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New Cell Culture Dish Prototype

New Cell Culture Dish Prototype
Traditionally, cell culturing has taken place on a single layer of agar, or other substances, and grown under controlled conditions. The process is typically performed in an incubator and includes collecting the cells, growing them in the culture medium, and then transferring them to a different dish on a regular basis. However, there are some advances in the way that culturing can be performed. For example, a new cell culture dish has been developed to reduce the amount of plastic waste generated during the culturing process. This new dish is made of a high-quality polystyrene material that provides a sterile environment for cells. In addition, the outer shell of the prototype is a net-like PLA structure, allowing for easy handling.
The prototype has three culture layers that fit into one another, reducing the overall volume of the dish. This means that the total volume of the dish is only a fraction of that of a conventional three-dish petri dish. The less voluminous dish also reduces the amount of biohazardous plastic waste that would be generated during the culturing process. It is therefore convenient and economical to use this new culture dish.
The prototype has a structural outer shell, a lid that covers the layers, and a vented lid that allows for consistent gas exchange. This is beneficial because it allows for easy access to the cells when the lid is removed. The lid also contains stacking rings for improved stability.
The lid was inserted into the dish after the cell medium had been added. This allows for the agar and other ingredients to be dissolved in warm water and added to the dish. This provides an environment that is conducive to cell growth and adhesion. The cell culture medium is then left for hours to allow for agglomeration. The cells are then trypsinized after 72 hours. This method is referred to as monolayer culturing. It has been the predominant cell culturing technique for decades. It has a few advantages over other methods of culturing, such as low processing temperatures and relatively low crystallinity.
The average cell density was measured at 72 hours after culturing. The number of cells per mm2 was calculated using one-way ANOVA. No statistical differences were found between the prototype and the control in terms of the percentage of live cells or the average cell density.
The difference in weight between the prototype and the controls is significant. The prototype weighs about 61% less than the control. This is due to the thin culture layers used in the prototype. The thickness of the culture layers is 200 mm. This is similar to the thickness of a traditional bacteriological Petri dish.
The prototype also contains a structural outer shell that provides rigidity and reduces the surface area of the dish. This design is also beneficial because the outer surface of the culture medium is a flat and distortion-free surface for cell attachment. The bottom of the culture medium is also uniformly molded. This provides a distortion-free, sterile surface that is easy to clean and enables cell growth.

Cell Culture Dish

Variant No.

Name

Model

Grip ring type TC processing

Package specification

1020100

Cell culture dishes

35mm

Yes

No

10pcs/pack, 50packs/box

1021010

Cell culture dishes

60mm

Yes

No

10pcs/pack, 50packs/box

1022010

Cell culture dishes

100mm

Yes

No

10pcs/pack, 50packs/box

1022110

Cell culture dishes

100mm

No

No

10pcs/pack, 50packs/box

1023010

Cell culture dishes

150mm

Yes

No

200pcs/box

1020100

Cell culture dishes

35mm

Yes

Yes

10pcs/pack, 50packs/box

1024100

Cell culture dishes

60mm

Yes

Yes

10pcs/pack, 50packs/box

1022100

Cell culture dishes

100mm

Yes

Yes

10pcs/pack, 50packs/box

1022100

Cell culture dishes

100mm

No

Yes

10pcs/pack, 50packs/box

1023000

Cell culture dishes

150mm

Yes

Yes

200pcs/box

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