Laboratory Incubator: Prices, characteristics, uses …

November 2, 2021

The Laboratory incubator is a vital tool used to cultivate and maintain cell cultures in a stable state in order to perform the corresponding analyzes. These can come in all varieties and sizes, as well as types to suit the needs of the users. The important thing is that they can fulfill the functions of cultivating and keeping the samples safe.

The Laboratory Incubator uses a high-tech based system to carry out the incubation process, so it must have important details such as heating and cooling. You must also be able to control humidity and light, as there are certain types of crops that need a precise temperature and light.

As is well known, the Laboratory Incubator is used for research purposes in the field of biology, although it is also available in other fields of science. Development and production is perhaps another area where it is very popular, as has been seen in numerous commercials and magazines. To be able to use it, it is necessary that they go through a quality control, since not all have the same purpose.

In order to qualify for a Laboratory Incubator, it is necessary to pass the reproducibility and precision requirements of the temperature distribution and other parameters in incubators.

Next, we will talk about one of the most important laboratory tools of recent years in the field of biology. That it has been necessary to be able to study multiple areas that perhaps could not have been previously due to lack of technology. As well as the colorimeter , this cannot be missing in your repertoire of laboratory instruments. Join us!

What is the Laboratory Incubator?

The Laboratory Incubator is a tool that is intended to keep cell cultures, also known as microbiological cultures , safe. An incubator must maintain optimum temperature and humidity, as well as the CO and oxygen content in the indoor atmosphere. All these elements combined result in the growth of microbiology cultures in optimal conditions.

Air convection, whether natural or forced, maintains a constant and uniform temperature in the range of a few degrees that are in accordance with the ambient temperature. Which is up to 100 ° C.

It is normal to find the Laboratory Incubator in a wide range of shapes and sizes, since it is not only used in the field of microbiology, but it has also been used to protect some blood samples in the medical part. Small, tabletop forms of incubators with microcentrifuge tubes have been seen. These are often underutilized.

As mentioned above, they can not only be used for traditional bacterial culture, but a Laboratory Incubator can exert temperature-dependent incubations, enzymatic reactions or for reagent storage. For this reason, control programs must be quite rigorous, since an error could not only ruin the sample, but also cause a serious laboratory accident.

These cooling features will depend on some additional features that are available on the market today. In case you want to buy one, you should read well what your needs are and what it is intended for. So that it works properly.

History of the Laboratory Incubator

In history, the Laboratory Incubator has played a great role and has been given multiple uses. At some times, they have even helped hatch animal eggs. This has an explanation, and it is that scientists in their quest to understand how everything happens in the universe, wanted to understand how to develop vaccines against deadly viruses.

Incubators have been recorded as being used for the first time, many decades ago, in ancient Egypt and China. Since then, the principle of the incubator has not changed. It has always had the objective of creating a stable environment to control the sample destined for research and study.

The first incubators were used in China and Egypt to keep chicken eggs warm. This made the chicks in the eggs hatch without having to make the hen sit on them. The time saved in this process was used by the hen continuing to produce more eggs for scientific research.

Like all technology, the Laboratory Incubator has undergone major changes and updates. Thanks to Jean Baptiste it was possible to create a more modern incubator. However, it wasn’t until the 19th century that developers finally made the incubator popular in the medical field. It was experimented with cell cultures and later to keep preterm or weak babies alive.

To this day, incubators are maintained as a laboratory tool that must maintain a constant temperature at which additional features have been incorporated. Some already control humidity, which allows mixing crops. For this, they need a redundant power source, which guarantees to maintain its state even if the power goes out.

Description of the Laboratory Incubator

The incubator is a laboratory tool that consists of a chamber in which the temperature is regulated. Some of these inclusions maintain the stable gas composition and the corresponding ventilation within the aforementioned chamber. The simplest versions of the tool have a heater , which is adjustable according to the needs of what is being kept inside, and generally rises from 60 to 65 ° C. However, some easily reach 100 ° C.

Many manufacturers are working to overcome the challenges associated with incubator composition in the field of cell cultures. This to reduce pollution in the area. Some laboratory incubators already offer a high temperature decontamination cycle that works much like a self-cleaning oven. With the push of a button, you will be able to sterilize a heat to the incubator and eliminate any dangerous spills

What is the Laboratory Incubator used for?

The primary function of the Laboratory Incubator is to provide a controlled environment that is free from contaminants. So the job of maintaining cell cultures is safe. This is also used for the growth and storage of some bacterial cultures.

In general, the types and sizes of incubators seek to be an ideal laboratory tool for studying samples, and even insects or plants. The above is only possible since they have stirring systems, particular hydration ovens and sizes according to the function they are going to perform.

Although they are not laboratory, some incubators have been used to keep babies born prematurely. Providing that they find a suitable temperature while their body gradually develops. This makes it clear that no matter where it is used, all models serve the same purpose.

Laboratory Incubator Applications

The standard laboratory incubator controls the carbon dioxide content, the humidity, and in some cases the oxygen and nitrogen content. Examples of incubator applications include the following:

  • Growing cell cultures
  • Reproduction of germ colonies with subsequent counting to have a more adequate view of the problems in the food industry
  • Reproduction of microorganisms such as bacteria, fungi, yeasts or viruses
  • Baby insects and hatching from eggs in zoo
  • Controlled storage of multiple samples
  • Growth of protein crystals

Laboratory incubator requirements

The requirements that the Laboratory Incubator must have, mainly, is the stability of the temperature and its homogeneity. Living organisms react extremely sensitively to fluctuations in temperature, so it is necessary that this can be controlled in the tool. In order to ensure reproducible test results , stability and homogeneity , the quality criteria for an incubator are important. These should be checked, even if they operate with an internal fan.

The nutritional media in which the cultures are made should not be dried under any type of situation. If this happens, there is a risk that the expected test results will be completely extinguished. As well as the same crops as some are hard to come by. Therefore, the Laboratory Incubator must be optimal, since the process is not easy to carry out manually, in contrast to other types of field.

How to choose the correct Laboratory Incubator?

The size and capacity of the incubator is the first consideration you should have when choosing one for your laboratory. Consider the number of samples you want to study and investigate, and then you will know the proper volume for your incubator. The next thing is to study the ranges of temperature, humidity and CO2 . Since not all samples and cultures have the same frequency.

Finally, evaluate the capacity for uniform heat distribution and the elimination of cold spots, since one or another Laboratory Incubator may be covered by water or air.

Dr. Loony Davis5
 | Website

Born and raised in Brussels in an English family, I have always lived in a multicultural environment. After several work experiences in marketing and communication, I came to Smart Water Magazine, which I describe as the most exciting challenge of my career.
I am a person with great restlessness and curiosity to learn, discover what I do not know, as well as reinvent myself daily, someone who is curious about life and wants to know. I enjoy sharing knowledge.
This is my personal project but I also collaborate in other blogs, it is the case, the most important web on water currently exists in the US, if you are interested you can read my articles here.

Leave a Reply

Your email address will not be published. Required fields are marked *