having at least one well-shaped depression (well) (12) for receiving cell culture inserts (20) and liquid medium. The cell culture plate is characterized in that the depression (12) has at least one pedestal (30) that can be assigned to the receptable cell culture inserts (20), so that a local distance space is created by a predeterminable spacing of the pedestal (30) from a cell culture insert (20) inserted there (36) between pedestal (30) and cell culture insert (20) can be formed.

Description

The invention relates to improved cell culture plates for the in vitro cultivation of biological cells and tissues as well as to improved culture methods using such cell culture plates.

Cell culture plates, also referred to as microtiter plates or multiwell plates, are known for the cultivation of biological cells or tissues both in the laboratory and in particular in automated production of artificial biological tissue ("tissue engineering"). These have an outer, generally rectangular and dimensionally standardized frame and usually contain several regularly arranged wells, so-called "wells", for receiving cell culture medium wherein biological cells or tissue pieces can be incubated and cultivated in parallel approaches side by side ,

A particular variant of this is a cell culture plate with cup-shaped cell culture inserts which can be used therein, the so-called "inserts". These cell culture inserts have on the bottom side usually a semi-permeable membrane or a network, for receiving biological cells or tissue. The cell culture inserts are each introduced into the wells of this cell culture plate. Cultured biological cells or tissues are then both on the top and on the bottom directly in contact with cell culture medium and can be supplied by these among others with nutrients, with cell culture medium within the respective cup-shaped cell culture insert on the one hand and with cell culture medium in the well Cell culture plate on the other hand. Advantageously, these cell culture inserts, together with the biological cells or tissues cultured therein, can be easily removed from the cell culture plate and otherwise processed.

Cell culture plates for receiving such cell culture inserts thus have clear advantages in the cultivation of cells and tissue compared to such multiwell plates, wherein the cells or tissues are cultivated directly on the bottom of the respective well. However, in particular in connection with the automatic assisted rebuilding of tissue structures from isolated single cells, known arrangements of cell culture plate and cell culture inserts still have disadvantages in practical application: it has especially in the handling of a cell culture plate filled with cell culture medium and / or a necessary change or replacement of cell culture medium proved to be particularly disadvantageous that the cells and tissue cultivated in the cell culture inserts are mechanically impaired by occurring local currents and turbulence of the medium or even fall dry at times. The latter leads, in particular by the capillary forces on the membrane of the insert, by the lack of buoyancy of the cells in the medium and / or by the interrupted nutrient supply and buffer effect of the medium to considerable damage or adverse effects on the cells or tissues. However, since transports and the regular change of media are generally necessary for the cultivation of the cells or tissues, it is desirable to be able to carry out these measures in these cell culture systems gently and without substantial impairment of the cultured cells or tissue.

For the change of media usually lowerable pipettes are immersed in the wells of the cell culture plate, with machine processing by pipetting and aspirated the cell culture medium or flushed fresh medium. The formation of air bubbles or foam must also be prevented. However, the problem here is that, especially at the cell culture inserts, especially in the area of the bottom-side membrane, in particular because of their porous structure, air bubbles form and remain trapped there even after the media change persistently. This leads to a local media and thus nutrient undersupply of the biological cells and tissue, which can lead to the death of the entire piece of tissue as the culturing period progresses. In conventional systems, if such air bubbles are to be avoided or eliminated, high purge rates must be used to eliminate the dropped air bubbles and trapped air due to purge pressure. However, this is, as stated above, mechanically very stressful for the cultured cells or tissues.

In addition, it has been shown that in known cell culture systems of this kind, the process times for the medium changes may be too long and / or the volumes to be exchanged too large.

The invention was based on the technical problem of improving known cell culture plates for receiving cell culture inserts in such a way that the abovementioned disadvantages can be eliminated and improved, and also alternative cultivation conditions can be created for cells and tissues cultured therein.

The technical problem is completely solved by the provision of a novel designed cell culture plate, suitable for the inclusion of known cell culture inserts for the cultivation of biological cells or tissues, having the features of claim 1

The invention in this first aspect is a cell culture plate having at least one trough-shaped depression (well) for the reception of cell culture inserts (inserts) and liquid cell culture medium. According to the invention, this is characterized in particular by the fact that the at least one depression has one or more pedestals which can each be assigned to the cell culture inserts which can be accommodated in the recess. In each case one (1) usually cup-shaped cell culture insert element is exactly one (1) pedestal in the cell culture plate assigned to the depression. In an alternative embodiment, one (1) cell culture insert in the cell culture plate is associated with a plurality of pedestals of the well, but preferably arranged in a group. In a further alternative embodiment, a plurality of cell culture inserts, preferably arranged in a group, in the cell culture plate are associated with precisely one (1) pedestal of the well.

According to the invention, the pedestal and the receptive cell culture insert are now spaced apart from one another such that a local distance space can form between the top side of the pedestal and the bottom side of the cell culture insert when the cell culture insert is inserted there into the cell culture plate. The distance, and thus the size of the local distance space, is predeterminable or adjustable by the structural dimensioning of the cell culture plate and the pedestal.

The invention provides in particular that the local distance space formed by the spacing of pedestal and ingestible cell culture insert can absorb liquid cell culture medium due to the known co-operation of cohesive and adhesive forces, according to the invention independent of the actual level of cell culture medium in the well itself. Advantageously, can be effectively suppressed or prevented by the stationary liquid meniscus formed there from culture medium, especially during transport and especially when changing the medium in the well, a mechanical impairment of the cells or tissue and also the adverse dry traps. It turns out that this distance space represents a flow obstacle, which creates a local "calming zone" and can effectively reduce or completely suppress adverse swirling of the cell culture medium in the area of the membrane of the ingestible cell culture insert. In this way, the cell culture plate according to the invention by the pedestal allows a gentler and more reliable cultivation of biological cells and tissues in the cell culture inserts.

The volume of the liquid meniscus which can be formed in each case in the local distance space can be determined by selecting the spacing of the pedestal and the receptive cell culture insert. The fluid meniscus that can be formed in a local distance space preferably has a volume of 100 to 350 μl, more preferably of 150 to 250 μl.

The liquid meniscus in the local distance space, which can be generated according to the invention, is advantageously a residual volume which remains at the membrane of the cell culture insert with the required medium change from the depression of the cell culture plate so as to cause mechanical, physical and / or chemical disturbances on the tissue, which otherwise would be accompanied by a change of medium , as it were "buffering". On the other hand, the liquid meniscus of the present invention allows to work with small volumes below the membrane of the cell culture insert in order to efficiently and quickly carry out, for example, staining and drug testing since only a small volume, preferably up to 350 μl, is used or exchanged below each cell culture insert got to. The small volume of liquid below the cell culture insert also allows novel tests with high temporal resolution, as this small volume of liquid is quickly exchangeable.

Alternatively or additionally, the cell culture plate thus allows the bottom-side application of cell culture medium only in the region of the distance space formed, with the remainder of the well of the cell culture plate, in which the cell culture insert is suspended, remaining unfilled. This is particularly interesting in connection with the application of solid substances and active substances to the biological cells and tissue from the underside of the cell culture insert, since due to the small volume of the distance space, a rapid change of media, for example by pipetting, can take place and / or simultaneously only one low culture media must be used. For example, in connection with the testing of tissue models and examination of substances for tissue effects, for example possible toxic properties, can be carried out with the cell culture plate according to the invention particularly simple and efficient staining with the so-called MTT essay, with a particularly small volume of MTT reagent under can be given to the cell culture insert. According to the invention, this can preferably be restricted to a volume of about 100 to 350 .mu.l, whereas in current cell culture plates, in some cases several milliliters of a reagent must be added to the entire well in order to sufficiently wet the cells and tissue in the cell culture inserts.

Cell culture inserts which can be used according to the invention are known per se, and have on the bottom side a cell culture membrane or network, on which the biological cells or tissue rest during the incubation and cultivation, and optionally can adhere. Multiple cell culture inserts may be grouped together in a frame. Inserts for cell culture plates thus consist in particular of a frame and a plurality of cup-shaped cell culture inserts arranged in series; Frame and cup-shaped cell culture inserts are particularly integrally formed, for example as an injection molded part, with cell culture membranes used therein. The inclusion of the cell culture insert in the cell culture plate is carried out individually or in particular in the form of a plurality of rows of cell culture inserts arranged in rows in a common frame. The cell culture or the inserts are placed in a first embodiment in the cell culture plate or in particular mounted on a formed on the cell culture insert frame member. Alternatively, it is provided to clamp the cell culture insert or the individual cells, individually or in a frame, into the cell culture plate and to hold it in a form-fitting and preferably frictionally engaged manner. For this purpose, the cell culture insert itself or its frame can have, in particular, an oblique chamfer or a conical shape which engages with a counter-structure of the cell culture plate.

It is preferred that the top of the pedestal is adapted in shape to the shape of the underside, especially the culture membrane, of the respective cell culture insert. Therefore, the pedestal preferably has substantially the shape of a cylinder or truncated cone with a preferably circular cut surface which forms the top thereof. The top of the pedestal is preferably oriented parallel to the bottom of the cell culture plate. In an alternative embodiment, especially in cell culture inserts with rectangular or square bottom, the pedestal essentially has the shape of a cuboid, cube or a truncated pyramid with a preferably rectangular or square cut surface. Further derived, combined or extended embodiments are also the subject of the invention.

The cell culture plate according to the invention thus allows a strong reduction of the process times by a faster exchange of culture medium or of test reagents. In this connection, the cell culture plate according to the invention also allows cell culture to be carried out in one and the same cell culture plate using the total volume of the cell culture plate and subsequently or in an intermediate step to reduce the liquid volume to the fluid meniscus, there by means of test reagents and similar tests Perform live staining without having to change the cell culture plate or need to be replaced.

In a preferred embodiment, the pedestal on the top side at least one spacer (spacer) for determining / fixing the distance of the cell culture insert can be accommodated there from the pedestal. The spacer or spacers are preferably arranged on the circumference of the pedestal. Preferably, at least two opposing spacers are provided on the pedestal, more preferably four opposing spacers.

In a particular embodiment, six or more spacers are arranged in a circle on the circumference of the pedestal. It is provided that between the spacers only a narrow channel remains, what the volume within the distance space communicates with the volume outside the distance space, that is, with the remaining volume of the recess. By arranging the spacers and the spacing of these to each other, the degree of fluid exchange and thus the flow obstacle between the liquid meniscus formed in the distance space and the surrounding volume can be adjusted in the recess. At the same time or alternatively, the volume of the fluid meniscus in the distance space, in particular in conjunction with the surface properties of pedestal and spacer, the capillary properties and the interaction of cohesive and adhesive forces, can be determined in this way.

In addition to the function as a spacer for determining the distance, this may serve, in particular in cooperation with another, at least opposite spacer, in addition to the fixation and / or positioning of the recordable cell culture insert. For this purpose, the spacer can as such "snap-fit" into a corresponding structure in the cell culture insert and thus fix the position In a preferred embodiment, at least one, preferably at least two, opposing spacers form a shoulder or a shoulder, in which the insertable cell culture insert can be held positively in a form-locking manner, preferably at its lower peripheral edge with the mechanical handling of the cell culture plate in the fully automated production and / or testing of biological tissues is a significant improvement over previous cell culture plates with cell culture inserts, wherein, for example, the safety g the position or the centering of the cell culture inserts the wells of the cell culture plate by special structural means must be carried out on the cell culture inserts themselves. However, it has been shown that these structural measures on the cell culture inserts themselves make their handling more difficult. In contrast, the cell culture plate according to the invention allows the use of simpler structured cell culture inserts in standard form. Compared to known systems for positioning of cell culture inserts in cell culture plates, this new system thus also has the advantage that, despite an extended functionality, common cell culture inserts can be used unchanged in order to achieve the technical advantage according to the invention.

The invention further provides that, depending on the field of application, technical problem or stage of cultivation, one and the same cell culture insert in which the biological cells or tissue are currently being cultured, in each case different cell culture plates according to the invention are used, in particular by the spacing of the pedestals to the Cell culture inserts - and thus in the size of the local distance space and there formed fluid meniscus - different.

The invention also provides a cell culture plate, wherein the at least one pedestal has at least one lateral extension at least on the upper side, which projects beyond the cross section of the pedestal hidden by the ingestible cell culture insert and thus allows direct access from above to the distance space under the cell culture insert. The lateral extension thus offers access, for example via a pipetting robot, from above, laterally past the inserted cell culture insert, to the liquid meniscus in the local distance space under the cell culture insert. The extension may be formed at a single location on the pedestal, but may also be formed at several locations on the perimeter of the pedestal. Alternatively, this extension may also be formed as a circumferential annular zone of the pedestal, outside the area of the top of the pedestal covered by the cross-section of the inserted cell culture insert. In this case, the diameter of the pedestal is simply greater than the diameter of the cell culture insert used there.

A simple adaptation of the otherwise usual travel path of a pipetting robot for exchanging cell culture medium from the entire well now makes it possible to directly access or exchange liquid in the distance space without having to make complex structural adjustments or demands on the pipetting robot. Only the immersion depth of the pipette tip must be adjusted to the height of the pedestal. Particularly preferably, the at least one extension is located at the point at which recesses for the access of pipette tips to the bottom of the recess of a standard culture plate are provided in conventional cell culture plates and cell culture inserts.

In a preferred embodiment, this extension can expand and set the volume of the liquid miniscus formed in the spacer space by appropriate dimensioning. Here, the invention also takes advantage of the interaction of adhesion and cohesion of the liquid on the surfaces of the cell culture plate and the cell culture insert. Depending on the application target and field of application of the cell culture plate, the volume of the fluid meniscus below the cell culture insert can be predetermined in addition or alternatively to the choice of the distance of the cell culture insert from the pedestal.

The invention also contemplates, alternatively or additionally, determining the volume of the fluid meniscus beneath each cell culture insert by adjusting the hydrophobicity and thus the wetting angle of the respective surfaces, particularly the surface of the pedestal. By changing the wetting angle, the volume of the liquid meniscus can be adjusted. It is understood that the cell culture plate is essentially suitable and intended for use with aqueous media. A transfer of the conditions to the use of oily media and the resulting surface properties can now readily be adapted by those skilled in the art, having regard to the teaching described herein.

In a particular embodiment of the invention, the cell culture plate in the side wall forming the trough-shaped depression has at least one separate access, which preferably extends to the bottom of the depression. Via this access, the at least one depression of the cell culture plate can be emptied or filled from the outside, without having to otherwise open the cell culture plate. For example, a lid applied to protect the culture on the cell culture plate may remain. The invention provides in particular that the at least one access is arranged at least or exclusively on the short end face of the usually rectangular cell culture plate. By positioning the access on the short side, the plate can continue to be handled with commercially available gripping systems, particularly in automated processes.

The invention also relates to a method for culturing biological cells or tissues in vitro in or on a cell culture insert, which is used in a well of a cell culture plate according to the invention, wherein the method is characterized in that liquid cell culture medium during the cultivation of the biological cells or tissue as level-independent liquid meniscus between the cell culture insert and the pedestal of the cell culture plate is maintained. Preferably, liquid cell culture medium is kept in the form of a fluid meniscus only in the distance space between cell culture insert and pedestal; more preferably, no cell culture medium is located at the bottom of the well of the cell culture insert outside the pedestal.

Alternatively or additionally, the method according to the invention for culturing biological cells or tissues in vitro in the cell culture plate according to the invention comprises at least one process of media change of liquid cell culture medium; in a first step of the medium change, existing cell culture medium is removed from the bottom of the well and in a subsequent step Step filled fresh cell culture medium in the well, wherein in both steps, that is, even after removing the cell culture medium from the bottom of the well and before filling the fresh cell culture medium always a liquid meniscus of the cell culture medium between cell culture insert and pedestal of the cell culture plate remains.

The invention also provides for the use of a base-side pedestal in a depression of a cell culture plate according to the invention for the purpose of forming a fluid meniscus independent of the media fill level of the well under a cell culture insert insertable into the depression. In particular, it is provided that the volume of the liquid meniscus which can be formed in the local distance space can be predetermined by the choice of the height of the spacer on the pedestal to the receptive cell culture insert.

The invention will be described in more detail by the following embodiments, without these being limiting.

1 shows an oblique view of a first embodiment of the cell culture plate 10 in a special form with a single trough-shaped depression 12 for receiving cell culture inserts. From the bottom of the depression 12 protrude regularly arranged podiums 30 up. At every podium 30 Here are four pairs of opposing spacers 32 educated. In addition, the pedestals point 30 at least on the upper side one lateral extension each 38 on. In addition, the cell culture plate 10 an access 16 to the trough-shaped depression 12 on.

2 Shows a sectional view of the cell culture plate 1 in which cell culture inserts 20 are used. The podiums 30 are in or on the ground 14 the depression 12 educated. The bottom side 22 of the cell culture insert is in the inserted state on the on the podiums 30 trained spacers 32 firmly from the pedestals 30 spaced so that is between the ground 22 of the cell culture insert 20 and from the depression 12 towering pedestal 30 a distance space 36 is formed, which contains a level-independent liquid meniscus in the ready state. Additionally is at the spacers 32 one paragraph each 34 provided with the ground 22 of the cell culture insert 20 engages the cell culture use 20 at least in a horizontal direction (laterally) to secure in the position. Not shown in this sectional drawing are those on the pedestals 30 trained lateral extensions 38 ,

3 Shows a diagonal and sectional view of the cell culture plate 10 to 1 and 2 ,

4 Shows a top view of the cell culture plate 10 to 1 . 2 and 3 ,

5 Shows schematically in plan view various embodiments of the arrangement of the spacers 32 on the pedestal 30 , In the simplest case, the connection sees at least two opposing spacers 32 before, preferably with one paragraph each 34 are provided ( 5a ). In another embodiment, a plurality of spacers are arranged on the circumference of the pedestal along a crown, wherein the intermediate space formed between the spacers are dimensioned such that thus the liquid exchange between the distance space and the environment is set ( 5c ).

Claims (14)

Cell culture plate ( 10 ) with at least one trough-shaped depression (well) ( 12 ) for the uptake of cell culture inserts (inserts) ( 20 ) and liquid medium, characterized in that the depression ( 12 ) at least one of the ingestible cell culture inserts ( 20 ) assignable pedestal ( 30 ), so that by a predeterminable spacing of the pedestal ( 30 ) from a cell culture insert used there ( 20 ) a local distance space ( 36 ) between pedestal ( 30 ) and cell culture insert ( 20 ) can be formed. Cell culture plate ( 10 ) according to claim 1, wherein the pedestal ( 30 ) at least one spacer ( 32 ) for determining the spacing. Cell culture plate ( 10 ) according to claim 2, wherein at least one spacer ( 32 ) on the pedestal ( 30 ) additionally at least one paragraph ( 34 ) to lateral fixation and positioning of the ingestible cell culture insert ( 20 ) at least on this pedestal ( 30 ) having. Cell culture plate ( 10 ) according to claim 3, wherein at least two opposing spacers ( 32 ) one paragraph each ( 34 ), which with the circumference of the bottom side ( 22 ) of the ingestible cell culture insert ( 20 ) can be engaged to fix this. Cell culture plate ( 10 ) according to one of the preceding claims, wherein in the distance space ( 36 ) each locally a liquid meniscus of a liquid medium regardless of the level of the liquid medium in the recess ( 12 ) is itself durable. Cell culture plate ( 10 ) according to claim 5, wherein the volume of the liquid meniscus of the liquid medium is determined by predetermining the spacing of the pedestal ( 30 ) from the cell culture insert ( 20 ) is determinable. Cell culture plate ( 10 ) according to any one of the preceding claims, wherein the pedestal ( 30 ) at least one lateral extension ( 38 ), which exceeds that of the ingestible cell culture insert ( 20 ) concealed cross section of the pedestal ( 30 protrudes and so access from above on the distance space ( 36 ). Cell culture plate ( 10 ) according to claim 7, wherein the volume of the in the local distance space ( 36 ) can be formed by the sizing of the lateral extension ( 38 ) of the podium ( 30 ) is predeterminable. Cell culture plate ( 10 ) according to any one of claims 5 to 8, wherein in the local distance space ( 36 ), the fluid meniscus that can be formed has a volume of 100 to 350 μl. Cell culture plate ( 10 ) according to any one of the preceding claims, wherein each individual pedestal ( 30 ) exactly one cell culture insert ( 20 ) assigned. Use of a ground-based pedestal ( 30 ) in a depression ( 12 ) a cell culture plate ( 10 ) for forming a level-independent local liquid meniscus of liquid medium under one in the depression ( 12 ) usable cell culture insert ( 20 ). Use according to claim 11, wherein the volume of the liquid meniscus is defined by the height of a spacer ( 32 ) on the pedestal ( 30 ) for spacing the ingestible cell culture insert ( 20 ) is determinable. Method for cultivating biological cells or tissues in vitro in a cell culture insert ( 20 ) inserted in a recess ( 12 ) characterized in any one of claims 1 to 10 cell culture plate ( 10 ), characterized in that in the recess ( 12 ) liquid cell culture medium as a level-independent liquid meniscus of cell culture medium in a local distance space ( 36 ) between cell culture insert ( 20 ) and pedestal ( 30 ) of the cell culture plate ( 10 ) is held. Method according to claim 13, comprising at least one process of changing the medium of the liquid cell culture medium, wherein, in a first step of the medium change, old cell culture medium present from the soil ( 14 ) of the depression ( 12 ) and in a subsequent step fresh cell culture medium into the well ( 12 ), wherein during both steps there is always a fluid meniscus of the medium in the local distance space ( 36 ) between cell culture insert ( 20 ) and pedestal ( 30 ) remains.

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