Animal models susceptibility

Benzodiazepines and similar agents occupy a position of intermediate abuse potential, compared with most other sedative-hypnotics (Griffiths and Weerts 1997). Animal models of abuse habihty indicate that the reinforcing effects of benzodiazepines are less pronounced than are those of the barbiturates, opioids, and stimulants. Differences in abuse potential within the class have not been consistently demonstrated however, most chnicians agree that benzodiazepines with a rapid onset and short duration of action pose the greatest risk in susceptible individuals. 

Some aspects of multiple sclerosis are reflected in the animal model experimental autoimmune encephalomyelitis, which is induced by immunization of susceptible animals with appropriate encephalogenic proteins or peptides. In these animals, if cultured adult stem cell neurospheres are injected into the bloodstream, injected cells can find their way to damaged portions of the nervous system and improve function in mice. How the injected cells augmented the recovery process is unclear. One possibility is that cells recruited to the lesions differentiated into oligodendrocytes and generated new myelin sheaths, but this seems unlikely in the face of ongoing cellular destruction. 

Animal models have established that infections can induce autoimmune disease. For example, coxsackievirus B3 infection of susceptible strains of mice results in inflammation in the heart that resembles the myocarditis and dilated cardiomyopathy that occurs in humans.28 44 The same disease can be induced by injecting mice with cardiac myosin mixed with adjuvant, thereby reproducing the disease in the absence of virus infection, indicating that an active viral infection is not necessary for the development of autoimmune disease.9 29 44 Likewise, a number of autoimmune diseases can be... 

Genetically predisposed animals or induced animal models may also be used to study and predict chemical-induced autoimmunity. In induced models, a susceptible animal strain is immunized with a mixture of an adjuvant and an autoantigen isolated from the target organ. Examples are adjuvant arthritis (AA), experimental allergic encephalomyelitis (EAE) and experimental uveitis in the Lewis strain rat. Examples of spontaneous models... 

Susceptibility to tumor induction is an important criterion. There would be little justification for doing carcinogenicity studies in an animal model that did not respond when treated with a true carcinogen. Ideally, the perfect species/strain would have the same susceptibility to tumor induction as the human. Unfortunately, this information is usually unavailable, and the tendency has been to choose animal models that are highly sensitive to tumor induction to minimize the probability of false negatives. 

Comparative Toxicokinetics. The metabolism and excretion of orally administered phenol in 18 animal species have been compared to metabolism and excretion in humans (Capel et al. 1972). The rat was the most similar to the human with respect to the fraction of administered dose excreted in urine in 24 hours (95%) and the number and relative abundance of the 4 principal metabolites excreted in urine (sulfate and glucuronide conjugates of phenol and 1,4-dihydroxybenzene). The rat excreted a larger fraction of the orally administered dose than the guinea pig or the rabbit (Capel et al. 1972) and appears to be the least susceptible of the three species to respiratory, cardiovascular, hepatic, renal, and neurological effects of inhaled phenol (Deichmann et al. 1944). More rapid metabolism and excretion of absorbed phenol may account for the lower sensitivity of the rat to systemic effects of phenol. More information on the relative rates of metabolism of phenol in various species is needed to identify the most appropriate animal model for studying potential health effects in humans. 

Like practically aU living organisms, malaria parasites depend on iron for their growth and replication. This property makes them susceptible to iron deprivation, which can be induced by treatment with iron chelators as shown in in vitro cultures of P. falciparum in animal models of malaria ° and in human trials with... 

Moreover, all cells are not equally targeted in Alzheimer s disease, a disease that has discernable effects on consciousness (Perry et al., 1999). Large pyramidal cells of the frontal and temporal cortex, as well as the large pyramidal cells in CAl of hippocampus and subiculum, are the most susceptible to develop neurofibrillary tangles, to become dysfunctional and ultimately to die (Mann, 1996). It is the accumulation of abnormally hyperphosphorylated tau that disrupts the microtubular system of pyramidal cells in cortex and hippocampus both in experimental animal models and in Alzheimer s disease brain (Gong et al., 2000). 

It is important to point out that deletion of individual genes is not providing animal models for certain behavioral pathologies that are caused by a manifold of minor changes in a series of so-called susceptibility genes. To make a clinical phenotype overt, a number of exogenous factors, e.g., stressful life events and a susceptible genetic endowment, need to interact in at least most of the cases... 

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