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Drug development toxicity studies

The partition coefficient and aqueous solubility are properties important for the study of the adsorption, distribution, metabolism, excretion, and toxicity (ADME-Tox) of drugs. The prediction of the ADME-Tox properties of drug candidates has recently attracted much interest because these properties account for the failure of about 60 % of all drug candidates in the clinical phases. The prediction of these properties in an early phase of the drug development process could therefore lead to significant savings in research and development costs. [Pg.488]

Preclinical drug development also involves animal testing [61]. Data from one rodent species and one nonrodent species are usually collected to determine the absorption, metabolism, and toxicity characteristics of the compound. Both short-term (2 weeks to 3 months) and long-term (up to several years) studies are done. The long-term studies are particularly useful for... [Pg.771]

The costs of drug development increase as a drug progresses through the development pipeline. Preclinical development is the time when chemical compounds are tested in the laboratory to learn as much as possible about how medicines work "in a test tube." These types of experiments can be done with many compounds in a relatively short time and with relatively low cost. This is also the time that animal testing begins to see whether the chemical compounds are safe. These studies help scientists to determine how medicines will be dosed in humans. They are also important to understand whether any toxicity is related to the medicines. Toxicological tests are time... [Pg.94]

When reduced survival is related to factors other than excessive toxicity, the number of animals at risk for tumor development may be inadequate, and the validity of the study may be compromised even in the absence of a drug effect on survival. Obviously, the adjustments described above for excessive, drug-related toxicity are not relevant to this situation. [Pg.308]

For in vitro toxicity studies and assessment of the barrier function, drug transport, cell physiology, and metabolism as well as the development of delivery systems, cell culture models provide powerful systems for scientific research. As the corneal epithelium is the main barrier for ocular penetration, various corneal epithelial cell cultures were established besides the corneal constructs that mimic the whole cornea and serve as reductionist models for the ocular barrier. In general, two types of cell culture models are available primary cell cultures and immortalized, continuous cell lines. [Pg.290]

The use of animals for pharmacological and toxicological studies has yielded invaluable information for drug development. However, many drug candidates failed in Phase I and II clinical trials because the animal models were insufficient to represent human systems and functions for some drugs. Efficacy and acceptable toxicities derived from animal models were not replicated in humans (Exhibit 5.8). In recent years, the direction in development of drugs has shifted toward the use of ex vivo, in vitro assays and even in silico methods. Nevertheless, some tests must stiU be confirmed in animals. [Pg.158]

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