Rapid changes in bodily and neural states affect learning
Julkaistu sarjassa
JYU DissertationsTekijät
Päivämäärä
2018Oppiaine
PsykologiaTekijänoikeudet
© The Author & University of Jyväskylä
Declarative memories consist of the past events and factual information that can
be recalled. One of the most popular experimental paradigms used in studying
long-term memory formation is classical conditioning. Trace conditioning is a
hippocampus-dependent task where two separate sensory stimuli are presented
in contingency but with a temporal gap between. In trace eyeblink conditioning
a conditioned stimulus, usually a tone, is presented with a short silent period
followed by an airpuff to the eye. In the beginning of the learning process the
behavioral response to the airpuff is naturally a blink of an eye. After repeated
trials the subject learns to shut the eyelid after perceiving the tone but timing it
before the noxious airpuff. These are called the conditioned responses. Neural
oscillations occurring in the hippocampus are connected to learning. In addition,
hippocampal oscillations and some rapidly changing bodily states, such as the
cardiac cycle and respiration pattern, have rhythmical coupling. In the studies
reported here, rabbits and humans were trained in trace eyeblink conditioning
in contingency with specific states of hippocampal theta oscillation, cardiac
cycle and respiration. The neural processing of the external stimuli and
behavioral learning was affected when the conditioned stimulus was presented
during different phases of hippocampal theta oscillation. Next, we showed that
processing of responses evoked by an external stimulus was modulated
differently in the cortex and in the hippocampus when the conditioned
stimulus was presented either at the diastolic or systolic phase of the cardiac
cycle. Learning was enhanced if the conditioned stimulus was presented during
the diastolic phase. Finally, we showed that timing the whole conditioning trial
to the expiration phase was optimal for learning. The findings of these studies
are novel and suggest that not only the rapid changes in neural states but also
bodily states are connected and have an impact on learning and the neural
processing of the perceived external world. The aforementioned effects of bidirectional coupling of bodily states and the limbic system and, thus, the
modulation of stimulus processing should be considered in electrophysiological
measurements and experimental psychology. Furthermore, timing the
presentation of significant stimulus to noninvasively monitored specific bodily
states could be used to facilitate learning in cognitively demanding tasks.
...
Julkaisija
Jyväskylän yliopistoISBN
978-951-39-7587-6ISSN Hae Julkaisufoorumista
2489-9003Julkaisuun sisältyy osajulkaisuja
- Artikkeli I: Nokia, M., Waselius, T., Mikkonen, J., Wikgren, J., & Penttonen, M. (2015). Phase matters: responding to and learning about peripheral stimuli depends on hippocampal θ phase at stimulus onset. Learning and Memory, 22 (6), 307-317. DOI: 10.1101/lm.038166.115
- Artikkeli II: Waselius, Tomi; Pöllänen, Eveliina; Wikgren, Jan; Penttonen, Markku; Nokia, Miriam (2017). Hippocampal theta phase-contingent memory retrieval in delay and trace eyeblink conditioning. Behavioural Brain Research, 337 (0), 264-270. DOI: 10.1016/j.bbr.2017.09.001
- Artikkeli III: Waselius, Tomi; Wikgren, Jan; Halkola, Hanna; Penttonen, Markku; Nokia, Miriam (2018). Learning by heart : cardiac cycle reveals an effective time window for learning. Journal of Neurophysiology, 120 (2), 830-838. DOI: 10.1152/jn.00128.2018
- Artikkeli IV: Waselius, T., Wikgren, J., Penttonen, M., & Nokia, M. (2019). Breathe out and learn : Expiration-contingent stimulus presentation facilitates associative learning in trace eyeblink conditioning. Psychophysiology, 56 (9), e13387. DOI: 10.1111/psyp.13387
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CA3–CA1 long‐term potentiation occurs regardless of respiration and cardiac cycle phases in urethane‐anesthetized rats
Nokia, Miriam S.; Waselius, Tomi; Penttonen, Markku (Wiley, 2023)Breathing and heartbeat synchronize to each other and to brain function and affect cognition in humans. However, it is not clear how cardiorespiratory rhythms modulate such basic processes as synaptic plasticity thought ... -
The role of the hippocampal theta activity in classical eyeblink conditioning in rabbits
Nokia, Miriam (University of Jyväskylä, 2009) -
Distinct Hippocampal Oscillation Dynamics in Trace Eyeblink Conditioning Task for Retrieval and Consolidation of Associations
Kim, Kayeon; Nokia, Miriam S.; Palva, Satu (Society for Neuroscience, 2024)Trace eyeblink conditioning (TEBC) has been widely used to study associative learning in both animals and humans. In this paradigm, conditioned responses (CRs) to conditioned stimuli (CS) serve as a measure for retrieving ... -
Disrupting neural activity related to awake-state sharp wave-ripple complexes prevents hippocampal learning
Nokia, Miriam; Mikkonen, Jarno; Penttonen, Markku; Wikgren, Jan (Frontiers Media, 2012)Oscillations in hippocampal local-field potentials (LFPs) reflect the crucial involvement of the hippocampus in memory trace formation: theta (4–8 Hz) oscillations and ripples (~200 Hz) occurring during sharp waves are ... -
Hippocampal theta activity is selectively associated with contingency detection but not discrimination in rabbit discrimination-reversal eyeblink conditioning
Nokia, Miriam; Wikgren, Jan (Wiley, 2010)The relative power of the hippocampal theta-band (∼6 Hz) activity (theta ratio) is thought to reflect a distinct neural state and has been shown to affect learning rate in classical eyeblink conditioning in rabbits. We ...
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