78 research outputs found

    Modulating cortical responsiveness by tACS in visual snow syndrome - a case report

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    Background: Studies have shown that migraineurs have an enhanced photic-drive response when exposed to a visual chirp compared to healthy controls. Visual Snow Syndrome (VSS) is associated with migraines, but patients have continuous visual symptoms indicating dysfunction in visual processing. For this reason, we want to determine whether VSS patients show a similar reaction as migraineurs when exposed to visual chirp stimulation. Additionally, we want to see whether t-ACS stimulation lowers their reaction significantly. Method: One VSS patient (female, 37) with comorbid migraines was exposed to visual chirp stimulation (5.55 – 60 Hz) in a dimly lit room in front of a PC monitor (50 cm). There were 66 flashes per trial, totaling 792 flashes. A 64-electrode EEG grid was used for the measurement, with the occipital electrodes used for analysis. Power spectral density was calculated for stimulus responses and corrected for baseline. A wavelet transformation was applied before averaging the data. The patient received a total of 9 t-ACS stimulations over a period of 5 days between measurements. Results: The VSS patient showed a high occipital response to visual chirp stimulation pre-t-ACS stimulation and a lower occipital response to visual chirp stimulation post-t-ACS stimulation across all frequencies. Conclusion: This study shows that visual chirps could serve as a potential biomarker for VSS and that t-ACS stimulation over an extended period of time might be able to lower the photic-drive response, which could represent a novel treatment approach for VSS

    A korrupció pszichológiai vonatkozásai

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    The author provides an overview of the various psychological concepts that may play a role in the appearance and detection of corruption.A szerző áttekintést nyújt a különféle pszichológiai fogalmakról, amelyek szerepet játszhatnak a korrupció megjelenésében és felderítésében

    Musculoskeletal and cognitive effects of stochastic resonance whole body vibration: a randomized controlled trial

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    Introduction: We investigated the acute musculoskeletal and cognitive effects of stochastic resonance whole-body vibration (SR-WBV). To our knowledge, no study looked at the effects of SR-WBV on inhibitory control so far. Materials and Methods: In this randomized controlled trial, participants were randomly allocated into a verum (6 Hz, SR-WBV) or sham (2 Hz, SR-WBV) condition. Inhibitory control was measured with the Stroop Test before and after the exercise. Also, muscle stiffness, muscle relaxation, sense of balance and surefootedness were assessed in a questionnaire before and after the exercise. Results: Inhibitory control increased significantly after verum SR-WBV (t = 2.949, P = 0.018), but not after sham SR-WBV (t = 1.165, P = 0.252). Muscle stiffness decreased significantly after verum (t = 5.273, P < 0.000), but not after sham SR-WBV (t = 1.533, P = 0.135). Also, muscle relaxation increased significantly after verum (t = -2.879, P = 0.007), but not after sham SR-WBV (t = -1.650, P = 0.108). Sense of balance increased significantly after verum (t = -2.061, P = 0.047), but not after sham SR-WBV (t = 0.347, P = 0.730). No significant effect was found in surefootedness, whether after verum (t = -0.966, P = 0.341) nor after sham SR-WBV (t = 0.849, P = 0.402). Conclusions: SR-WBV seems to be an appropriate method to improve not only physiological measurements but newly also cognition, i.e. inhibitory control. In this study we could show that SR-WBV exercise reduces interference and increases inhibitory control in a young and healthy sample. Keywords: Stochastic resonance whole body vibration (SRWBV); Musculoskeletal effects; Cognitive effects; Inhibitory control; Randomized controlled trial

    A Scoping Review of Injuries in Amateur and Professional Men\u27s Ice Hockey.

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    Background: Orthopaedic injuries are common in ice hockey at all levels and can result in physical and psychological adverse effects on these athletes. Purpose: Primarily, to summarize published data on orthopaedic hockey injuries at the junior through professional level. Secondarily, to characterize the literature based on anatomic site injured, return-to-play rates, cause/mechanism of injury, time lost, and treatments used. Study Design: Scoping review; Level of evidence, 4. Methods: PubMed, EMBASE, Cochrane library, and SCOPUS were searched using the terms hockey and injuries using PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) guidelines, and 4163 studies involving orthopaedic injuries were identified. Our inclusion criteria consisted of accessible full-text articles that evaluated orthopaedic injuries in men\u27s ice hockey athletes of all levels. We excluded case reports and articles evaluating women\u27s ice hockey injuries, as well as those evaluating nonorthopaedic injuries, such as concussions; traumatic brain injuries; and facial, dental, and vascular injuries, among others. Studies were divided based on level of play and anatomic site of injury. Level of evidence, year published, country of corresponding author, method of data collection, incidence of injury per athlete-exposure, and time lost were extracted from each article. Results: A total of 92 articles met the inclusion criteria and were performed between 1975 and 2020, with the majority published between 2015 and 2020. These were divided into 8 anatomic sites: nonanatomic-specific (37%), intra-articular hip (20.7%), shoulder (9.8%), knee (8.7%), trunk/pelvis (7.6%), spine (7.6%), foot/ankle (6.5%), and hand/wrist (2.2%). Of these studies, 71% were level 4 evidence. Data were obtained mostly via surveillance programs and searches of publicly available information (eg, injury reports, player profiles, and press releases). Conclusion: This scoping review provides men\u27s hockey players and physicians taking care of elite ice hockey athletes of all levels with a single source of the most current literature regarding orthopaedic injuries. Most research focused on nonanatomic-specific injuries, intra-articular hip injuries, knee injuries, and shoulder injuries, with the majority having level 4 evidence

    Associating Outcomes After Hip Arthroscopy With Patient Resilience

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    Background: Higher patient resilience has been shown to be associated with improved patient-reported outcome measures (PROMs) at 6 months after hip arthroscopy. Purpose: To examine the relationship between patient resilience and PROMs at minimum 2 years after hip arthroscopy. Study design: Cross-sectional study; Level of evidence, 3. Methods: Included were 89 patients (mean age, 36.9 years; mean follow-up, 4.6 years). Patient demographics, surgical details, and preoperative International Hip Outcome Tool-12 (iHOT-12) and visual analog scale (VAS) pain scores were collected retrospectively. Postoperative variables were collected via a survey and included the Brief Resilience Scale (BRS), Patient Activation Measure-13 (PAM-13), Pain Self-efficacy Questionnaire-2 (PSEQ-2), VAS satisfaction, and postoperative iHOT-12, and VAS pain scores. Based on the number of standard deviations from the mean BRS score, patients were stratified as having low resilience (LR; n = 18), normal resilience (NR; n = 48), and high resilience (HR; n = 23). Differences in PROMs were compared between the groups, and a multivariate regression analysis was performed to assess the relationship between pre- to postoperative change (Δ) in PROMs and patient resilience. Results: There were significantly more smokers in the LR group compared with the NR and HR groups (P = .033). Compared with the NR and HR groups, patients in the LR group had significantly more labral repairs (P = .006), significantly worse postoperative iHOT-12, VAS pain, VAS satisfaction, PAM-13, and PSEQ-2 scores (P \u3c .001 for all), and significantly lower ΔVAS pain and ΔiHOT-12 scores (P = .01 and .032, respectively). Regression analysis showed significant associations between ΔVAS pain and NR (β = -22.50 [95% CI, -38.81 to -6.19]; P = .008) as well as HR (β = -28.31 [95% CI, -46.96 to -9.67; P = .004) and between ΔiHOT-12 and NR (β = 18.94 [95% CI, 6.33 to 31.55]; P = .004) as well as HR (β = 20.63 [95% CI, 6.21 to 35.05]; P = .006). Male sex was a significant predictor of ΔiHOT-12 (β = -15.05 [95% CI, -25.42 to -4.69]; P = .006). Conclusion: The study results indicate that lower postoperative resilience scores were associated with significantly worse PROM scores, including pain and satisfaction, at 2 years after hip arthroscopy

    Measuring the Influence of Magnetic Vestibular Stimulation on Nystagmus, Self-Motion Perception, and Cognitive Performance in a 7T MRT.

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    Strong magnetic fields induce dizziness, vertigo, and nystagmus due to Lorentz forces acting on the cupula in the semi-circular canals, an effect called magnetic vestibular stimulation (MVS). In this article, we present an experimental setup in a 7T MRT scanner (MRI scanner) that allows the investigation of the influence of strong magnetic fields on nystagmus as well as perceptual and cognitive responses. The strength of MVS is manipulated by altering the head positions of the participants. The orientation of the participants' semicircular canals with respect to the static magnetic field is assessed by combining a 3D magnetometer and 3D constructive interference in steady-state (3D-CISS) images. This approach allows to account for intra- and inter-individual differences in participants' responses to MVS. In the future, MVS can be useful for clinical research, for example, in the investigation of compensatory processes in vestibular disorders. Furthermore, it could foster insights into the interplay between vestibular information and cognitive processes in terms of spatial cognition and the emergence of self-motion percepts under conflicting sensory information. In fMRI studies, MVS can elicit a possible confounding effect, especially in tasks influenced by vestibular information or in studies comparing vestibular patients with healthy controls

    Management versus site effects on the abundance of nitrifiers and denitrifiers in European mountain grasslands

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    It is well established that the abundances of nitrogen (N) transforming microbes are strongly influenced by land-use intensity in lowland grasslands. However, their responses to management change in less productive and less fertilized mountain grasslands are largely unknown. We studied eight mountain grasslands, positioned along gradients of management intensity in Austria, the UK, and France, which differed in their historical management trajectories. We measured the abundance of ammonia-oxidizing bacteria (AOB) and archaea (AOA) as well as nitrite-reducing bacteria using specific marker genes. We found that management affected the abundance of these microbial groups along each transect, though the specific responses differed between sites, due to different management histories and resulting variations in environmental parameters. In Austria, cessation of management caused an increase in nirK and nirS gene abundances. In the UK, intensification of grassland management led to 10-fold increases in the abundances of AOA and AOB and doubling of nirK gene abundance. In France, ploughing of previously mown grassland caused a 20-fold increase in AOA abundance. Across sites the abundance of AOB was most strongly related to soil NO3−-N availability, and AOA were favored by higher soil pH. Among the nitrite reducers, nirS abundance correlated most strongly with N parameters, such as soil NO3−-N, microbial N, leachate NH4+-N, while the abundance of nirK-denitrifiers was affected by soil total N, organic matter (SOM) and water content. We conclude that alteration of soil environmental conditions is the dominant mechanism by which land management practices influence the abundance of each group of ammonia oxidizers and nitrite reducers

    Effects of drought on nitrogen turnover and abundances of ammonia-oxidizers in mountain grassland

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    Future climate scenarios suggest an increased frequency of summer drought periods in the European Alpine Region. Drought can affect soil nitrogen (N) cycling, by altering N transformation rates, as well as the abundances of ammonia-oxidizing bacteria and archaea. However, the extent to which drought affects N cycling under in situ conditions is still controversial. The goal of this study was to analyse effects of drought on soil N turnover and ammoniaoxidizer abundances in soil without drought history. To this end we conducted rain-exclusion experiments at two differently managed mountain grassland sites, an annually mown and occasionally fertilized meadow and an abandoned grassland. Soils were sampled before, during and after drought and were analysed for potential gross rates of N mineralization, microbial uptake of inorganic N, nitrification, and the abundances of bacterial and archaeal ammonia-oxidizers based on gene copy numbers of the amoA gene (AOB and AOA, respectively). Drought induced different responses at the two studied sites. At the managed meadow drought increased NH+/4 immobilization rates and NH+/4 concentrations in the soil water solution, but led to a reduction of AOA abundance compared to controls. At the abandoned site gross nitrification and NO-/3 immobilization rates decreased during drought, while AOB and AOA abundances remained stable. Rewetting had only minor, short-term effects on the parameters that had been affected by drought. Seven weeks after the end of drought no differences to control plots could be detected. Thus, our findings demonstrated that in mountain grasslands drought had distinct transient effects on soil nitrogen cycling and ammonia-oxidizers, which could have been related to a niche differentiation of AOB and AOA with increasing NH+/4 levels. However, the effect strength of drought was modulated by grassland management

    Phylogenetic congruence and ecological coherence in terrestrial Thaumarchaeota

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    This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. Acknowledgements We would like to thank Dr Robert Griffith/CEH for providing DNA from soil samples and Dr Anthony Travis for his help with BioLinux. Sequencing was performed in NERC platform in Liverpool. CG-R was funded by a NERC fellowship NE/J019151/1. CQ was funded by a MRC fellowship (MR/M50161X/1) as part of the cloud infrastructure for microbial genomics consortium (MR/L015080/1).Peer reviewedPublisher PD

    A review of soil NO transformation: associated processes and possible physiological significance on organisms

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    NO emissions from soils and ecosystems are of outstanding importance for atmospheric chemistry. Here we review the current knowledge on processes involved in the formation and consumption of NO in soils, the importance of NO for the physiological functioning of different organisms, and for inter- and intra-species signaling and competition, e.g. in the rooting zone between microbes and plants. We also show that prokaryotes and eukaryotes are able to produce NO by multiple pathways and that unspecific enzymo-oxidative mechanisms of NO production are likely to occur in soils. Nitric oxide production in soils is not only linked to NO production by nitrifying and denitrifying microorganisms, but also linked to extracellular enzymes from a wide range of microorganisms. Further investigations are needed to clarify molecular mechanisms of NO production and consumption, its controlling factors, and the significance of NO as a regulator for microbial, animal and plant processes. Such process understanding is required to elucidate the importance of soils as sources (and sinks) for atmospheric NO
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