Sharp detection of oscillation packets in rich time-frequency representations of neural signals

Ardelean, Eugen-Richard; Bârzan, Harald; Ichim, Ana-Maria; Mureşan, Raul Cristian; Moca, Vasile Vlad

doi:10.3389/fnhum.2023.1112415

Front. Hum. Neurosci.

2023

DOI: 10.3389/fnhum.2023.1112415

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Sharp detection of oscillation packets in rich time-frequency representations of neural signals

Eugen-Richard Ardelean,

Harald Bârzan,

Ana-Maria Ichim

et al.

Abstract: Brain oscillations most often occur in bursts, called oscillation packets, which span a finite extent in time and frequency. Recent studies have shown that these packets portray a much more dynamic picture of synchronization and transient communication between sites than previously thought. To understand their nature and statistical properties, techniques are needed to objectively detect oscillation packets and to quantify their temporal and frequency extent, as well as their magnitude. There are various metho… Show more

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2024

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The gamma rhythm as a guardian of brain health

Ichim,

Barzan,

Moca

et al. 2024

eLife

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Gamma oscillations in brain activity (30–150 Hz) have been studied for over 80 years. Although in the past three decades significant progress has been made to try to understand their functional role, a definitive answer regarding their causal implication in perception, cognition, and behavior still lies ahead of us. Here, we first review the basic neural mechanisms that give rise to gamma oscillations and then focus on two main pillars of exploration. The first pillar examines the major theories regarding their functional role in information processing in the brain, also highlighting critical viewpoints. The second pillar reviews a novel research direction that proposes a therapeutic role for gamma oscillations, namely the gamma entrainment using sensory stimulation (GENUS). We extensively discuss both the positive findings and the issues regarding reproducibility of GENUS. Going beyond the functional and therapeutic role of gamma, we propose a third pillar of exploration, where gamma, generated endogenously by cortical circuits, is essential for maintenance of healthy circuit function. We propose that four classes of interneurons, namely those expressing parvalbumin (PV), vasointestinal peptide (VIP), somatostatin (SST), and nitric oxide synthase (NOS) take advantage of endogenous gamma to perform active vasomotor control that maintains homeostasis in the neuronal tissue. According to this hypothesis, which we call GAMER (GAmma MEdiated ciRcuit maintenance), gamma oscillations act as a ‘servicing’ rhythm that enables efficient translation of neural activity into vascular responses that are essential for optimal neurometabolic processes. GAMER is an extension of GENUS, where endogenous rather than entrained gamma plays a fundamental role. Finally, we propose several critical experiments to test the GAMER hypothesis.

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The gamma rhythm as a guardian of brain health

Ichim,

Barzan,

Moca

et al. 2024

eLife

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show abstract

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Sharp detection of oscillation packets in rich time-frequency representations of neural signals

Cited by 1 publication

References 53 publications

The gamma rhythm as a guardian of brain health

The gamma rhythm as a guardian of brain health

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