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Dopamine affects short-term memory corruption over time in Parkinson’s disease

Research output: Contribution to journalArticle

Original languageEnglish
Article number16 (2019)
Number of pages7
Journalnpj Parkinson's Disease
DateAccepted/In press - 26 Jun 2019
DatePublished (current) - 5 Aug 2019


Cognitive deficits are a recognised component of Parkinson’s disease (PD). However, particularly within the domain of short-term memory, it is unclear whether these impairments are masked, or caused, by patients’ dopaminergic medication. The effect of medication on pure maintenance in PD patients has rarely been explored, with most assessments examining maintenance intercalated between other executive tasks. Moreover, few studies have utilised methods that can measure the quality of mental
representations which enable decomposition of recall errors into their underlying neurocognitive components. Here, we fill this gap by examining pure maintenance in PD patients in high and low dopaminergic states. Participants had to encode the orientation of two stimuli and reproduce these orientations after a short (2 secs) or long (8 secs) delay. In addition, we also examined the performance of healthy, age-matched older adults to contextualise these effects and determine whether PD represents an exacerbation of the normal ageing process. Patients showed improved recall OFF compared to ON their dopaminergic medication, but only for long duration trials. Moreover, PD patients OFF their medication actually performed at a level superior to age-matched controls, indicative of a paradoxical enhancement of memory in the low dopaminergic state. Application of a probabilistic model of response selection suggested that PD patients made fewer misbinding errors in the low, compared to high, dopaminergic state for longer delay trials. Thus, unexpectedly, the mechanisms that prevent memoranda from being corrupted by misbinding over time appear to be enhanced in PD patients OFF dopaminergic medication. Possible explanations for this paradoxical effect are discussed.

    Research areas

  • Dopamine, Computational Modelling, Working memory, Cognition

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