Unlocking mechanisms implicated in drug-induced bizarre idiosyncratic behaviours - learning from people and molecules
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Type
ThesisThesis type
Doctor of PhilosophyAuthor/s
Wong, Carmen Ka-WingAbstract
Zolpidem, an imidazopyridine hypnotic, which acts on GABA‐A receptors has been associated with the development of a number of disturbing neuropsychiatric adverse drug reactions (ADRs) including parasomnias, amnesia and hallucinations. Although other non-hypnotic medications are ...
See moreZolpidem, an imidazopyridine hypnotic, which acts on GABA‐A receptors has been associated with the development of a number of disturbing neuropsychiatric adverse drug reactions (ADRs) including parasomnias, amnesia and hallucinations. Although other non-hypnotic medications are also implicated in the induction of such adverse events; the mechanism behind these ADRs remains elusive and have been postulated to arise from off-target receptor or pathway activation resulting in the disruption and dysregulation of keyneurotransmitters including GABA, acetylcholine, noradrenaline and dopamine. Using a novel multidisciplinary approach, we aim to investigate relationships between these rare idiosyncratic ADRs (parasomnia, movement-based parasomnia, non-movement based parasomnia, amnesia and hallucination) by identifying similarities in the chemical structure amongst drugs that share these reactions. These shared structural features or motifs may enable diverse drugs to participate in a pharmacological reaction with a mutual target receptor or pathway. By combining human population pharmacovigilance data with in silico computational techniques, insights into mechanisms underlying idiosyncratic reactions or toxicities can be elucidated.
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See moreZolpidem, an imidazopyridine hypnotic, which acts on GABA‐A receptors has been associated with the development of a number of disturbing neuropsychiatric adverse drug reactions (ADRs) including parasomnias, amnesia and hallucinations. Although other non-hypnotic medications are also implicated in the induction of such adverse events; the mechanism behind these ADRs remains elusive and have been postulated to arise from off-target receptor or pathway activation resulting in the disruption and dysregulation of keyneurotransmitters including GABA, acetylcholine, noradrenaline and dopamine. Using a novel multidisciplinary approach, we aim to investigate relationships between these rare idiosyncratic ADRs (parasomnia, movement-based parasomnia, non-movement based parasomnia, amnesia and hallucination) by identifying similarities in the chemical structure amongst drugs that share these reactions. These shared structural features or motifs may enable diverse drugs to participate in a pharmacological reaction with a mutual target receptor or pathway. By combining human population pharmacovigilance data with in silico computational techniques, insights into mechanisms underlying idiosyncratic reactions or toxicities can be elucidated.
See less
Date
2016-09-27Licence
The author retains copyright of this thesis. It may only be used for the purposes of research and study. It must not be used for any other purposes and may not be transmitted or shared with others without prior permission.Faculty/School
Faculty of PharmacyAwarding institution
The University of SydneyShare