Victor Shahen | Network Sciences Awards | Research Excellence Award

Published on by Network Science

Research Excellence Award

Victor Shahen
St Vincent’s Hospital Melbourne, Australia
Victor Shahen
Affiliation St Vincent’s Hospital Melbourne
Country Australia
Scopus ID 57203853485
Documents 4
Citations 54
h-index 3
Subject Area Network Sciences Awards
Event International Research Awards on Network Science & Graph Analytics
ORCID 0000-0001-9527-2073

The Research Excellence Award nomination profile highlights the scholarly contributions of Victor Shahen of St Vincent’s Hospital Melbourne. His published research spans personalized thoracic surgery, bone biology, diabetes-related skeletal complications, and cellular imaging methodologies. Through a focused portfolio of peer-reviewed publications, Shahen has contributed to translational biomedical research by examining mechanisms of tissue remodeling, metabolic disease, and advanced surgical planning technologies. These works collectively demonstrate interdisciplinary engagement across clinical medicine, molecular biology, and medical innovation.[1]

Abstract

Victor Shahen’s body of research reflects a commitment to addressing clinically relevant biomedical challenges through evidence-based investigation. His publications explore the effects of metabolic disorders on bone remodeling, innovative imaging approaches for cellular analysis, and advanced three-dimensional modeling techniques for thoracic surgery planning. These studies contribute valuable knowledge to personalized medicine and translational healthcare research.[2]

Keywords

Personalized Medicine, Thoracic Surgery, Bone Remodeling, Type 2 Diabetes Mellitus, Osteoblast Biology, Mitochondrial Trafficking, Biomedical Research, Translational Medicine.

Introduction

Modern biomedical science increasingly relies on interdisciplinary research capable of connecting laboratory findings with clinical outcomes. Shahen’s research activities exemplify this approach by integrating molecular investigations with practical healthcare applications. His studies address significant challenges in surgery, endocrinology, and cellular biology while supporting the broader goals of patient-centered medicine.[3]

Research Profile

Affiliated with St Vincent’s Hospital Melbourne, Victor Shahen has established a scholarly record indexed in Scopus with four publications, 54 citations, and an h-index of 3. His work demonstrates expertise in cellular mechanisms, metabolic disease pathology, and emerging technologies for surgical planning. The progression of his publications illustrates a consistent interest in translating biological insights into clinically meaningful outcomes.[1]

Research Contributions

  • Investigated mitochondrial trafficking analysis tools for neuronal cell research.
  • Explored the influence of hyperglycaemia, hyperinsulinemia, and inflammation on bone remodeling processes.
  • Evaluated therapeutic interventions involving cinacalcet and parathyroid hormone in cultured human osteoblasts.
  • Contributed to three-dimensional bronchovascular modeling for personalized thoracic surgical procedures.

Publications

  1. Three-Dimensional Bronchovascular Modelling in Sublobar Pulmonary Resection: A Tool for Personalised Thoracic Surgery (2026).
  2. Rescue of High Glucose Impairment of Cultured Human Osteoblasts Using Cinacalcet and Parathyroid Hormone (2023).
  3. Multifactorial Effects of Hyperglycaemia, Hyperinsulinemia and Inflammation on Bone Remodelling in Type 2 Diabetes Mellitus (2020).
  4. A Simple and Efficient Toolset for Analysing Mitochondrial Trafficking in Neuronal Cells (2018).

Research Impact

The citation performance and continued publication activity indicate measurable engagement with Shahen’s research outputs. His investigations have supported understanding of diabetic bone disease, cellular transport systems, and advanced surgical visualization technologies. Such contributions align with contemporary priorities in precision medicine and translational healthcare innovation.[4]

Award Suitability

Victor Shahen demonstrates characteristics commonly associated with candidates for academic recognition programs. His publication portfolio reflects methodological diversity, interdisciplinary collaboration, and relevance to contemporary biomedical challenges. The integration of personalized medicine concepts with practical clinical applications supports his suitability for consideration within the International Research Awards on Network Science & Graph Analytics framework, particularly in recognition categories emphasizing research excellence and scientific innovation.[5]

Conclusion

The academic achievements of Victor Shahen illustrate a focused and evolving research career dedicated to improving scientific understanding and clinical practice. Through contributions spanning cellular biology, metabolic disease, and personalized surgery, his work represents a meaningful addition to contemporary biomedical scholarship and supports consideration for research excellence recognition.[6]

References

  1. Elsevier. (n.d.). Scopus author details: Victor Shahen, Author ID 57203853485. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57203853485
  2. Shahen, V. (2026). Three-Dimensional Bronchovascular Modelling in Sublobar Pulmonary Resection: A Tool for Personalised Thoracic Surgery.
    DOI: https://doi.org/10.3390/jpm16060335
  3. Shahen, V. (2023). Rescue of High Glucose Impairment of Cultured Human Osteoblasts Using Cinacalcet and Parathyroid Hormone.
    DOI: https://doi.org/10.1007/s00223-023-01062-7
  4. Shahen, V. (2020). Multifactorial Effects of Hyperglycaemia, Hyperinsulinemia and Inflammation on Bone Remodelling in Type 2 Diabetes Mellitus.
    DOI: https://doi.org/10.1016/j.cytogfr.2020.04.001
  5. Shahen, V. (2018). A Simple and Efficient Toolset for Analysing Mitochondrial Trafficking in Neuronal Cells.
    DOI: https://doi.org/10.1016/j.acthis.2018.09.001
  6. International Research Awards on Network Science & Graph Analytics. (n.d.). Award program information and evaluation framework.
    networkscience-conferences.researchw.com

Azar Tahghighi | Others | Innovative Research Award

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Innovative Research Award

Azar Tahghighi
Pasteur Institute of Iran

Azar Tahghighi
Affiliation Pasteur Institute of Iran
Country Iran
Scopus ID 24923832500
Documents 47
Citations 728
h-index 15
Subject Area Others
Event International Research Awards on Network Science & Graph Analytics
ORCID 0000-0002-1221-4490

Azar Tahghighi is a researcher affiliated with the Pasteur Institute of Iran whose scientific contributions span medicinal chemistry, computational drug discovery, antimicrobial research, and molecular design. Through a combination of experimental and in silico methodologies, Tahghighi has participated in the development and evaluation of bioactive compounds targeting infectious diseases and immune-related pathways. The researcher’s publication record demonstrates sustained engagement with pharmaceutical innovation, molecular docking, virtual screening, and structure-based drug design approaches.[1]

Abstract

This article highlights the scholarly profile of Azar Tahghighi and evaluates the relevance of the researcher’s achievements for recognition under the Innovative Research Award category. The body of work encompasses medicinal chemistry, computational biology, antimicrobial discovery, and receptor-targeted molecular design. Published studies demonstrate interdisciplinary integration of laboratory validation and computational modeling, contributing to contemporary pharmaceutical and biomedical research.[2]

Keywords

Medicinal Chemistry, Molecular Docking, Drug Discovery, Antimicrobial Research, Virtual Screening, Biofilm Inhibition, Computational Biology, Pharmaceutical Sciences.

Introduction

Modern biomedical innovation increasingly relies on the integration of computational prediction and experimental validation. Azar Tahghighi’s research reflects this trend through studies focused on molecular interactions, therapeutic candidate identification, and biologically active compound optimization. Such work contributes to advancing drug development methodologies and addressing challenges associated with infectious diseases and immune modulation.[3]

Research Profile

The researcher has accumulated 47 indexed publications, 728 citations, and an h-index of 15. Research activities are characterized by multidisciplinary collaboration and a focus on translational applications. Areas of expertise include medicinal chemistry, receptor-based drug design, antimicrobial agents, computational pharmacology, and chemical biology.[1]

Research Contributions

  • Development of triazoloquinoxaline derivatives as potential Toll-like receptor 7 ligands for immune modulation.[2]
  • Application of pharmacophore-based virtual screening and molecular docking methodologies for candidate identification.[3]
  • Investigation of antibacterial and antibiofilm agents targeting methicillin-resistant Staphylococcus aureus.[4]
  • Advancement of green chemistry approaches for antifungal drug synthesis through click chemistry methodologies.[5]

Publications

  • Structure-guided design of triazolo[4,3-a] quinoxaline-4-ol derivatives as novel TLR7 ligands (2026).
  • Identification of new triazoloquinoxaline amine derivatives through virtual screening and docking approaches (2025).
  • Antibacterial and antibiofilm efficacy of a synthetic nitrofuranyl pyranopyrimidinone derivative (2025).
  • Click chemistry as a tool for green synthesis of antifungal medications (2024).
  • Evaluation of antibacterial and antibiofilm activity of probiotic Lactobacillus extracts (2024).

Research Impact

The scientific contributions of Azar Tahghighi have supported advancements in drug discovery pipelines, particularly through the integration of computational screening tools with laboratory experimentation. The citation profile indicates sustained scholarly engagement, while publications in peer-reviewed journals reflect relevance across medicinal chemistry, microbiology, and pharmaceutical sciences. These outcomes contribute to knowledge generation and provide frameworks for future therapeutic development.[4][5]

Award Suitability

Azar Tahghighi demonstrates characteristics commonly associated with innovative scientific achievement, including interdisciplinary collaboration, methodological diversity, and practical relevance. The researcher’s work on receptor-targeted compounds, antimicrobial agents, and computational drug discovery illustrates a commitment to addressing contemporary biomedical challenges through evidence-based approaches. Such contributions align with the objectives of the International Research Awards on Network Science & Graph Analytics in recognizing impactful and forward-looking research accomplishments.

Conclusion

The academic record of Azar Tahghighi reflects sustained contributions to medicinal chemistry and biomedical research. Through a combination of computational and experimental methodologies, the researcher has participated in advancing scientific understanding of therapeutic design and antimicrobial discovery. The overall profile supports consideration for recognition within the Innovative Research Award category.

References

  1. Elsevier. (n.d.). Scopus author details: Azar Tahghighi, Author ID 24923832500. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=24923832500
  2. Tahghighi, A. (2026). Structure-guided design of triazolo[4,3-a] quinoxaline-4-ol derivatives as novel TLR7 ligands.
    DOI: https://doi.org/10.1016/j.chphi.2026.101045
  3. Tahghighi, A. (2025). Identification of new triazoloquinoxaline amine derivatives through virtual screening and molecular docking.
    DOI: https://doi.org/10.1371/journal.pone.0336701
  4. Tahghighi, A. (2025). Antibacterial and Antibiofilm Efficacy of a Synthetic Nitrofuranyl Pyranopyrimidinone Derivative.
    DOI: https://doi.org/10.61882/JoMMID.13.2.139
  5. Tahghighi, A. (2024). Click chemistry beyond metal-catalyzed cycloaddition as a remarkable tool for green chemical synthesis of antifungal medications.
    DOI: https://doi.org/10.1111/cbdd.14555
  6. Iranian Biomedical Journal. (2024). Evaluation of Anti-Bacterial and Anti-Biofilm Activity of Native Probiotic Strains of Lactobacillus Extracts.
    DOI: https://doi.org/10.61186/ibj.4043

Grazia Lo Sciuto | Introduction to Network Science and Graph Theory | Innovative Research Award

Published on by Network Science

Innovative Research Award

Grazia Lo Sciuto
University of Catania, Italy

Grazia Lo Sciuto
Affiliation University of Catania
Country Italy
Scopus ID 57222238269
Documents 104
Citations 1,805
h-index 27
Subject Area Introduction to Network Science and Graph Theory
Event International Research Awards on Network Science & Graph Analytics
ORCID 0000-0001-9384-7232

Grazia Lo Sciuto is an Italian researcher affiliated with the University of Catania whose scholarly activities span intelligent systems, computational modeling, machine learning applications, advanced materials characterization, and engineering optimization. Through an extensive publication portfolio and a sustained record of scientific contributions, her work has supported interdisciplinary developments involving predictive analytics, sensor technologies, additive manufacturing, and data-driven engineering methodologies. The breadth of her research profile and measurable citation impact have positioned her among active contributors to contemporary computational and engineering sciences.[1]

Abstract

This article presents an academic overview of Grazia Lo Sciuto and her contributions to computational engineering, intelligent modeling, and data-driven scientific research. Her body of work integrates artificial intelligence techniques with engineering applications, enabling predictive frameworks for manufacturing systems, materials behavior analysis, and sensor-based technologies. The combination of methodological rigor and interdisciplinary collaboration has contributed to a significant scholarly record reflected through publications, citations, and research visibility.[2]

Keywords

Machine Learning, Network Science, Graph Theory, Artificial Neural Networks, Engineering Analytics, Additive Manufacturing, Sensor Modeling, Computational Intelligence, Predictive Engineering, Data-Driven Research.

Introduction

Modern engineering increasingly relies on computational tools capable of extracting meaningful patterns from complex datasets. Researchers operating at the intersection of artificial intelligence and engineering sciences contribute substantially to technological advancement. Grazia Lo Sciuto’s research reflects this interdisciplinary trend by applying machine learning and advanced analytical methods to engineering challenges involving manufacturing systems, fluid dynamics, magnetic devices, and materials characterization.[3]

Research Profile

With more than one hundred indexed scholarly documents and an h-index of 27, Grazia Lo Sciuto has established a sustained research presence across multiple engineering and computational domains. Her academic profile demonstrates consistent engagement with emerging methodologies, particularly machine learning, predictive modeling, optimization techniques, and intelligent sensing systems. These activities have contributed to a citation record exceeding 1,800 citations, reflecting both visibility and influence within the scientific community.[1]

Research Contributions

Her research contributions include the application of artificial neural networks, support vector machines, Gaussian process regression, and nonlinear autoregressive models to solve engineering prediction problems. Recent studies have investigated wire-arc additive manufacturing deposition prediction, constitutive modeling of stainless steel under varying conditions, magnetic spring harvesting systems, and Hall-effect sensor-based magnetic flux estimation. These contributions illustrate the integration of advanced computational intelligence with practical engineering applications.[4][5]

Publications

  • Geometrical Prediction of Copper-Coated Solid-Wire Deposition by Wire-Arc Additive Manufacturing Based on Artificial Neural Networks and Support Vector Machines (2026).
  • Nonlinear Temperature and Pumped Liquid Dependence in Electromagnetic Diaphragm Pump (2025).
  • Gaussian Process Regression for Constitutive Modeling of Austenitic Stainless Steel Under Various Strain Rates and Temperatures (2025).
  • Magnetorheological Fluid Magnetic Spring Harvester Design and Characterization (2025).
  • Nonlinear Autoregressive Neural Network with Exogenous Input Model Approach for Magnetic Flux Density Measured by Hall-Effect Sensor in Magnetic Spring (2025).

Research Impact

The impact of Lo Sciuto’s research extends across academic and applied engineering environments. Her studies demonstrate how computational intelligence can improve predictive accuracy, optimize manufacturing workflows, and enhance understanding of complex physical systems. The interdisciplinary nature of her publications promotes knowledge transfer among engineering, materials science, computational analytics, and intelligent systems communities.[6]

Award Suitability

Grazia Lo Sciuto’s record of scholarly productivity, citation influence, and interdisciplinary innovation aligns with the objectives of the International Research Awards on Network Science & Graph Analytics. Her demonstrated ability to integrate advanced computational methods into practical engineering solutions reflects the qualities often recognized by international research award programs. The combination of publication output, research diversity, and measurable impact supports consideration for academic recognition within a global scientific context.

Conclusion

The academic achievements of Grazia Lo Sciuto illustrate the growing importance of intelligent computational methodologies in engineering research. Through contributions spanning machine learning, predictive analytics, materials modeling, and advanced sensing technologies, she has developed a notable research portfolio characterized by interdisciplinary relevance and scientific impact. Her work continues to contribute to ongoing advancements in engineering and computational sciences.

References

  1. Elsevier. (n.d.). Scopus author details: Grazia Lo Sciuto, Author ID 57222238269. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57222238269
  2. ORCID. (n.d.). Research profile of Grazia Lo Sciuto.
    https://orcid.org/0000-0001-9384-7232
  3. Lo Sciuto, G. (2026). Geometrical Prediction of Copper-Coated Solid-Wire Deposition by Wire-Arc Additive Manufacturing Based on Artificial Neural Networks and Support Vector Machines.
    https://doi.org/10.3390/metrology6010018
  4. Lo Sciuto, G. (2025). Gaussian Process Regression for Constitutive Modeling of Austenitic Stainless Steel Under Various Strain Rates and Temperatures.
    https://doi.org/10.1007/s40870-025-00493-7
  5. Lo Sciuto, G. (2025). Magnetorheological Fluid Magnetic Spring Harvester Design and Characterization.
    https://doi.org/10.12913/22998624/200857
  6. Lo Sciuto, G. (2025). Nonlinear Autoregressive Neural Network with Exogenous Input Model Approach for Magnetic Flux Density Measured by Hall-Effect Sensor in Magnetic Spring.
    https://doi.org/10.18576/amis/190108

Zilan Bazancir-Apaydin | Network Properties | Research Excellence Award

Published on by Network Science

Dr. Zilan Bazancir-Apaydin | Network Properties | Research Excellence Award

Ankara Medipol University | Turkey

Dr. Zilan Bazancir-Apaydin is an accomplished academic in the field of Physiotherapy and Rehabilitation with a strong background in education, research, and clinical sciences. She earned her PhD in Physical Therapy and Rehabilitation from Hacettepe University, Ankara, following her MSc from the Institute of Health Sciences at Inonu University, Malatya. Dr. Bazancir-Apaydin completed her undergraduate studies in Physiotherapy and Rehabilitation at Gazi University, Ankara. She is currently serving as an Assistant Professor at Ankara Medipol University, a position she has held since August 2022. Prior to this, she worked as a Research Assistant at Hacettepe University and Inonu University, gaining extensive experience in academic research and teaching. Her research interests focus on network properties and measures, contributing to the advancement of analytical approaches in rehabilitation sciences.

Citation Metrics (Scopus)

100
60
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Citations
66

Documents
23

h-index
5

Citations

Documents

h-index


View Scopus Profile
 View Orcid Profile
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Featured Publications

The profile beyond leg pain: On the basis of central sensitization, kinesiophobia, and body awareness in patients with chronic venous disease

– Phlebology: The Journal of Venous Disease, 2025
Comparison of plantar pressure distribution patterns of patients with ankylosing spondylitis and asymptomatic healthy individuals: A cross-sectional study

– Irish Journal of Medical Science, 2025
Immediate effects of Compressive Myofascial Release versus Talocrural Joint Mobilization on passive mechanical properties and functional outcomes after Achilles tendon repair

– Physiotherapy Theory and Practice, 2025
Early strength gains in eccentric hip adduction and adduction-to-abduction ratio following an 8-week Copenhagen Adduction Exercise in elite adolescent taekwondo athletes

– Journal of Bodywork and Movement Therapies, 2025
Assessing the impact of dysphagia on quality of life and determining SWAL-QOL cut-off scores in diabetes mellitus patients: A data mining approach

– Journal of Diabetes and Its Complications, 2025

Venceslas Nguefoue Meli | Non-Linear Dynamics | Young Scientist Award

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Dr. Venceslas Nguefoue Meli | Non-Linear Dynamics | Young Scientist Award

University of Dschang | Cameroon

Author Profile

Scopus

Early Academic Pursuits

Dr. Venceslas Nguefoue Meli’s academic journey began at the University of Dschang, Cameroon, where he demonstrated exceptional aptitude in physics from the undergraduate level, graduating cum laude with a Bachelor’s degree. His curiosity and determination led him to pursue a Master’s degree in Physics under the supervision of Prof. Patrick Louodop, focusing on the intriguing problem of recidivism in dynamical systems with applications to cancer modeling. This period of academic training laid the foundation for his Ph.D. in Physics, with a specialization in complex systems, under the joint guidance of Prof. Hilaire Bertrand Fotsin and Prof. Louodop. His doctoral thesis, Dynamics and Optimal Control of Mobiles and Interacting Systems, reflected a deep commitment to understanding intricate interactions within variable topology networks.

Professional Endeavors

Dr. Meli’s career is marked by a balance of academic teaching, research, and professional service. He has served as a tutorial assistant and lecturer in various institutions, including the University of Dschang, Université Polytechnique des Bamboutos Léonardo Da Vinci, and the Institut Universitaire et Stratégique de l’Estuaire. His teaching portfolio spans electronics, applied electronics in medical imaging, physics, electrostatics, and MATLAB programming, providing a strong interdisciplinary contribution to science education in Cameroon. Additionally, he has contributed to the academic development of students at both undergraduate and postgraduate levels, fostering critical thinking and problem-solving skills.

Contributions and Research Focus

Dr. Meli’s research lies at the intersection of complex systems, nonlinear dynamics, optimal control, and complex networks. His work particularly explores mobile systems in networks with variable topology, focusing on collective behaviors and their practical applications. By integrating concepts from hypergraph theory, he is extending his research scope toward emerging areas in network science. His technical expertise includes electronics circuit design, MATLAB, Python, and C programming, which enable him to approach problems from both theoretical and applied perspectives.

Impact and Influence

Through his academic presentations and conference participation, Dr. Meli has contributed to the global discourse in physics and complex systems. He has presented at internationally recognized events, including the São Paulo School of Advanced Science on Disordered Systems and the International Conference on High-Level Physics and Appropriate Solutions to Real-Life Problems. His research insights have influenced peers working on dynamics of mobile oscillators, network structures, and mutual interactions in systems, especially within the African scientific community.

Academic Citations and Scholarly Engagement

While emerging in his research career, Dr. Meli has actively engaged in scholarly exchanges through seminars, workshops, and conference presentations. His academic contributions are poised to gain further citations as his work on mobile oscillator networks and nonlinear dynamics continues to resonate with researchers in physics, applied mathematics, and systems science.

Legacy and Future Contributions

Looking ahead, Dr. Meli is positioned to advance research in hypergraph theory and its application to complex systems, with the potential to influence both theoretical models and technological innovations. His dedication to academic mentorship, interdisciplinary collaboration, and addressing real-world challenges ensures that his scientific contributions will continue to grow in relevance and impact.

Conclusion

Dr. Venceslas Nguefoue Meli embodies the qualities of a dedicated researcher, educator, and innovator in the field of complex systems and network science. His academic rigor, teaching excellence, and collaborative spirit have already marked him as a promising figure in the scientific community. With a trajectory that bridges theoretical insights and practical applications, he is well-positioned to make enduring contributions to physics and interdisciplinary research, aligning strongly with the ideals of awards recognizing young scientific talent.

Notable Publications

"Mobile oscillators in a mobile multi-layer network

  • Author: Venceslas Nguefoue , Steve J. Kongni, Thierry Njougouo, Patrick Louodop, Hubert Fotsin, Hilda A. Cerdeira
  • Journal: Chaos AIP
  • Year: 2025

"Chimera state in neural network with the PID coupling

  • Author: Mahamat Abdoulaye Adamdine, Venceslas Nguefoue, Thierry Njougouo, Patrick Louodop
  • Journal: Solitons and Fractals
  • Year: 2024

"Phase transitions on a multiplex of swarmalators

  • Author: Steve J. Kongni, Venceslas Nguefoue, Thierry Njougouo, Patrick Louodop, F. Fagundes Ferreira, Robert
    Tchitnga, Hilda A. Cerdeira
  • Journal: Physical Review E
  • Year: 2023

"Mobile oscillator network with amplification

  • Author: Venceslas Nguefoue, Thierry Njougouo, Steve Kongni, Patrick Louodop, Hilaire Fotsin
  • Journal: Solitons and Fractals
  • Year: 2023

"Network of mobile systems: mutual influence of oscillators and agents

  • Author: Venceslas Nguefoue, Thierry Njougouo, Patrick Louodop, Hilaire Fotsin, and Hilda A. Cerdeira
  • Journal: The European Physical Journal Special Topics
  • Year: 2021