Adding a Second iTBS Block in 15 or 60 Min Time Interval Does Not Increase iTBS Effects on Motor Cortex Excitability and the Responder Rates.

The use of metaplasticity-based intermittent theta-burst stimulation (iTBS) protocols including several stimulation blocks could be a possible approach to increasing stimulation effectiveness. Our aim was to investigate the neurophysiological effects of two protocols with a short and a long interval between blocks. Seventeen healthy volunteers received four protocols in a pseudorandomized order: (two blocks of active iTBS of primary motor cortex (M1) separated by 15 min and a control stimulation block of the vertex in 60 min from the first block); (active iTBS, a control block in 15 min, and an active block in 60 min); (active iTBS and two control blocks with the same intervals); and (three control blocks).

Compact Radio Frequency Discharge-Pumped Slab CO Laser System with a Zinc Germanium Phosphide (ZnGeP) Sum-Frequency Generator for Remote Sensing of the Atmosphere.

Based on our experimental study of spectral characteristics of an improved compact CO laser system, the prospects of using such a laser system for solving urgent problems of atmospheric sounding were demonstrated. An increase in the number of laser lines due to intracavity generation of the second harmonic and sum-frequencies in a nonlinear zinc germanium phosphide (ZnGeP) crystal enriches capabilities of the laser. It was shown that such a CO laser system with frequency conversion in ZnGeP crystal can be used for detection and measuring concentration of at least 14 minor natural and pollution gases components of the atmosphere.

From Qualitative to Quantitative AOP: A Case Study of Neurodegeneration.

Adverse outcome pathways (AOPs) include a sequence of events that connect a molecular-level initiating event with an adverse outcome at the cellular level for human health endpoints, or at the population level for ecological endpoints. When there is enough quantitative understanding of the relationships between key events in an AOP, a mathematical model may be developed to connect key events in a quantitative AOP (qAOP). Ideally, a qAOP will reduce the time and resources spent for chemical toxicity testing and risk assessment and enable the extrapolation of data collected at the molecular-level by assays, for example, to predict whether an adverse outcome may occur.

[Resting state functional MRI in neurology and psychiatry].

Resting state functional magnetic resonance imaging (fMRI) is a neuroimaging technique based on analyzing spontaneous, low frequency fluctuations in the activity of brain areas by measuring by their MRI signal to investigate the functional architecture of the brain during rest. The use of resting state fMRI opens up possibilities for assessing brain functional relationships in both normal conditions and in different CNS pathologies in order to clarify the disturbed mechanisms of brain functioning and develop approaches for therapeutic non-invasive neuromodulation. Understanding the acquisition of data, the features of their preprocessing and analysis is very important for clinicians who use resting state fMRI in their studies, since it is neurologists, psychiatrists, and neurosurgeons who set research tasks and are the final consumers of the results.

Detecting the Potential for Consciousness in Unresponsive Patients Using the Perturbational Complexity Index.

The difficulties of behavioral evaluation of prolonged disorders of consciousness (DOC) motivate the development of brain-based diagnostic approaches. The perturbational complexity index (PCI), which measures the complexity of electroencephalographic (EEG) responses to transcranial magnetic stimulation (TMS), showed a remarkable sensitivity in detecting minimal signs of consciousness in previous studies. Here, we tested the reliability of PCI in an independently collected sample of 24 severely brain-injured patients, including 11 unresponsive wakefulness syndrome (UWS), 12 minimally conscious state (MCS) patients, and 1 emergence from MCS patient.