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In Vitro Toxicology Information

In vitro toxicity testing is the scientific analysis of the effects of toxic chemical substances on cultured bacteria or mammalian cells. In vitro (literally 'in glass') testing methods are employed primarily to identify potentially hazardous chemicals and/or to confirm the lack of certain toxic properties in the early stages of the development of potentially useful new substances such as therapeutic drugs, agricultural chemicals and direct food additives that may or may not taste good.

In vitro assays for xenobiotic toxicity are recently carefully considered by key government agencies (e.g. EPA; NIEHS/NTP; FDA), mainly due to a societal movement to reduce the use of animals in research, and a desire to better assess human risks. There are substantial activities in using in vitro systems to advance mechanistic understanding of toxicant activities, and the use of human cells and tissue to define human-specific toxic effects.

Contents

Supplement to animal testing

Most toxicologists believe that in vitro toxicity testing methods can be a useful, time and cost-effective supplement to toxicology studies in living animals (which are termed in vivo or "in life" methods). However, it is generally accepted that the available in vitro tests are not presently adequate to entirely replace animal toxicology tests.

Due to regulatory constraints and ethical considerations, the quest for alternatives to animal testing has gained a new momentum particularly in the cosmetics industry. In certain cases the in vitro tests are not only second choice replacements of a ‘gold standard’ animal test but can also be used to develop safer products.

A case study on on the commercial fragrance chemical Azurone confirmed the animal test result.[1]

A 96-well microtiter plate being used for ELISA.

Example cell viability (cytotoxicity) assays used for In-vitro toxicology

Many methods of analysis exist for assaying test substances for cytotoxicity and other cellular responses.

MTT

MTT assay is used often in determining cell viability and has been validated for use by international organisations. MTT assay involves two steps of introducing the assay to the chemicals and then a solubilisation step

MTS

The colourimetric MTS (3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2Htetrazolium) in vitro assay is an updated version of the validated MTT method, MTS assay has the advantage of being soluble and hence no solubilisation step is required.

ATP

ATP assay has the main advantage of providing results quickly (within 15 minutes) and only requires fewer sample cells. The assay performs lysis on the cells and the following chemical reaction between the assay and ATP content of cells produces luminescence. The amount of luminescence is then measured by a photometer and can be translated into number cells alive since

Neutral Red

Another cell viability endpoint can be Neutral Red uptake. Neutral Red(NR), a weak cationic dye penetrates cellular membranes by non-diffusion and accumulates intercelluarly in lysosomes. Viable cells take up the NR dye, damaged or dead cells do not.

Enzyme-linked immunosorbent assay (ELISA)

ELISA kits can be used to examine up and down regulation of proinflammatory mediators such as cytokines (IL-1, TNF alpha, PGE2)....

Measurement of these types of cellular responses can be windows into the interaction of the test article on the test models (monolayer cell cultures, 3D tissue models, tissue explants).

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References

  1. ^ Use of in vitro testing to identify an unexpected skin sensitizing impurity in a commercial product: A case study

Categories: Toxicology

 

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