Evidence and implications of abnormal predictive coding in dementia
Ikusi/ Ireki
Data
2021Egilea
Kocagoncu, Ece
Klimovich-Gray, Anastasia
Hughes, Laura E.
Rowe, James B.
Ece Kocagoncu, Anastasia Klimovich-Gray, Laura E Hughes, James B Rowe, Evidence and implications of abnormal predictive coding in dementia, Brain, Volume 144, Issue 11, November 2021, Pages 3311–3321, https://doi.org/10.1093/brain/awab254
Laburpena
The diversity of cognitive deficits and neuropathological processes associated with dementias has encouraged divergence
in pathophysiological explanations of disease. Here, we review an alternative framework that emphasizes convergent
critical features of cognitive pathophysiology. Rather than the loss of ‘memory centres’ or ‘language centres’,
or singular neurotransmitter systems, cognitive deficits are interpreted in terms of aberrant predictive coding in hierarchical
neural networks.
This builds on advances in normative accounts of brain function, specifically the Bayesian integration of beliefs and
sensory evidence in which hierarchical predictions and prediction errors underlie memory, perception, speech and
behaviour. We describe how analogous impairments in predictive coding in parallel neurocognitive systems can generate
diverse clinical phenomena, including the characteristics of dementias.
The review presents evidence from behavioural and neurophysiological studies of perception, language, memory
and decision-making. The reformulation of cognitive deficits in terms of predictive coding has several advantages. It
brings diverse clinical phenomena into a common framework; it aligns cognitive and movement disorders; and it
makes specific predictions on cognitive physiology that support translational and experimental medicine studies.
The insights into complex human cognitive disorders from the predictive coding framework may therefore also inform
future therapeutic strategies.