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32,223 results on '"Tawfik, A."'

1. Cochlear Implantation of Slim Pre-curved Arrays using Automatic Pre-operative Insertion Plans

Author

Tawfik, Kareem O., Khan, Mohammad M. R., Patro, Ankita, Smetak, Miriam R., Haynes, David, Labadie, Robert F., Gifford, René H., and Noble, Jack H.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Hypothesis: Pre-operative cochlear implant (CI) electrode array (EL) insertion plans created by automated image analysis methods can improve positioning of slim pre-curved EL. Background: This study represents the first evaluation of a system for patient-customized EL insertion planning for a slim pre-curved EL. Methods: Twenty-one temporal bone specimens were divided into experimental and control groups and underwent cochlear implantation. For the control group, the surgeon performed a traditional insertion without an insertion plan. For the experimental group, customized insertion plans guided entry site, trajectory, curl direction, and base insertion depth. An additional 35 clinical insertions from the same surgeon were analyzed, 7 of which were conducted using the insertion plans. EL positioning was analyzed using post-operative imaging auto-segmentation techniques, allowing measurement of angular insertion depth (AID), mean modiolar distance (MMD), and scalar position. Results: In the cadaveric temporal bones, 3 scalar translocations, including 2 foldovers, occurred in 14 control group insertions. In the clinical insertions, translocations occurred in 2 of 28 control cases. No translocations or folds occurred in the 7 experimental temporal bone and the 7 experimental clinical insertions. Among the non-translocated cases, overall AID and MMD were 401(41) degrees and 0.34(0.13) mm for the control insertions. AID and MMD for the experimental insertions were 424(43) degrees and 0.34(0.09) mm overall and were 432(19) and 0.30(0.07) mm for cases where the planned insertion depth was achieved. Conclusions: Trends toward improved EL positioning within scala tympani were observed when EL insertion plans are used. Variability in MMD was significantly reduced (0.07mm vs 0.13 mm, p=0.039) when the planned depth was achieved., Comment: First two listed authors are co-first authors

Published
2024

2. SurgeoNet: Realtime 3D Pose Estimation of Articulated Surgical Instruments from Stereo Images using a Synthetically-trained Network

Author

Aboukhadra, Ahmed Tawfik, Robertini, Nadia, Malik, Jameel, Elhayek, Ahmed, Reis, Gerd, and Stricker, Didier

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Surgery monitoring in Mixed Reality (MR) environments has recently received substantial focus due to its importance in image-based decisions, skill assessment, and robot-assisted surgery. Tracking hands and articulated surgical instruments is crucial for the success of these applications. Due to the lack of annotated datasets and the complexity of the task, only a few works have addressed this problem. In this work, we present SurgeoNet, a real-time neural network pipeline to accurately detect and track surgical instruments from a stereo VR view. Our multi-stage approach is inspired by state-of-the-art neural-network architectural design, like YOLO and Transformers. We demonstrate the generalization capabilities of SurgeoNet in challenging real-world scenarios, achieved solely through training on synthetic data. The approach can be easily extended to any new set of articulated surgical instruments. SurgeoNet's code and data are publicly available.

Published
2024

3. The study of strongly intensive observables for $\pi^{\pm,0}$ in $pp$ collisions at LHC energy in the framework of PYTHIA model

Author

Biswas, Tumpa, Dhar, Dibakar, Ahmed, Azharuddin, Haldar, Prabir Kumar, and Tawfik, Abdel Nasser

Subjects
High Energy Physics - Phenomenology
Abstract

The fractal and phase transitional properties of each type of pions (i.e. $\pi^{\pm,0}$) through one-dimensional $\eta-$space, at an energy of $\sqrt{s}=13~$TeV, have been studied with the help of the Scaled Factorial Moment (SFM) framework. To generate simulated data sets for $pp$ collisions under the minimum bias (MB) condition at $\sqrt{s}=13~$TeV, we have employed the Monte Carlo-based event simulator PYTHIA. Various parameters such as the Levy index $(\mu)$, degree of multifractality $(r)$, anomalous fractal dimension $(d_q)$, multifractal specific heat $(c)$ and critical exponent $(\nu)$ have been calculated. To study the Bose Einstein(BE) effect due to identical particles (here pions) we have also derived these parameters for mixed pion pairs (i.e. $\{\pi^{+},\pi^{-}\}$, $\{\pi^{+},\pi^{0}\}$ and $\{\pi^{-},\pi^{0}\}$) and we find that the effects of identical particles weakened for the mixture with respect to the individual distributions. The quest for the quark-hadron phase transition has also been conducted within the framework of the Ginzburg-Landau (GL) theory of second-order phase transition. Analysis revealed that for PYTHIA-generated MB events, there is a clear indication of the quark-hadron phase transition according to the GL theory. Furthermore, the values of the multifractal specific heat ($c$) for each $\pi^{+}, \pi^{-}, \pi^{0}$ and the mixture pair data sets of pions generated by PYTHIA model at MB condition, indicate a transition from multifractality to monofractality in $pp$ collisions at $\sqrt{s}=13~$TeV., Comment: 19 pages, 10 Figures ( Total 18 Figures with sub-figures)

Published
2024

4. Pixel-Level GPS Localization and Denoising using Computer Vision and 6G Communication Beams

Author

Charan, Gouranga, Osman, Tawfik, and Alkhateeb, Ahmed

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Accurate localization is crucial for various applications, including autonomous vehicles and next-generation wireless networks. However, the reliability and precision of Global Navigation Satellite Systems (GNSS), such as the Global Positioning System (GPS), are compromised by multi-path errors and non-line-of-sight scenarios. This paper presents a novel approach to enhance GPS accuracy by combining visual data from RGB cameras with wireless signals captured at millimeter-wave (mmWave) and sub-terahertz (sub-THz) basestations. We propose a sensing-aided framework for (i) site-specific GPS data characterization and (ii) GPS position de-noising that utilizes multi-modal visual and wireless information. Our approach is validated in a realistic Vehicle-to-Infrastructure (V2I) scenario using a comprehensive real-world dataset, demonstrating a substantial reduction in localization error to sub-meter levels. This method represents a significant advancement in achieving precise localization, particularly beneficial for high-mobility applications in 5G and beyond networks., Comment: Datasets and code files are available on the DeepSense website: https://deepsense6g.net/. To appear in IEEE GLOBECOM 2024

Published
2024

5. Entangled Eclecticism: A Sociotechnical-Pedagogical Systems Theory Approach to Learning Experience Design

Author

Matthew Schmidt, Yvonne Earnshaw, Isa Jahnke, and Andrew A. Tawfik

Abstract

This paper explores the adoption of an entangled eclecticism perspective in Learning Experience Design (LXD), integrating a sociotechnical-pedagogical systems approach. It emphasizes the significance of considering the sociocultural, technological, and pedagogical dimensions of learning as a cohesive, interconnected ecology to design effective learning experiences. The authors discuss the implications of this perspective on learning outcomes, methodologies, and the selection of relevant theories for design. The aim is to guide the creation of learning experiences that are not only effective, efficient, and appealing but also deeply empathetic, culturally sensitive, and responsive to the evolving dynamics of learning environments. Concluding that LXD is a complementary approach to traditional learning design, the paper underscores its evolution, drawing from multiple traditions to offer a holistic framework for educational design and technology. This approach strives for learning experiences that are not just effective and efficient, but also culturally sensitive and empathetic, adapting to the dynamic nature of learning environments. Broader implications of this approach and directions for future research are discussed.

Published
2024
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6. Advancing Understanding of Learning Experience Design: Refining and Clarifying Definitions Using an eDelphi Study Approach

Author

Andrew Tawfik, Matthew Schmidt, Linda Payne, and Rui Huang

Abstract

We report findings from an eDelphi study that aimed to explore 16 expert panelists' perspectives regarding the key attributes of learning experience design (LXD) as it relates to the following: design, disciplines, methods, and theory. Findings suggest consensus was reached regarding LXD's focus on learner-centrism and incorporating human-centered design practices to design learning environments. LXD practitioners adapt methods and theories from fields such as human--computer interaction and user experience. Implications suggest a need to develop specific methods and theories within our own field.

Published
2024
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7. Manin pairs and moment maps revisited

Author

Meinrenken, Eckhard and Tawfik, Selim

Subjects
Mathematics - Differential Geometry, 53D17
Abstract

The notion of quasi-Poisson $G$-spaces with $D/G$-valued moment maps was introduced by Alekseev and Kosmann-Schwarzbach in 1999. Our main result is a \emph{Lifting Theorem}, establishing a bijective correspondence between the categories of quasi-Poisson $G$-spaces with $D/G$-valued moment maps and of quasi-Poisson $G\times G$-spaces with $D$-valued moment maps. Using this result, we give simple constructions of fusion and conjugation for these spaces, and new examples coming from moduli spaces., Comment: 42 pages

Published
2024

8. ACE Inhibitors and Angiotensin Receptor Blockers for the Primary and Secondary Prevention of Cardiovascular Outcomes: Recommendations from the 2024 Egyptian Cardiology Expert Consensus in Collaboration with the CVREP Foundation

Author

Sobhy, Mohamed, Eletriby, Adel, Ragy, Hany, Kandil, Hossam, Saleh, Mohamed Ayman, Farag, Nabil, Guindy, Ramez, Bendary, Ahmed, Nayel, Ahmed Mohamed Elmahmoudy, Shawky, Ahmed, Khairy, Ayman, Mortada, Ayman, Zarif, Bassem, Badran, Haitham, Khorshid, Hazem, Mahmoud, Kareem, Said, Karim, Leon, Khaled, Abdelsabour, Mahmoud, Tawfik, Mazen, Abdelmegid, Mohamed Aboel-Kassem F., Koriem, Mohamed, Loutfi, Mohamed, Wadie, Moheb, Elnoamany, Mohamed, Sadaka, Mohamed, Seleem, Mohamed, Zahran, Mohamed, Amin, Osama A., Elkaffas, Sameh, Ayad, Sherif, Kilany, Wael El, Ammar, Walid, Elawady, Waleed, Elhammady, Walid, and Abdelhady, Yasser

Published
2024
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17. Embedding material graphs using the electron-ion potential: application to material fracture

Author

Tawfik, Sherif Abdulkader, Nguyen, Tri Minh, Russo, Salvy P., Tran, Truyen, Gupta, Sunil, and Venkatesh, Svetha

Subjects
Condensed Matter - Materials Science
Abstract

At the heart of the flourishing field of machine learning potentials are graph neural networks, where deep learning is interwoven with physics-informed machine learning (PIML) architectures. Various PIML models, upon training with density functional theory (DFT) material structure-property datasets, have achieved unprecedented prediction accuracy for a range of molecular and material properties. A critical component in the learned graph representation of crystal structures in PIMLs is how the various fragments of the structure's graph are embedded in a neural network. Several of the state-of-art PIML models apply spherical harmonic functions. Such functions are based on the assumption that DFT computes the Coulomb potential of atom-atom interactions. However, DFT does not directly compute such potentials, but integrates the electron-atom potentials. We introduce the direct integration of the external potential (DIEP) methods which more faithfully reflects that actual computational workflow in DFT. DIEP integrates the external (electron-atom) potential and uses these quantities to embed the structure graph into a deep learning model. We demonstrate the enhanced accuracy of the DIEP model in predicting the energies of pristine and defective materials. By training DIEP to predict the potential energy surface, we show the ability of the model in predicting the onset of fracture of pristine and defective carbon nanotubes., Comment: 14 pages, 4 figures

Published
2024

18. District-Level Forecast of Achieving Trachoma Elimination as a Public Health Problem By 2030: An Ensemble Modelling Approach.

Author

Srivathsan, Ariktha, Abdou, Amza, Al-Khatib, Tawfik, Apadinuwe, Sue-Chen, Badiane, Mouctar, Bucumi, Victor, Chisenga, Tina, Kabona, George, Kabore, Martin, Kanyi, Sarjo, Bella, Lucienne, Mpo, Nekoua, Masika, Michael, Minnih, Abdellahi, Sitoe, Henis, Mishra, Sailesh, Olobio, Nicholas, Omar, Fatma, Phiri, Isaac, Sanha, Salimato, Seife, Fikre, Sharma, Shekhar, Tekeraoi, Rabebe, Traore, Lamine, Watitu, Titus, Bol, Yak, Borlase, Anna, Deiner, Michael, Renneker, Kristen, Hooper, P, Emerson, Paul, Vasconcelos, Andreia, Arnold, Benjamin, Porco, Travis, Hollingsworth, T, Lietman, Thomas, and Blumberg, Seth

Subjects
Trachoma, Humans, Child, Preschool, Infant, Child, Disease Eradication, Prevalence, Forecasting, Public Health, Models, Statistical, Mass Drug Administration, World Health Organization, Global Health, Male, Female
Abstract

Assessing the feasibility of 2030 as a target date for global elimination of trachoma, and identification of districts that may require enhanced treatment to meet World Health Organization (WHO) elimination criteria by this date are key challenges in operational planning for trachoma programmes. Here we address these challenges by prospectively evaluating forecasting models of trachomatous inflammation-follicular (TF) prevalence, leveraging ensemble-based approaches. Seven candidate probabilistic models were developed to forecast district-wise TF prevalence in 11 760 districts, trained using district-level data on the population prevalence of TF in children aged 1-9 years from 2004 to 2022. Geographical location, history of mass drug administration treatment, and previously measured prevalence data were included in these models as key predictors. The best-performing models were included in an ensemble, using weights derived from their relative likelihood scores. To incorporate the inherent stochasticity of disease transmission and challenges of population-level surveillance, we forecasted probability distributions for the TF prevalence in each geographic district, rather than predicting a single value. Based on our probabilistic forecasts, 1.46% (95% confidence interval [CI]: 1.43-1.48%) of all districts in trachoma-endemic countries, equivalent to 172 districts, will exceed the 5% TF control threshold in 2030 with the current interventions. Global elimination of trachoma as a public health problem by 2030 may require enhanced intervention and/or surveillance of high-risk districts.

Published
2024

21. Epidemiology of Viral Infectious Diseases Reported in Saudi Arabia

Author

Aleyiydi, Munirah S., Alshiban, Noura M., Alajmi, Areej M., Alosaimi, Nada F., Alotaibi, Maryam, Nassar, Majed S., Alhumaid, Nada K., Almangour, Thamer A., Memish, Ziad A., Binjomah, Abdulwahab Z., Algarni, Saeed M., Al-Jedai, Ahmed, Almutairi, Abdulaziz S., Shibl, Atef, and Tawfik, Essam A.

Published
2024
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40. Transcendental Brauer-Manin obstructions on singular K3 surfaces

Author

Tawfik, Mohamed Alaa and Newton, Rachel

Subjects
Mathematics - Number Theory, Mathematics - Algebraic Geometry, 14F22 (Primary) 14G05, 11G35, 14J28 (Secondary)
Abstract

Let E and E' be elliptic curves over Q with complex multiplication by the ring of integers of an imaginary quadratic field K and let Y=Kum(ExE') be the minimal desingularisation of the quotient of ExE' by the action of -1. We study the Brauer groups of such surfaces Y and use them to furnish new examples of transcendental Brauer-Manin obstructions to weak approximation., Comment: 48 pages, comments welcome!

Published
2023

41. ShapeGraFormer: GraFormer-Based Network for Hand-Object Reconstruction from a Single Depth Map

Author

Aboukhadra, Ahmed Tawfik, Malik, Jameel, Robertini, Nadia, Elhayek, Ahmed, and Stricker, Didier

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

3D reconstruction of hand-object manipulations is important for emulating human actions. Most methods dealing with challenging object manipulation scenarios, focus on hands reconstruction in isolation, ignoring physical and kinematic constraints due to object contact. Some approaches produce more realistic results by jointly reconstructing 3D hand-object interactions. However, they focus on coarse pose estimation or rely upon known hand and object shapes. We propose the first approach for realistic 3D hand-object shape and pose reconstruction from a single depth map. Unlike previous work, our voxel-based reconstruction network regresses the vertex coordinates of a hand and an object and reconstructs more realistic interaction. Our pipeline additionally predicts voxelized hand-object shapes, having a one-to-one mapping to the input voxelized depth. Thereafter, we exploit the graph nature of the hand and object shapes, by utilizing the recent GraFormer network with positional embedding to reconstruct shapes from template meshes. In addition, we show the impact of adding another GraFormer component that refines the reconstructed shapes based on the hand-object interactions and its ability to reconstruct more accurate object shapes. We perform an extensive evaluation on the HO-3D and DexYCB datasets and show that our method outperforms existing approaches in hand reconstruction and produces plausible reconstructions for the objects

Published
2023

42. Mass Spectrum of Non-Charmed and Charmed Meson States in Extended Linear-Sigma Model

Author

Ahmadov, Azar I., Alshehri, Azza A., and Tawfik, Abdel Nasser

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

The mass spectrum of different meson particles is generated using an effective Lagrangian of the extended linear-sigma model (eLSM) for scalar and pseudoscalar meson fields and quark flavors, up, down, strange, and charm. Analytical formulas for the masses of scalar, pseudoscalar, vector, and axialvector meson states are derived assuming global chiral symmetry. The various eLSM parameters are analytically deduced and numerically computed. This enables accurate estimations of the masses of sixteen non-charmed and thirteen charmed meson states at vanishing temperature. The comparison of these results to recent compilation of the particle data group (PDG) allows to draw the conclusion that the masses of sixteen non-charmed and thirteen charmed meson states calculated in the eLSM are in good agreement with the PDG. This shows that the eLSM, with its configurations and parameters, is an effective theoretical framework for determining the mass spectra of various non-charmed and charmed meson states, particularly at vanishing temperature., Comment: 17 pages, 2 tables, no figures to be published in MPDI Particles

Published
2023
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47. Enhancing Ras cheese safety: antifungal effects of nisin and its nanoparticles against Aspergillus flavus

Author

Esraa Y. Abd-Elhamed, Tawfik Abd El-Rahman El-Bassiony, Wallaa M. Elsherif, and Eman M. Shaker

Subjects
Ras cheese, Nisin, Nanoparticles, Aspergillus flavus, Food preservative, Cytotoxicity, Veterinary medicine, SF600-1100
Abstract

Abstract Background Due to the adverse effects of industrial chemicals and their carcinogenicity and toxicity for humans, the debates have increased on using natural preservatives. This study was conducted to investigate the inhibitory effect of pure nisin and nisin nanoparticles (nisin NPs) against Aspergillus flavus in vivo by inoculation in laboratory-manufactured Ras cheese. A novel, safe, and natural approach of nanoprecipitation using acetic acid was employed to prepare nisin nanoparticles. The prepared NPs were characterized using zeta-sizer, FTIR, and transmission electron microscopy (TEM). Furthermore, the cytotoxicity of nisin NPs on Vero cells was assessed. The minimum inhibitory concentrations (MICs) of nisin and its nanoparticles were determined in vitro against A. flavus isolates using the agar well-diffusion method. The sensory evaluation of manufactured Ras cheese was conducted over a 60-day storage period. Results The obtained results showed a strong antifungal activity of nisin NPs (0.0625 mg/mL) against A. flavus strain in comparison with pure nisin (0.5 mg/mL). Notably, the count decreased gradually by time from 2 × 108 at zero time and could not be detected at the 7th week. The count with pure nisin decreased from 2 × 108 at zero time and could not be detected at the 10th week where it’s enough time to produce aflatoxins in cheese. The MICs of nisin and nisin NPs were 0.25 and 0.0313 mg/mL, respectively. Nisin NPs used in our experiment had good biocompatibility and safety for food preservation. Additionally, the sensory parameters of the manufactured Ras cheese inoculated with nisin and nisin NPs were of high overall acceptability (OAA). Conclusions Overall, the results of this study suggested that adding more concentration (˃0.0625 mg/mL) from nisin nanoparticles during the production of Ras cheese may be a helpful strategy for food preservation against A. flavus in the dairy industry.

Published
2024
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48. Outcomes of percutaneous coronary intervention in patients with chronic total occlusion (CTO): a single-center study evaluating a new dedicated CTO program in Egypt

Author

Hany Tawfik Fathelbab, Mahmoud Abdelghany, Michael Megaly, Mohamed Ashraf Shawky, and Khaled Zeineldin

Subjects
Chronic total occlusion, CTO, Percutaneous intervention, PCI, Egypt, Low-income, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9
Abstract

Abstract Purpose The conundrum of limited resources in developing countries leads to the abonnement and underutilization of percutaneous coronary intervention for chronic total occlusion, in addition to lack of expertise, limited supplies, and success rates. We embraced this challenge by initiating a dedicated program in a tertiary academic center in Egypt, aiming for optimum utilization of resources, limit cost, and gaining experience. We present our outcomes and the proficiency in establishing the program. Methods We enrolled all patients undergoing percutaneous coronary intervention for chronic total occlusion during the first year of initiating our dedicated program. Analysis of clinical data, angiographic findings, and procedural features were evaluated, aiming to evaluate outcomes. Our primary outcome was successful recanalization achievement, utilization of available resources and cost. Secondary outcomes such as peri-procedural myocardial infarction, coronary perforation, urgent need of coronary artery bypass grafting, cerebrovascular stroke, and mortality were assessed. Results Our study enrolled 64 patients electively admitted to the Critical Care Department, Cairo University, undergoing percutaneous coronary intervention for chronic total occlusion. The median J-CTO score was 2 (0–5). We achieved successful recanalization in 47 patients (73%). The mean procedural time was 123 ± 48.8 min, mean contrast volume was 359.03 ± 151.9 ml, and mean radiation dose was 9.4 ± 4.2 Gy. The mean number of wires per patient was 2.69 ± 1.32, and the most successful crossing strategy was antegrade wiring (56.3%). The commonest cause of failure was failure of re-entry (46.7%). One patient had peri-procedural MI (1.6%), and one patient required urgent CABG. There was no in-hospital mortality or cerebrovascular stroke. The cost ranged from 6520 Egyptian Pounds (EP) ($415) to 63,720 EP ($4058), with a mean of 26,213 EP ($1670). Conclusions Establishing a dedicated program for percutaneous coronary intervention for chronic total occlusion proved to be feasible and proficient, achieving high success rates with limited complications in view of limited resources, rationalized utilization of equipment, and limitation of hospital costs.

Published
2024
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49. Biosynthesis and characterization of Cu-Se bimetallic nanoparticles: an effective approach as anticancer agents

Author

Amany A. Hassabo, Basant A. Ali, Shaimaa A. Tawfik, and Hossam E. Emam

Subjects
nanoparticles, cu, se, bimetallic, marine bacterium, anticancer activity, Microbiology, QR1-502
Abstract

Bimetallic nanoparticles (BNPs) have garnered a great interest rather than monometallic nanoparticles (NPs) in terms of biotechnological applications due to their enhanced properties. They have a growing interest as promising biomedical agents for drug delivery, antibacterial, and anticancer treatments due to their significant permeability and retention effects. Both of nano-size copper (Cu) and selenium (Se) exhibited a significant activity in biological treatment and drug delivery systems. Consequently, the present work aimed to focus on the novel biogenic synthesis of Cu-Se BNPs using cell-free extract of a marine bacterium, and studying their anticancer and antioxidant activities. Based on 16S rDNA sequencing, the isolated marine bacterium was identified Bacillus amyloliquefaciens by phylogenetic analysis. Biogenic synthesis of Cu-Se BNPs was optimized by studying the effect of some physiological factors such as reaction time, pH, and temperature. Based on the reaction conditions, the biologically synthesized Cu-Se NPs was obtained with different particle size that ranged from 15.7-106.0 nm. The spherical small sized (15.7 nm) bimetallic Cu-Se BNPs displayed anticancer activity against HepG2 and MDA cell lines, while the cell viability was reduced by 87 % and 81 %, respectively. The estimated IC50 values were 696.4 µg/ ml for HepG2 and 273.9 µg/ ml for MDA, while scavenging capacity (SC) of Cu-Se BNPs (SC50 = 305.3 µM) showed lower ability to 2,2-diphenyl-1-picryl-hydrazyl-hydrate (DPPH) scavenging compared to ascorbic acid (SC50 = 95.9 µM).

Published
2024
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50. Mental health and binge-watching behavior among university students in Egypt

Author

Hussien Elkholy, Fairouz Tawfik, Mostafa Yosef, Joël Billieux, and Maèva Flayelle

Subjects
Binge-watching, Depression, Anxiety, Mental health, Psychiatry, RC435-571
Abstract

Abstract Background Binge-watching has become increasingly popular in recent years. Although it can provide a form of entertainment and mood regulation, it has also been associated with adverse mental health issues. In this study, we explored the association between binge-watching behavior and mental health. Methods Using a cross-sectional survey conducted from May to November 2018, we surveyed 535 participants over 18 years old from Ain Shams University by using a combination of online and pen-and-paper methods. Data on sociodemographic characteristics and TV series watching patterns were collected, and participants completed the Binge-Watching Engagement and Symptoms Questionnaire (BWESQ), the Brief Symptom Inventory (BSI-18), and the Subjective Happiness Scale (SHS). Results Among the 535 participants surveyed, 333 were retained and divided into three groups (i.e., non-binge-watchers, trouble-free binge-watchers, and problematic binge-watchers) in accordance with previous binge-watching research. Significant between-group differences were found in terms of relationship status, commonly used devices (mobile, laptop, TV), and perceived dependency on TV series watching. Problematic binge-watchers showed significantly higher scores for all BWESQ and BSI-18 subscales. Conclusion Trouble-free binge-watchers and problematic binge-watchers were more likely to be single than non-binge-watchers and demonstrated a marked preference for using mobile phones and laptops over traditional television. A significant positive relationship was found between problematic binge-watching and symptoms of depression, anxiety, and somatization.

Published
2024
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