Entraining neurons via noninvasive electric stimulation improves cognition

Transcranial Alternating Current Stimulation (tACS) is a method that injects rhythmic currents into the human brain via electrodes attached to the scalp of a participant. This technique allows researchers to control naturally occurring brain rhythms and study their causal relevance for cognition. Recent findings, however, cast doubts on the effectiveness of tACS to stimulate the brain and its mode of action. Two new studies by Vieira and colleagues and Marchesotti and colleagues reported in the current issue report promising new results in showing that tACS can entrain single neuron activity and improve reading abilities in dyslexic individuals

Investigating the cortico-hippocampal dynamics involved in human episodic memory with neural stimulation

The human episodic memory system depends on specific interactions between the hippocampus and neocortex. The three studies performed as part of this doctoral thesis each sought to improve our understanding of the cortico-hippocampal system in the context of episodic memory. Each study used a different approach to directly manipulate neural activity with the aim of revealing causal relationships between certain patterns of neural activity and behaviour. In the first study the cortico-hippocampal network was investigated by using occipital transcranial alternating current stimulation (tACS) and auditory sensory stimulation with the aim of altering memory performance during an audio-visual association task. The electrical stimulation was hypothesized to interact with the auditory sensory stimulation after propagating from the neocortex to the hippocampus. This study was unsuccessful in modulating behaviour through stimulation. In the second study, the left Dorsolateral Prefrontal Cortex (DLPFC) was targeted using 1 Hz repetitive transcranial magnetic stimulation (rTMS) over the course of two experiments, during a set of list learning tasks. This study found a beneficial effect on memory performance when stimulation occurred over the left DLPFC compared to stimulation over the vertex (control site). This behavioural effect was further characterized by a beta-power decrease over parietal sensors as measured by electroencephalography (EEG). The third study probed the cortico-hippocampal network by directly stimulating the hippocampus and the neocortex, by applying direct electrical stimulation through implanted electrodes in human subjects. This study used measures of population activity as well as single neuron activity to monitor how the brain responds to direct stimulation. This study found that direct stimulation throughout the network produces a neural response that is characterized by short, intense excitation and prolonged follow-up inhibition which has the potential to travel throughout the brain. The ability of the response to travel between the neocortex and hippocampus was leveraged to measure a transduction delay of ~140 ms between the two regions. Together these findings have advanced our understanding on how different stimulation methods can be used to manipulate neural activity and consequently affect the episodic memory system. Through these methods we might one day be able to aid persons suffering from cognitive impairments or related pathologies

Native and non-native listeners show similar yet distinct oscillatory dynamics when using gestures to access speech in noise

Listeners are often challenged by adverse listening conditions during language comprehension induced by external factors, such as noise, but also internal factors, such as being a non-native listener. Visible cues, such as semantic information conveyed by iconic gestures, can enhance language comprehension in such situations. Using magnetoencephalography (MEG) we investigated whether spatiotemporal oscillatory dynamics can predict a listener's benefit of iconic gestures during language comprehension in both internally (non-native versus native listeners) and externally (clear/degraded speech) induced adverse listening conditions. Proficient non-native speakers of Dutch were presented with videos in which an actress uttered a degraded or clear verb, accompanied by a gesture or not, and completed a cued-recall task after every video. The behavioral and oscillatory results obtained from non-native listeners were compared to an MEG study where we presented the same stimuli to native listeners (Drijvers et al., 2018a). Non-native listeners demonstrated a similar gestural enhancement effect as native listeners, but overall scored significantly slower on the cued-recall task. In both native and non-native listeners, an alpha/beta power suppression revealed engagement of the extended language network, motor and visual regions during gestural enhancement of degraded speech comprehension, suggesting similar core processes that support unification and lexical access processes. An individual's alpha/beta power modulation predicted the gestural benefit a listener experienced during degraded speech comprehension. Importantly, however, non-native listeners showed less engagement of the mouth area of the primary somatosensory cortex, left insula (beta), LIFG and ATL (alpha) than native listeners, which suggests that non-native listeners might be hindered in processing the degraded phonological cues and coupling them to the semantic information conveyed by the gesture. Native and non-native listeners thus demonstrated similar yet distinct spatiotemporal oscillatory dynamics when recruiting visual cues to disambiguate degraded speech

Stimulation of the left dorsolateral prefrontal cortex with slow rTMS enhances verbal memory formation

Encoding of episodic memories relies on stimulus-specific information processing and involves the left prefrontal cortex. We here present an incidental finding from a simultaneous EEG-TMS experiment as well as a replication of this unexpected effect. Our results reveal that stimulating the left dorsolateral prefrontal cortex (DLPFC) with slow repetitive transcranial magnetic stimulation (rTMS) leads to enhanced word memory performance. A total of 40 healthy human participants engaged in a list learning paradigm. Half of the participants (N = 20) received 1 Hz rTMS to the left DLPFC, while the other half (N = 20) received 1 Hz rTMS to the vertex and served as a control group. Participants receiving left DLPFC stimulation demonstrated enhanced memory performance compared to the control group. This effect was replicated in a within-subjects experiment where 24 participants received 1 Hz rTMS to the left DLPFC and vertex. In this second experiment, DLPFC stimulation also induced better memory performance compared to vertex stimulation. In addition to these behavioural effects, we found that 1 Hz rTMS to DLPFC induced stronger beta power modulation in posterior areas, a state that is known to be beneficial for memory encoding. Further analysis indicated that beta modulations did not have an oscillatory origin. Instead, the observed beta modulations were a result of a spectral tilt, suggesting inhibition of these parietal regions. These results show that applying 1 Hz rTMS to DLPFC, an area involved in episodic memory formation, improves memory performance via modulating neural activity in parietal regions

Developmental changes in individual alpha frequency: Recording EEG data during public engagement events

Statistical power in cognitive neuroimaging experiments is often very low. Low sample size can reduce the likelihood of detecting real effects (false negatives) and increase the risk of detecting non-existing effects by chance (false positives). Here we document our experience of leveraging a relatively unexplored method of collecting a large sample size for simple electroencephalography (EEG) studies: by recording EEG in the community during public engagement and outreach events. We collected data from 346 participants (189 females, age range 6-76 years) over 6 days, totalling 29 hours, at local science festivals. Alpha activity (6-15 Hz) was filtered from 30 seconds of signal, recorded from a single electrode placed between the occipital midline (Oz) and inion (Iz) while participants rested with their eyes closed. A total of 289 good quality datasets were obtained. Using this community-based approach, we were able to replicate controlled, lab-based findings: IAF increased during childhood, reaching a peak frequency of 10.28 Hz at 28.1 years old, and slowed again in middle and older age. Total alpha power decreased linearly, but the aperiodic-adjusted alpha power did not change over the lifespan. Aperiodic slopes and intercepts were highest in the youngest participants. There were no associations between these EEG indexes and self-reported fatigue, measured by the Multidimensional Fatigue Inventory. Finally, we present a set of important considerations for researchers who wish to collect EEG data within public engagement and outreach environments

Hippocampal neurons code individual episodic memories in humans

The hippocampus is an essential hub for episodic memory processing. However, how human hippocampal single neurons code multi-element associations remains unknown. In particular, it is debated whether each hippocampal neuron represents an invariant element within an episode or whether single neurons bind together all the elements of a discrete episodic memory. Here we provide evidence for the latter hypothesis. Using single-neuron recordings from a total of 30 participants, we show that individual neurons, which we term episode-specific neurons, code discrete episodic memories using either a rate code or a temporal firing code. These neurons were observed exclusively in the hippocampus. Importantly, these episode-specific neurons do not reflect the coding of a particular element in the episode (that is, concept or time). Instead, they code for the conjunction of the different elements that make up the episode

Investigating the role of phase-synchrony during encoding of episodic memories using electrical stimulation

The multi-sensory nature of episodic memories indicates that communication between a multitude of brain areas is required for their effective creation and recollection. Previous studies have suggested that the effectiveness of memory processes depends on theta synchronization (4 Hz) of sensory areas relevant to the memory. This study aimed to manipulate theta synchronization between different sensory areas in order to further test this hypothesis. We intend to entrain visual cortex with 4 Hz alternating current stimulation (tACS), while simultaneously entraining auditory cortex with 4 Hz amplitude-modulated sounds. By entraining these different sensory areas, which pertain to learned audio–visual memory associations, we expect to find that when theta is synchronized across the different sensory areas, the memory performance would be enhanced compared to when theta is not synchronized across the sensory areas. We found no evidence for such an effect in this study. It is unclear whether this is due to an inability of 4 Hz tACS to entrain the visual cortex reliably, or whether sensory entrainment is not the underlying mechanism required for episodic memory

Lietuvos filosofijos topografinis žemėlapis

The article seeks to mark out the contours of the map of Lithuanian philosophy. The concentration is not on specific theories created by the philosophers in Lithuania, but on the conditions of philosophizing itself. While considering the conditions under which philosophy operates in Lithuania, its critical condition has been fixed during the post-Soviet period more than once. The crisis was considered to have been caused by two major factors. First, the discontinuity of time - lack of solid linear philosophical traditions resulting after the interruption of "organic" evolution of philosophy during the Soviet regime and under the intrusion of its thinking cliché. Second, the spatial discontinuity - transition of intellectual problems started in the West to Lithuanian situation, inevitably losing the relevance and contextuality of the themes being transferred. It is stated that in both cases, the Lithuanian philosophy was regarded from the notions of "backwardness", "delay", "lack", "slowdown" or even "stagnant development, "the need for catch-up" positions. The article argues that the thinking on the basis of these concepts, the situation of philosophy remains fundamentally untouched in Lithuania. Essential characteristic of philosophy in Lithuania is believed to be its "strategic" nature. Strategic and overall thinking which lays claims to the final answer denies an interactive or critical position in respect of its own is not able to respond to new challenges, and classifies and mummifies the history of philosophy. As an alternative to "strategic" position, the "tactical" philosophy is emphasized which does not lay claim to the universality but is open to the risk, alterity and critical re-thinking