In order to retain a piece of information for a short time, working memory is required. The underlying processes are considerably more complex than hitherto assumed, as researchers from the Ruhr-Universität Bochum and Bonn University report in the journal "Cell Reports". Two brain states must alternate rhythmically in order for a piece of information to be successfully maintained.
Working memory: maintaining new information for a short time
When we want to remember a new piece of information for a short time, for example a phone number, working memory is called upon. Different brain regions are involved in this process, including the hippocampus, which is known for its crucial role in long-term memory. The team headed by Prof Dr Nikolai Axmacher from the Institute of Cognitive Neuroscience in Bochum and Marcin Leszczynski, researcher in Bochum and at the Department of Epileptology at Bonn University, studied rhythmic activity patterns in the hippocampus while the subjects memorised sequences of numbers or faces.
Two activity states at semi-second intervals
To this end, the team worked with epilepsy patients who had electrodes implanted into the hippocampus for the purpose of surgical planning. Those electrodes enabled the researchers to measure the activity of the region embedded deeply in the brain. While the patients memorised sequences of faces or numbers, the researchers observed two activity states in the hippocampus, which alternated twice per second: an excited and a less excited state.
Seemingly simple tasks require highly complex processes
If the rhythmic pattern did not occur in the hippocampus, the patients tended to make mistakes during the task. Based on the activity patterns, the researchers were also able to estimate how many numbers or faces the test subjects could reliably memorise. "The results show that the brain performs highly complex processes even during seemingly simple tasks," says Prof Nikolai Axmacher. "Our subjective feeling if something is simple or complex is not a reliable marker for how the brain actually solves a task."
M. Leszczynski, J. Fell, N. Axmacher (2015): Rhythmic working memory activation in the human hippocampus, Cell Reports, DOI: 10.1016/j.celrep.2015.09.081
Prof Dr Nikolai Axmacher, Department of Neuropsychology, Institute of Cognitive Neuroscience, Ruhr-Universität Bochum, 44780 Bochum, Germany, phone: +49/234/32-22674, email: firstname.lastname@example.org
Marcin Leszczynski, Department of Epileptology, Universität Bonn, Germany, phone: +49/228/287-19344, email: email@example.com
Editor: Dr Julia Weiler