Integrating Kata Training into School Education: Effects on Sustained Attention and Cognitive Performance in 8–9-Year-Old Children Fuat Gökdere, Erdem Uylas, Fatih Çatıkkaş, Erkan Günay, Halil İbrahim Ceylan, Murat Özgören Children, 2025 (1) Background: The ability to sustain attention in primary school children aged 8–9 years plays a critical role in maintaining focus for extended periods, enabling them to comprehend and integrate large amounts of information. Enhancing sustained attention during this formative stage significantly improves a child’s capacity to acquire and consolidate new skills and knowledge, laying a strong foundation for academic and cognitive development. (2) Objectives: This study aimed to assess the effect of an 8-week kata training program on attention and its components in 8–9-year-old school-age children, a critical developmental period for attention. (3) Methods: After excluding the participants who gave a low number of correct answers in the pre-test or created a ceiling effect, 43 participants, aged 9.12 ± 0.40 years, were included in this study. This study, conducted during the academic term, included three measurement phases and a familiarization session. Attention parameters were evaluated using the Bourdon–Vos Test, and participants were categorized into Low Performers (LP) and High Performers (HP) based on pre-test scores. The intervention group (INT) underwent kata training thrice weekly for 8 weeks, while the control group (CON) followed their regular activities. Post-training, attention parameters were reassessed using the Bourdon–Vos Test. (4) Results: In the post-intervention analysis, significant improvements in the number of correct responses were observed in both the LP (p < 0.001, Cohen’s d = −1.333) and HP (p = 0.001, Cohen’s d = −1.644) groups within the INT group. In the CON group, significant improvement was observed only in the HP group (p = 0.031, Cohen’s d = −0.948). Regarding attention processing speed, significant pre-post improvements were found exclusively in the INT group (p < 0.001). Block-wise analysis revealed significant differences only in Block 1 of the CON group (p = 0.011, Cohen’s d = −0.522). However, in the INT group, significant improvements were observed in both Block 1 (p < 0.001, Cohen’s d = −1.200) and Block 2 (p = 0.004, Cohen’s d = −0.678). (5) Conclusions: The findings of this study highlight the effectiveness of an 8-week kata training program in enhancing sustained attention and cognitive processing speed among 8–9-year-old children, particularly in low-performing groups. This suggests that integrating structured kata-based motor and cognitive activities into school curricula can serve as a promising strategy for addressing attention deficits and promoting cognitive development during this critical developmental period. Future studies should examine the long-term effects of kata training on attention and related cognitive functions, such as working memory and executive control. Investigating neurophysiological mechanisms through neuroimaging and including diverse age groups with larger samples could further validate these findings.
Development of Molecularly Imprinted Magnetic Amino Acid-Based Nanoparticles for Voltammetric Analysis of Lead Ions in Honey Mehmet Karagözlü, Süleyman Aşır, Nemah Abu Shama, Ilgım Göktürk, Fatma Yılmaz, Deniz Türkmen, Adil Denizli, Murat Özgören Polymers, 2024 Lead (Pb) is a hazardous metal that poses a significant threat to both the environment and human health. The presence of Pb in food products such as honey can pose a significant risk to human health and is therefore important to detect and monitor. In this study, we propose a voltammetric detection method using molecularly imprinted polymer (MIP) electrodes to detect Pb (II) ions in honey. Pb (II) ion-imprinted amino acid-based nanoparticles with magnetic properties on a carbon paste electrode (MIP-CPE) were designed to have high sensitivity and selectivity towards Pb (II) ions in the honey sample. Zetasizer measurements, electron spin resonance, and scanning electron microscopy were used to characterize magnetic polymeric nanoparticles. The results showed that the voltammetric detection method using MIP-CPE was able to accurately detect Pb (II) ions in honey samples with a low detection limit. The proposed method offers a simple, rapid, cost-effective solution for detecting Pb (II) ions in honey. It could potentially be applied to other food products to ensure their safety for human consumption. The MIP-CPE sensor was designed to have high sensitivity and selectivity towards Pb (II) ions in the honey sample. The results showed that the technique was able to deliver highly sensitive results since seven different concentrations were prepared and detected to obtain an R2 of 0.9954, in addition to a low detection limit (LOD) of 0.0912 µM and a low quantification limit (LOQ) of 0.276 µM. Importantly, the analysis revealed no trace of Pb (II) ions in the honey samples obtained from Cyprus.
Automatic Wake and Deep-Sleep Stage Classification Based on Wigner–Ville Distribution Using a Single Electroencephalogram Signal Po-Liang Yeh, Murat Ozgoren, Hsiao-Ling Chen, Yun-Hong Chiang, Jie-Ling Lee, Yi-Chen Chiang, Rayleigh Ping-Ying Chiang Diagnostics, 2024 This research paper outlines a method for automatically classifying wakefulness and deep sleep stage (N3) based on the American Academy of Sleep Medicine (AASM) standards. The study employed a single-channel EEG signal, leveraging the Wigner–Ville Distribution (WVD) for time–frequency analysis to determine EEG energy per second in specific frequency bands (δ, θ, α, and entire band). Particle Swarm Optimization (PSO) was used to optimize thresholds for distinguishing between wakefulness and stage N3. This process aims to mimic a sleep technician’s visual scoring but in an automated fashion, with features and thresholds extracted to classify epochs into correct sleep stages. The study’s methodology was validated using overnight PSG recordings from 20 subjects, which were evaluated by a technician. The PSG setup followed the 10–20 standard system with varying sampling rates from different hospitals. Two baselines, T1 for the wake stage and T2 for the N3 stage, were calculated using PSO to ascertain the best thresholds, which were then used to classify EEG epochs. The results showed high sensitivity, accuracy, and kappa coefficient, indicating the effectiveness of the classification algorithm. They suggest that the proposed method can reliably determine sleep stages, being aligned closely with the AASM standards and offering an intuitive approach. The paper highlights the strengths of the proposed method over traditional classifiers and expresses the intentions to extend the algorithm to classify all sleep stages in the future.
Dynamic Sleep Architecture Revealed: Sleep Auditory Evoked Potentials from N100 to P900 Sibel Kocaaslan Atlı, Gonca Inanc, Adile Oniz, Murat Ozgoren Neurological Sciences and Neurophysiology, 2024 Background: The research landscape in sleep is currently shifting toward minute changes in brain functioning during different stages. This fine approach necessitates a dynamic assessment as in the case of electrophysiology. The present study aimed to investigate brain responsiveness during different stages and times of nocturnal sleep using auditory evoked potentials (AEPs). Materials and Methods: Sleep recordings of 18 volunteer subjects were analyzed. During sleep recordings, auditory stimuli were presented in the ear channels. Sleep stages were scored according to the American Academy of Sleep Medicine system. AEPs were analyzed in nonrapid eye movement sleep stages. Alterations of N100, P200, N300, P450, N550, and P900 waveforms were investigated in the first and second halves of sleep duration. Results: N100 amplitude was higher in light sleep, both in the first and the second halves of the night (sleep duration). The amplitude of P900 was higher in the deep sleep stage in both halves. Significant amplitude reductions were found in N100, P200, P450, and P900 in the second half of the sleep. Conclusions: The changes found suggest that they are related to the dynamics of sensory processing to maintain functional sleep. The findings of the present study emphasize that in the course of sleep, both the proportions of sleep stages and the microarchitecture within the stages alter between the first and second halves of sleep.
The Relationship of Depression Level and Physical Activity with Postural Control in Geriatric Individuals Tuba Yerlikaya, Melis Bağkur, Serkan Taş, Adile Öniz, Murat Özgören Noropsikiyatri Arsivi, 2023 Introduction The aim of this study was to investigate the relationships between functional performance, physical activity level, and depression level with postural control in older adults. Methods Data were collected from 48 community-dwelling subjects aged ≥65 years. As measurement parameters, Sway mobile balance application for postural control, Sit - Stand Test for lower extremity muscle strength, SenseWear armband for physical activity level, Mini-Mental Test for mental status and Beck Depression Inventory (BDI) for depression level were used. Results Sway score was positively correlated with total energy expenditure (TEE) (r=0.28, p=0.04) and number of steps (r=0.30, p=0.03) and negatively correlated with BDI (r=-0.33, p=0.03). The BDI score was negatively correlated with all physical activity parameters. While lower extremity strength, which indicates functional performance, showed moderate-good correlation with physical activity parameters, it showed moderate negative correlation with BDI (r=-0.63, p<0.001). Body mass index value positively correlated with TEE (r=0.34, p=0.01). Conclusions The results of this study showed a significant correlation between postural control, physical activity, and depression level. A sufficient level of physical activity is important for the maintenance and improvement of depression level and postural control system. The relationship between physical activity, depression level and postural control should not be ignored in healthy aging.
Primed Tactile Stimulus Processing during Sleep Gonca Inanc, Murat Ozgoren Life, 2023 The aim was to investigate how the primed and unprimed non-painful tactile stimuli during sleep would be processed. A total of 22 healthy subjects (19.55 ± 1.10 years) were randomly divided into two groups. The same stimuli were applied to both groups, but the study group (SG) received them twice (daytime and sleep), whereas the control group (CG) received them only during sleep. A 40-channel PSG and a pneumatic tactile stimulator unit were used. Evoked potential components of the CZ electrode were examined in four sleep stages (N1, N2, N3, and REM). The Mann–Whitney U test was used for group comparison, and the Wilcoxon test was used for in-group evaluations. The P50 and N300 response components were observed in all sleep stages in both groups. P50 decreased as sleep deepened in the SG. The N300 increased as sleep deepened and started to decrease again in the REM stage. Moreover, in N1, the amplitudes of P200-N300 and N300-P450 in the SG were significantly greater than those in the CG. The fact that P50 was observed even in N3 indicates that bottom-up sensory processing continues during sleep. Moreover, the central processing of primed and unprimed stimuli exhibited dynamic differences. Furthermore, an increase in N300 amplitude suggests suppressive processes to facilitate and maintain sleep.
The Influence of Medicine Approaches on Patient Trust, Satisfaction, and Loyalty Ayşe Sertan, Kemal Çek, Adile Öniz, Murat Özgören Healthcare Switzerland, 2023 The increase in traditional and complementary medicine (TCM) methods has revealed the necessity of determining relevant behavioral tendencies among healthcare users. In our study, the evaluation of TCM approaches of healthcare users living in North Cyprus in terms of treatment effectiveness, patient trust and patient satisfaction, and the effects of these variables on patient loyalty, were investigated. Data were collected utilizing the scale approach as well as the survey technique in order to measure the variables in the study. A total of 452 participants completed the survey. TCM has a positive effect on treatment effectiveness, patient trust and patient satisfaction. Patient trust and patient satisfaction have a positive effect on patient loyalty, whereas treatment effectiveness did not have a significant effect on patient loyalty. There is a significant and positive mediating effect of patient trust and patient satisfaction between TCM and patient loyalty. However, the mediating effect of treatment effectiveness is not significant between TCM and patient loyalty. This study will help researchers and practitioners understand the importance of attitude, trust, effectiveness, satisfaction and loyalty in relation to TCM. It is suggested that studies that measure the behaviors of patients should increase in order to obtain better health outcomes.
The development of a psychomotor vigilance test battery and the assesment of vigilance change in reaction to mental work load Journal of Neurological Sciences, 2015
The modified sniffin' sticks test in Turkish population based on odor familiarity survey Journal of Neurological Sciences, 2013
The relationship between illness duration and brain morphometry in schizophrenia: Heschl's gyrus and prefrontal cortex volumetry Journal of Neurological Sciences, 2013
