Transgenic Animals & Animal Models of Disease
Knockout / knock-in / knockdown technology, genetic & spontaneous disease models, and the regulatory-ethical frame — an RGUHS Experimental-Pharmacology LAQ
Past RGUHS · 9
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RGUHSMay '09
Introduction — why animal models matter
- Animal model of disease — a non-human species (most often a rodent) in which the process under investigation reproduces — as closely as possible — the human disease profile, letting hypotheses untestable in humans be tested experimentally. Model selection is one of the most important steps in any experimental-pharmacology study.
- Selection objectives — choose a species (1) phylogenetically closer to man, or (2) in which the process under study is as close as possible to that in man, with (3) anatomy, physiology & biochemistry considered similar to the human counterpart — "one species models another when, despite differences, the two strongly resemble each other in the feature studied."
- Transgenic technology — described as "one of the most powerful new genetic techniques" — the ability to produce transgenic animals (e.g. mice) in which the gene for a receptor or its endogenous ligand is altered, so function can be assigned by gain/loss of that gene.
- Why pharmacologists use them — genetically modified animals let us validate drug targets, dissect the molecular pathophysiology of disease, and test candidates for on-target activity & mechanism-based toxicity before clinical trials.
- Pipeline position — model selection and genetic models sit within Stage II — preclinical studies (in-vitro + in-vivo work defining PD, PK, toxicity and the maximum recommended starting dose, MRSD), preceding Stage III clinical trials.
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Transgenic Animals Disease Models
PharmaNotes Pro · LAQ
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