| First Author | Elliott JL | Year | 1999 |
| Journal | Neurobiol Dis | Volume | 6 |
| Issue | 5 | Pages | 310-20 |
| PubMed ID | 10527800 | Mgi Jnum | J:58176 |
| Mgi Id | MGI:1346908 | Doi | 10.1006/nbdi.1999.0266 |
| Citation | Elliott JL (1999) Experimental models of amyotrophic lateral sclerosis. Neurobiol Dis 6(5):310-20 |
| abstractText | Amyotrophic lateral sclerosis (ALS) is a chronic neurodegenerative disease characterized by the progressive loss of motor neurons, leading to profound weakness and eventual death of affected individuals. For the vast majority of patients with ALS, the etiology of the disorder is unknown, and although multiple clinical trials of various therapeutic agents have been undertaken, truly effective therapy is not currently available for the disease. The selection of treatments used in ALS clinical trials frequently has its basis in promising data obtained from experimental model systems in which the proposed agent has shown some effect in protecting motor neurons from a particular insult. The likelihood of a successful clinical outcome for a given treatment in ALS would therefore depend on two principal factors, including the similarity of the model to the disease and the biologic action of the potential therapeutic agent. Partly because early experimental models of ALS failed to replicate the disease process, treatment success in these models did not carry over into human trials. Recently, however, a variety of newer model systems have been developed and utilized to investigate motor neuron degeneration as related to ALS. For example, in this issue, Corse et al. use a rat spinal cord organotypic slice subjected to glutamate excitotoxicity as a model system to test the effectiveness of neurotrophic factors in preventing motor neuron degeneration. This review will assess the strengths and weaknesses of differing ALS model systems that have been used to preclinically test potential drug efficacy in ALS. Copyright 1999 Academic Press. |
