Animal models and studies

Taken together, the identification of mast cell hyperplasia and mediator release at sites of tissue fibrosis and wound healing, observations in animal models, and study of the actions of mast cell products, has provided much circumstantial evidence that mast cells are involved in tissue remodelling, healing and fibrosis. It is unlikely that mast cells are essential in these responses, but more likely that they augment them. Complex interactions between different connective tissue components, mast cells and other inflammatory cells are likely to operate, and are unlikely to be fully delineated in humans in vivo. It seems reasonable to hypothesize however that initial mast cell mediator release has the potential to activate fibroblasts, which may then promote the recruitment at d proliferation of further mast cells, explaining the mast cell hyperplasia often witnessed at sites of chronic inflammation. 

Three major types of research have emerged (Levy et al., 1995) epidemiological studies involving patients with various malignancies, studies on the direct effect of lycopene on the proliferation of various tumors in cell lines and in animal models, and studies on the biochemical and immunological mechanisms of lycopene action. 

The last step of the drug discovery process involves the testing of lead compounds to address issues such as efficacy, bioavailability, and safety. Testing may include in vitro assays but ultimately would require a suitable disease model and studies in animals. Many compounds may need to be designed and synthesized to identify the one compound with all the desired properties. Such a compound can be advanced to preclinical studies and eventually to the clinic. 

Insights from the clinic, animal models, and lesion studies... 

As in the case of other cardiovascular diseases, the possibility of antioxidant treatment of diabetes mellitus has been studied in both animal models and diabetic patients. The treatment of streptozotocin-induced diabetic rats with a-lipoic acid reduced superoxide production by aorta and superoxide and peroxynitrite formation by arterioles providing circulation to the region of the sciatic nerve, suppressed lipid peroxidation in serum, and improved lens glutathione level [131]. In contrast, hydroxyethyl starch desferrioxamine had no effect on the markers of oxidative stress in diabetic rats. Lipoic acid also suppressed hyperglycemia and mitochondrial superoxide generation in hearts of glucose-treated rats [132],... 

Safety Pharmacology. It is important to investigate the potential for unwanted pharmacological activity in appropriate animal models and to incorporate monitoring for these activities in the toxicity studies. 

CNTs have been studied for cancer therapies despite the fact that these have been shown to accumulate to toxic levels within the organs of diverse animal models and different cell lines (Fiorito et al., 2006 Tong and Cheng, 2007). The molecular and cellular mechanisms for toxicity of carbon nanotubes have not been fully clarified. Furthermore, toxicity must be examined on the basis of multiple routes of administration (i.e., pulmonary, transdermal, ocular, oral, and intravenous) and on multiple species mammals, lower terrestrial animals, aquatic animals (both vertebrates and invertebrates), and plants (both terrestrial and aquatic). A basic set of tests for risk assessment of nanomaterials has been put forward (Nano risk framework). 

Chiou WL, Jeong HY, Chung SM and Wu TC (2000) Evaluation of Using Dog As an Animal Model to Study the Fraction of Oral Dose Absorbed of 43 Drugs in Humans. Pharm Res 17 pp 135-140. 

Ethical issues as well as difficulty in obtaining enough human nasal tissue specimens have called for the need to use alternative in vitro and in vivo methods. Various in vivo animal models and in vitro excised tissue models have been described in the literature for nasal drug transport studies. However, due to the difficulty in both controlling the experimental conditions in in vivo animal models and obtaining intact excised tissue samples, in vitro cell culture models are also being actively developed. 

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