Liang Zhang | Economics | Research Excellence Award

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Dr. Liang Zhang | Economics | Research Excellence Award

Central South University | China

Dr. Liang Zhang is a highly productive and analytically rigorous scholar whose research contributes significantly to the fields of strategic management, corporate innovation, stakeholder governance, and organizational resilience. As an associate professor at the Business School of Central South University, his work integrates perspectives from institutional theory, organizational behavior, resource-based thinking, and corporate governance to explain how firms navigate complex institutional, political, and market environments. His research portfolio demonstrates a strong theoretical foundation combined with empirical sophistication, offering valuable insights into how organizations respond to external pressures and internal constraints. A substantial portion of his work examines the influence of institutional forces—such as ideological imprinting, government interventions, and political ties—on firm behavior. His article in the British Journal of Management (2023) provides a compelling analysis of how communist ideological imprinting shapes the strategic transformation of state-owned enterprises, contributing to a deeper understanding of institutional persistence and organizational adaptation. His more recent work, also in British Journal of Management (2024), explores the curvilinear relationship between supply concentration and organizational resilience, highlighting how firms balance risk exposure and resource dependence. Corporate innovation forms another major pillar of his scholarship. His publications in Industry and Innovation analyze the effects of R&D subsidies, partner repeatedness in university-industry alliances, and the configuration of collaborative portfolios on firm innovation performance. These studies offer nuanced insights into how firms strategically allocate and utilize resources, how collaboration patterns shape knowledge flows, and how external supports influence innovation outcomes. This line of inquiry aligns with global priorities around technological upgrading, innovation ecosystems, and sustainable competitiveness. His broader work on stakeholder dynamics and governance further enriches his research contributions. Publications in Management and Organization Review, Journal of Business Research, and IEEE Transactions on Engineering Management examine conflicting stakeholder pressures, the signaling effects of government official visits, financing outcomes for young technology-based firms, and board–CEO social ties as determinants of agency costs. These studies collectively illuminate how organizations manage external expectations, secure critical resources, and control internal governance risks. Across his publications, a consistent strength is his ability to integrate multiple theoretical perspectives to explain complex organizational phenomena. His empirical studies frequently utilize multilevel data, advanced statistical modeling, and contextually grounded institutional analysis, reinforcing the robustness of his findings. Liang Zhang’s research provides valuable implications for scholars, policymakers, and industry leaders concerned with innovation management, organizational adaptation, and strategic decision-making in emerging and transitional economies.

Profiles: Orcid | Google Scholar

Featured Publications

Zhang, L., Zhang, Z., Jia, M., & Ren, Y. (2020). A tiger with wings: CEO–board surname ties and agency costs. Journal of Business Research, 118, 271–285.

Zhang, L., Ren, Y., & Wu, J. (2023). Communist ideological imprinting and the transformation of state‐owned enterprises. British Journal of Management, 34(2), 1062–1078.

Zhang, L., Zhang, Z., Ren, Y., & Jia, M. (2020). The signaling effect of government official visits on external financing of young technology-based firms. IEEE Transactions on Engineering Management, 69(4), 888–903.

Ren, Y., Zhao, W., Zhang, L., & Hou, T. (2024). R&D subsidy and corporate innovation: An integrated view of resource allocation and resource utilisation. Industry and Innovation, 31(6), 727–752.

Zhang, L., Zhang, Z., Jia, M., & Ren, Y. (2017). Do outside directors matter? The impact of prestigious CEOs on firm performance. Chinese Management Studies, 11(2), 284–302.

Zhang, L., Zhang, Z., Jia, M., & Ren, Y. (2020). The strength of two hands: Conflicting stakeholder pressures and corporate philanthropic giving. Management and Organization Review, 16(2), 335–375.

Zhang, S., Shen, H., Zhang, L., & Li, Y. (2023). Promote or inhibit? The influence of partner repeatedness in university–industry alliance portfolios on firm innovation performance. Industry and Innovation, 30(4), 480–505.

Ren, Y., Li, J. J., Zhao, W., & Zhang, L. (2024). The delicate equilibrium: Unveiling the curvilinear nexus between supply concentration and organizational resilience. British Journal of Management, 35(4), 1935–1960.

Muhammad Naveed Khan | Chemical Engineering | Best Researcher Award

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Dr. Muhammad Naveed Khan | Chemical Engineering | Best Researcher Award

Zhejiang university | China

Dr. Muhammad Naveed Khan is an accomplished researcher in applied mathematics and computational fluid dynamics, recognized internationally for his extensive contributions to non-Newtonian fluid modeling, hybrid nanofluid behavior, and advanced numerical simulation techniques. With a strong research foundation built through doctoral training in applied mathematics and continuous postdoctoral work at leading academic institutions, he has established himself as a prolific scholar in contemporary fluid mechanics and heat transfer analysis. Dr. Khan’s research focuses on a wide spectrum of computational and theoretical problems, including partial differential equations, heat and mass transfer analysis, hybrid nanofluid and ternary nanofluid flows, magnetohydrodynamics (MHD), bioconvection, multiphase flow stability, and Newtonian and non-Newtonian fluid behaviors under complex physical constraints. His expertise extends to modern transport theories such as Cattaneo–Christov heat flux, Darcy–Forchheimer porous media flow, swirling and rotational fluid systems, chemically reactive micropolar flows, and mixed convection phenomena. His contributions also include exploring the thermophysical roles of nanomaterials, bio-convection mechanisms, cross-diffusion effects, and entropy generation in next-generation heat transfer systems. With 80 SCI-indexed research publications, Dr. Khan has built a substantial scientific footprint, contributing first-author articles to high-impact journals such as Tribology International, Journal of Molecular Liquids, Case Studies in Thermal Engineering, Surfaces and Interfaces, and Journal of Computational Design and Engineering. His work consistently appears in Q1-ranked journals, demonstrating both scientific rigor and high relevance to global research challenges in energy engineering, fluid mechanics, and material science. His citation metrics—highlighted by more than 1700 citations, an h-index of 25, and an i10-index of 47—reflect his strong influence in the field. He has been recognized among the Top 2% most-cited scientists worldwide by Stanford University for consecutive years, underscoring the global impact of his scholarship. His research engagement includes supervising postgraduate scholars, contributing as a reviewer for more than 30 international scientific journals, and developing advanced computational solutions using COMSOL Multiphysics, MATLAB, MAPLE, and Mathematica. Dr. Khan’s ongoing projects include numerical modeling of drag–lift forces, chemically reactive micropolar systems, MHD nanofluid flows, entropy minimization, and multi-slip non-Newtonian flows over complex geometries. His sustained contributions strengthen theoretical fluid mechanics and support emerging applications in energy systems, environmental modeling, advanced heat exchangers, and high-performance engineering materials.

Profiles: Orcid | Google Scholar

Featured Publications

Khan, A. A., Khan, M. N., Ahammad, N. A., Ashraf, M., Guedri, K., & Galal, A. M. (2022). Flow investigation of second grade micropolar nanofluid with porous medium over an exponentially stretching sheet. Journal of Applied Biomaterials & Functional Materials. https://doi.org/10.1177/22808000221089782

Ahmad, S., Nadeem, S., & Khan, M. N. (2022). Heat enhancement analysis of the hybridized micropolar nanofluid with Cattaneo–Christov and stratification effects. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. https://doi.org/10.1177/09544062211010833

Zhang, J., Ahmed, A., Khan, M. N., Wang, F., Abdelmohsen, S. A. M., & Tariq, H. (2022). Swirling flow of fluid containing (SiO₂) and (MoS₂) nanoparticles analyzed via Cattaneo–Christov theory. Journal of Applied Biomaterials & Functional Materials. https://doi.org/10.1177/22808000221094685

Khan, M. N., Nadeem, S., Abbas, N., & Zidan, A. M. (2021). Heat and mass transfer investigation of a chemically reactive Burgers nanofluid with an induced magnetic field over an exponentially stretching surface. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering. https://doi.org/10.1177/09544089211034941

Khan, A. A., Khan, M. N., Nadeem, S., Hussain, S. M., & Ashraf, M. (2021). Thermal slip and homogeneous/heterogeneous reaction characteristics of second-grade fluid flow over an exponentially stretching sheet. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering. https://doi.org/10.1177/09544089211064187

Khan, M. N., & Nadeem, S. (2021). MHD stagnation point flow of a Maxwell nanofluid over a shrinking sheet (multiple solution). Heat Transfer. https://doi.org/10.1002/htj.22098

Kun He | Computer Science | Research Excellence Award

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Assoc Prof Dr. Kun He | Computer Science | Research Excellence Award 

Renmin University | China

Dr. Kun He is an accomplished computer scientist and currently serves as an Associate Professor at Renmin University of China (since January 2023). His academic journey reflects a strong foundation in theoretical computer science, backed by extensive research experience across leading Chinese institutions. Before joining Renmin University, he worked at the Institute of Computing Technology (ICT), Chinese Academy of Sciences (CAS), first as an Assistant Researcher (2021–2022) and later as an Associate Researcher (2022). He also completed a postdoctoral fellowship at Shenzhen University between 2019 and 2021. Dr. He earned his Ph.D. in Computer Science from ICT, CAS in 2019 under the supervision of Prof. Xiaoming Sun. He also holds a Master’s degree from ICT, CAS and a Bachelor of Engineering in Computer Science from Wuhan University. His research centers on the theory of computing, with particular emphasis on probabilistic methods, sampling algorithms, quantum computing, combinatorial structures, and theoretical machine learning. His work has significantly advanced algorithmic techniques related to the Lovász Local Lemma (LLL), Holant problems, and random constraint satisfaction. Over the years, Dr. He has received numerous prestigious awards recognizing the impact and quality of his research. These include the New Hundred Stars of ICT (2021), the Outstanding Doctoral Dissertation Award of the China Computer Federation (2020), the Special Award for the President of CAS (2019), and the National Scholarship of China (2018). These honors highlight his early and sustained contributions to theoretical computer science. Dr. He has published extensively in top-tier venues such as SODA, STOC, FOCS, ITCS, and Random Structures & Algorithms. His notable works include breakthroughs on the Moser–Tardos algorithm, deterministic counting versions of the Lovász Local Lemma, sampling solutions to random CNF formulas, and quantum extensions of classical combinatorial frameworks. Several of his papers have been widely cited and recognized, including a top-downloaded publication in Random Structures & Algorithms (2020). Recently, his research continues to push theoretical boundaries, with upcoming papers on the phase transition of the Sinkhorn–Knopp algorithm and efficient approximation schemes for Holant problems. Dr. He also actively works on emerging topics involving perfect sampling and permutation constraints within the Lopsided LLL regime, with multiple manuscripts currently under submission. With strong expertise, a prolific publication record, and multiple high-impact contributions, Dr. Kun He stands as a leading figure in modern theoretical computer science.

Profiles: Scopus | Google Scholar

Featured Publications

He, K., Li, L., Liu, X., Wang, Y., & Xia, M. (2025). Variable version Lovász Local Lemma: A tale of two boundaries. Information and Computation, 105386.

He, K. (2025). Phase transition of the Sinkhorn-Knopp algorithm. arXiv preprint arXiv:2507.09711.

He, K., Li, Z., Qiu, G., & Zhang, C. (2025). FPTAS for Holant problems with log-concave signatures. In Proceedings of the 2025 Annual ACM–SIAM Symposium on Discrete Algorithms (SODA).

He, K., Qiu, G., & Sun, X. (2024). Sampling permutations satisfying constraints within the lopsided local lemma regime. arXiv preprint arXiv:2411.02750.

He, K., Qiu, G., & Sun, X. (2024). Sampling permutations satisfying constraints within and beyond the local lemma regime. arXiv e-prints, arXiv:2411.02750.

He, K., Li, Q., & Sun, X. (2023). Moser-Tardos algorithm: Beyond Shearer’s bound. In Proceedings of the 2023 Annual ACM–SIAM Symposium on Discrete Algorithms (SODA).

He, K., Wang, C., & Yin, Y. (2023). Deterministic counting Lovász Local Lemma beyond linear programming. In Proceedings of the 2023 Annual ACM–SIAM Symposium on Discrete Algorithms (SODA).

He, K., Wu, K., & Yang, K. (2023). Improved bounds for sampling solutions of random CNF formulas. In Proceedings of the 2023 Annual ACM–SIAM Symposium on Discrete Algorithms (SODA).

He, K., Wang, C., & Yin, Y. (2022). Sampling Lovász Local Lemma for general constraint satisfaction solutions in near-linear time. In 2022 IEEE 63rd Annual Symposium on Foundations of Computer Science (FOCS).

Alaba Ayotunde Fadele | Computer Science | Research Excellence Award

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Dr. Alaba Ayotunde Fadele | Computer Science | Research Excellence Award

Dr. Alaba Ayotunde Fadele | Federal University of Education | Nigeria

Dr. Alaba Ayotunde Fadele is a distinguished computer scientist and academic leader whose work spans blockchain, cybersecurity, IoT systems, and smart contract security. He is currently a Post-Doctoral Fellow at the Instituto de Estudos e Desenvolvemento de Galicia (IDEGA), Madrid, Spain, beginning in 2025. He holds two Ph.D. degrees: a Ph.D. in Computer Science with a specialization in Blockchain from the International University, Bamenda (2020–2023), where his research focused on smart contracts and cyber security, and a Ph.D. in Computer Science from the University of Malaya (2016–2019), specializing in IoT and cyber security. His earlier academic foundations include a Master of Computer Science (2011–2014) from Ahmadu Bello University, a Postgraduate Diploma in Education (2011–2012) from Usman Danfodio University, and a First Class Honours Bachelor’s degree in Computer Science (2004–2008) from Nasarawa State University. Dr. Fadele has held major administrative and academic leadership roles, including Director of the ICT Unit at the Federal University of Education, Zaria (from October 2025), Head of the Department of Computer Science (from June 2025), and Head of the Communications Advancement Unit in the Directorate of University Advancement (2024–2025). He has served as a full-time lecturer at the Federal University of Education, Zaria since 2010, a visiting lecturer at St. Francis of Assisi College of Education since 2021, and previously as a lecturer at the Federal Polytechnic Bauchi, as well as a Research Assistant at the University of Malaya. His outstanding contributions have earned him the 2019 JNCA Best Survey Paper Award, Best Presenter Award at the Faculty of Computer Science and Information Technology Postgraduate Symposium in Malaysia (2017), and recognition as the Best Graduating Student in Computer Science at Nasarawa State University (2007/2008). Dr. Fadele has authored 20 scholarly publications, accumulating 1,253 citations from 1,245 documents, and holds an h-index of 10, reflecting his impactful contributions to cyber security, IoT research, blockchain systems, and advanced computing innovations.

Profiles: Scopus Orcid 

Featured Publications

Alaba, F. A., & Rocha, A. (2025). Conclusions, future directions, and recommendations. In F. A. Alaba & A. Rocha (Eds.), Studies in Systems, Decision and Control (Chapter 5). Springer.

Alaba, F. A., & Rocha, A. (2025). Implementation results. In F. A. Alaba & A. Rocha (Eds.), Studies in Systems, Decision and Control (Chapter 4). Springer.

Alaba, F. A., & Rocha, A. (2025). Machine learning algorithms on malware detection against smart wearable devices. In F. A. Alaba & A. Rocha (Eds.), Studies in Systems, Decision and Control (Chapter 3). Springer.

Alaba, F. A., & Rocha, A. (2025). Security challenges of wearable technology. In F. A. Alaba & A. Rocha (Eds.), Studies in Systems, Decision and Control (Chapter 2). Springer.

Ahmed Sobhy Abdelrahim Abdallah Darwish | Analytical Chemistry | Research Excellence Award

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Dr. Ahmed Sobhy Abdelrahim Abdallah Darwish | Analytical Chemistry | Research Excellence Award

Dr. Ahmed Sobhy Abdelrahim Abdallah Darwish | Zagazig University | Egypt

Dr. Ahmed Sobhy Abdelrahim Abdallah Darwish is a highly qualified analytical chemist with a strong academic foundation, holding a B.Sc. in Chemistry–Physics from Zagazig University, a diploma in analytical chemistry with Excellent grade, a pre-master qualification scoring 98%, and a completed M.Sc. in analytical chemistry, while currently pursuing a Ph.D. in the same field. His credentials include a valid TOEFL certificate demonstrating doctoral-level proficiency. He possesses extensive professional experience across the pharmaceutical industry, beginning as a QC chemist and advancing to senior roles in stability and methodology, ultimately becoming Deputy Manager of Labs Development at EIPICO, where he leads a team of ten staff members and oversees method development, comparative in vitro testing, and stress stability research. Dr. Darwish has distinguished technical negotiation capabilities with major international pharmacopoeias including USP, EP, BP, and regulatory bodies such as SFDA, Romanian FDA, and Jordan FDA. His research portfolio includes completed and published works on eco-friendly, sustainable, and greenness-evaluated HPLC methods, such as stability-indicating assays for piracetam, vincamine, LEVOMENOL, NETILMICIN, butylated hydroxytoluene, retinol, tocopherol, colchicine, khellin, valsartan, sacubitril, and shelf-life HPLC methods for sugammadex sodium. He has authored and co-authored 7 peer-reviewed publications, with 33 citations from 22 documents and an h-index of 3 (Scopus ID: 59519037100), reflecting growing international recognition in green analytical chemistry and pharmaceutical analysis. His consultancy and technical leadership span Delta Pharma, Grand Pharma, Averroes Pharma, Al-Debeiky Pharma, and Copad Pharma, covering QC operations, stability programs, method development, and finished product evaluation from 2009 to 2021, before joining EIPICO in a senior R&D role. His expertise includes advanced operation of HPLC, GC, ICP, AAS, UV-Vis, and other analytical platforms essential for pharmaceutical quality assessment. Dr. Darwish serves as a reviewer for multiple international journals including European Journal of Scientific Research and Reviews, Results in Chemistry (Elsevier), Bulletin of the Chemical Society of Ethiopia, Asian Journal of Cardiology Research, and Asian Journal of Medical Principles and Clinical Practice, and acts as a Google Scholar and Crossref reviewer for ETERNO PRESS Scholar Council. His collaborative achievements include participation in the USP QualityAssist beta program (2025), contribution to BP sustainability guidance through two accepted ecofriendly case studies (2024), liaison with the Egyptian Pharmacopoeia since 2024, contributions to BP Research Users in 2023, and involvement in USP’s 2021 Dexamethasone product requirements project. Dedicated to green chemistry, pharmaceutical analysis, and sustainable method development, Dr. Darwish continues to advance analytical innovation and regulatory-compliant pharmaceutical research.

Profiles: Scopus Orcid | Google Scholar

Featured Publications

Darwish, A. S., Abdel‐Raheem, S. M., Meligy, A. M. A., Al‐Sultan, S. I., Kandeel, M., & Darwish, W. S. (2026). Optimization and validation of a green shelf life HPLC technique for testing sugammadex sodium in raw material and parenteral medications. Biomedical Chromatography, 40(1), e70267.

Ma, J.-K., Chen, X.-Y., Zhang, N., Darwish, A. S., Gouda, A. A., El Sheikh, R., & Huang, X.-C. (2025). A straightforward HPLC approach to testing butylated hydroxytoluene, an antioxidant, in pure and topical anti-burn gels; Evaluation of greenness, blueness, and whiteness grades. Talanta Open, 8, 100565.

Huang, X.-C., Darwish, A. S., Darwish, W. S., Chen, R.-M., & Ma, J.-K. (2025). Green rapid HPLC method for testing retinol and tocopherol in ophthalmic gels. Talanta Open, 8, 100538.

Huang, X.-C., Darwish, A. S., Darwish, W. S., Zaki, M. S. A., Lin, Y.-T., Liang, N.-L., & Ma, J.-K. (2025). Ecologically conscious profiles assessments for economic and concurrent HPLC detection of chlordiazepoxide and clidinium bromide in bulk and tablet dosage forms. Results in Chemistry, 7, 102739.

Darwish, A. S., Zaki, M. S. A., Salih, A. G. K. A., Abd Ellatif, M., Patel, A. A., Mallick, A. K., Ahsan, M., & Darwish, W. S. (2025). A simple eco-friendly stability-indicating HPLC method for determination of netilmicin in bulk and ophthalmic solution. Biomedical Chromatography, 39(8), e70152.

Alenezi, S. S., Gouda, A. A., El Sheikh, R., Badahdah, N. A., Alzuhiri, M. E., Magrabi, A. H., Jilani, A. L., & Darwish, A. S. (2025). Environmental sustainability profiles assessment of HPLC stability-indicating method for quantitation of piracetam and vincamine in pharmaceutical medications. Talanta Open, 7, 100407.

Darwish, A. S., Zaki, M. S. A., Salih, A. G. K. A., Abd Ellatif, M., Patel, A. A., Mallick, A. K., Ahsan, M., & Darwish, W. S. (2025). Developing a sensitive, ecological, and economic HPLC method for the concurrent quantification of kolchicine and khellin in bulk and sachet pharmaceuticals. Microchemical Journal, 195, 114716.

Rubens C. Costa-Filho | Infection | Excellence in Research Award 

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Dr. Rubens C. Costa-Filho | Infection | Excellence in Research Award 

Prof. Dr. Rubens Costa-Filho | FIOCRUZ/IOC | Brazil

Dr. Rubens C. Costa-Filho is an accomplished physician–scientist whose career spans decades of leadership, research, and academic contribution in the fields of intensive care, sepsis, hemostasis, thrombosis, and infectious diseases. His professional trajectory reflects a deep commitment to developing evidence-based practices, advancing critical care medicine, and contributing to scientific understanding through both clinical innovation and academic inquiry. His extensive experience includes the founding and long-term coordination of a major intensive care service, where he played a key role in establishing advanced protocols for the management of critically ill patients, with a particular focus on cardiovascular emergencies, sepsis, and multi-system organ dysfunction. His involvement in the creation of the Latin American Institute of Sepsis marked an important milestone in the region’s coordinated response to sepsis, strengthening collaborative research efforts, promoting professional education, and generating scientific awareness about early diagnosis and effective clinical management. His experience directing a specialized thromboelastometry service further cemented his expertise in coagulation assessment, blood management, and the clinical application of hemostatic monitoring technologies in critical care settings. Through this work, he contributed to improving transfusion practices, guiding therapeutic decision-making, and enhancing clinical outcomes in complex surgical and critically ill patient populations. Dr. Costa-Filho’s academic influence also extends to scientific communication and knowledge dissemination. He has been instrumental in designing educational platforms that connect healthcare professionals with leading experts, fostering interdisciplinary dialogue and expanding access to advanced medical knowledge. His commitment to academic development is additionally reflected in his participation in multidisciplinary research groups and continuous engagement with innovations in intensive care medicine, infectious disease epidemiology, and emerging therapeutic strategies. His longstanding involvement with global professional societies has allowed him to contribute to international guidelines, strengthen collaborative networks, and uphold high scientific standards in his fields of expertise. Currently, Dr. Costa-Filho is pursuing doctoral research in Tropical Medicine, expanding his scientific focus to infectious diseases that pose significant global health challenges. His Ph.D. work centers on COVID-19 within the Department of Tropical Medicine, where he contributes to ongoing investigations into immunological and pathophysiological mechanisms of the disease. Working in an immunopharmacology laboratory, he participates in studies examining host responses, inflammatory pathways, and potential therapeutic targets, with the aim of generating translational insights relevant to the management of severe viral infections.
Profiles: Scopus Orcid | Google Scholar

Featured Publications

Price, V. L., Nanayakkara, A., Pasini, A., Bazellières, E., Vernale, A., Rocher, C., Borchiellini, C., Le Bivic, A., Renard, E., & Leys, S. P. (2025). Why homoscleromorph sponges have ciliated epithelia: Evidence for an ancestral role in mucociliary driven particle flux. Journal of Experimental Zoology Part B: Molecular and Developmental Evolution. Advance online publication.

Costa-Filho, R. C., Oliveira, A., Jr., Saddy, F., Costa, J. L. F., Azevedo, M. S., Cerqueira, D. F., Gualberto, V. H. A., Barbosa, M. I. N. H., Da-Cruz, A. M., & Horta, M. A. (2025). Evaluating the effectiveness of NOACs and LMWH in reducing mortality in critically ill patients with COVID‐19. Journal of Medical Virology. Advance online publication.

Costa-Filho, R. C., Leite, J. P. G., Horta, M. A., Naveca, F. G., Saddy, F., & Castro de Faria Neto, H. C. (2025). Commentary: Evaluation of post-COVID mortality risk in cases classified as severe acute respiratory syndrome in Brazil: A longitudinal study for medium and long term. Frontiers in Medicine, 12, 1558264.

Costa Silva, M., Costa, R. C., Filho, & Estato, V. (2025). Strategic use of intravenous medications to protect target organs in hypertensive emergencies. International Journal of Cardiovascular Sciences, 38(1).

Costa-Filho, R. C., Saddy, F., Costa, J. L. F., & Castro Faria Neto, H. C. (2025). The silent threat of human metapneumovirus: Clinical challenges and diagnostic insights from a severe pneumonia case. Microorganisms, 13(1), 73.

Costa-Filho, R. C. (2023). ISTH 2023 | XXXI Congress of the International Society on Thrombosis and Haemostasis. Event Participation.

Costa-Filho, R. C. (2023). PB0073 A retrospective study of two anticoagulation therapies in critically ill COVID-19 patients prior to vaccination era. Conference Poster, ISTH 2023.

Costa-Filho, R., Oliveira, A., Furtado, E., Saddy, F., de Souza, R., Azevedo, M., Cerqueira, D., Gualberto, V., Costa, J., & Castro-Faria-Neto, H. (2023). PB0073 A retrospective study of two anticoagulation therapies in critically ill COVID-19 patients prior to vaccination era. Research and Practice in Thrombosis and Haemostasis, 7(10), 100888.

Naveca, F. G., Nascimento, V. A., Nascimento, F., Ogrzewalska, M., Pauvolid-Corrêa, A., Araújo, M. F., Arantes, I., Batista, É. R., Magalhães, A. Á., & Vinhal, F. et al. (2023). SARS-CoV-2 intra-host diversity, antibody response, and disease severity after reinfection by the variant of concern Gamma in Brazil. Scientific Reports, 13, 33443.

Shuying Shen | Health Professions | Excellence in Innovation Award

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Prof. Shuying Shen | Health Professions | Excellence in Innovation Award 

 Zhejiang University | China

Dr. Shuying Shen is a distinguished research fellow at Sir Run Run Shaw Hospital affiliated with the Medical College of Zhejiang University, where she has established a strong research presence in musculoskeletal biology, molecular regulation, and osteoarthritis pathology. She earned her Ph.D. in Biochemistry and Molecular Biology in 2017 and her Bachelor’s degree in Applied Bioscience in 2012, both from Zhejiang University. Dr. Shen’s research has been continuously supported by major competitive grants, including the National Natural Science Foundation of China Excellent Young Scholars Fund, multiple NSFC General Programs, and the Zhejiang Provincial Outstanding Youth Project. Her funded projects focus on elucidating mechanisms of protein post-translational modification, chondrocyte aging, metabolic reprogramming in osteosarcoma, and non-classical regulatory pathways in chondrocyte physiology, reflecting her deep engagement with both degenerative diseases and cancer biology. Dr. Shen has made influential contributions to the understanding of noncoding RNA functions in osteoarthritis progression, osteosarcoma development and metastasis, and organ size regulation. Her work reveals how circular RNAs, microRNAs, and RNA–protein interactions shape cellular senescence, lipid metabolism, autophagy, and energy homeostasis. She has also advanced knowledge on the interplay between metabolic remodeling and epigenetic regulation in cartilage degeneration. Her publications demonstrate innovative approaches combining molecular biology, functional genomics, epigenetics, and translational models to uncover therapeutic targets for osteoarthritis, intervertebral disc degeneration, and malignancies. Dr. Shen has published 87 peer-reviewed papers, including 50 as first or corresponding author, in top-tier journals such as Nature Aging, Science Translational Medicine, Cell Research, Nature Communications, Annals of the Rheumatic Diseases, PNAS, Advanced Science, Molecular Cancer, Bone Research, and Molecular Therapy. Her research has been cited more than 3,000 times, and she holds an H-index of 37, underscoring her strong scientific influence. Through her pioneering discoveries—such as the regulation of chondrocyte senescence by palmitoylation, the role of fatty acid oxidation in osteoarthritis, circRNA-mediated metabolic control, and noncoding RNA networks in osteosarcoma—Dr. Shen has significantly advanced the field of musculoskeletal molecular medicine. Her long-term research goal is to develop novel diagnostic markers and targeted therapies for osteoarthritis and related degenerative diseases through a deeper understanding of RNA regulation, protein modifications, and metabolic homeostasis.

Profile: Scopus

Featured Publications

Wang, K., He, W., Gong, Z., Gao, J., Gao, T., Pan, N., Wu, D., Yang, Y., Li, Z., Zhao, X., Ji, M., & Shen, S. Y. (2025). ZDHHC11-mediated palmitoylation alleviates chondrocyte senescence and serves as a therapeutic target for osteoarthritis. Nature Aging.

Mei, Z., Yilamu, K., Ni, W., Shen, P., Pan, N., Chen, H., Su, Y., Guo, L., Sun, Q., Li, Z., Huang, D., Fang, X., Fan, S., Zhang, H., & Shen, S. Y. (2025). Chondrocyte fatty acid oxidation drives osteoarthritis via SOX9 degradation and epigenetic regulation. Nature Communications, 16(1), 4892.

Gong, Z., Zhu, J., Chen, J., Feng, F., Zhang, H., Zhang, Z., Song, C., Liang, K., Yang, S., Fan, S., Fang, X., & Shen, S. Y. (2023). CircRREB1 mediates lipid metabolism–related senescent phenotypes in chondrocytes through FASN post-translational modifications. Nature Communications, 14(1), 5242.

Li, Z., Zhang, W., Wei, X. Y., Hu, J. Z., Hu, X., Liu, H., Lu, J., Shen, S. Y., & Ji, M. L. (2025). TRIM15 drives chondrocyte senescence and osteoarthritis progression. Science Translational Medicine, 17(791), eadq1735.

Shen, S. Y., Guo, X. C., Yan, H., Lu, Y., Ji, X. Y., Li, L., Liang, T. B., Zhou, D. W., Zhao, J. C., Yu, J. D., Gong, X. G., Zhang, L., & Zhao, B. (2015). A miR-130a–YAP positive feedback loop promotes organ size and tumorigenesis. Cell Research, 25(9), 997–1012.

Shen, S. Y., Wu, Y. Z., Chen, J. X., Xie, Z., Huang, K. M., Wang, G. L., Yang, Y. T., Ni, W. Y., Chen, Z. J., Shi, P. H., Ma, Y., & Fan, S. W. (2019). CircSERPINE2 protects against osteoarthritis by targeting miR-1271 and ETS-related gene. Annals of the Rheumatic Diseases, 78(6), 826–836.

Shen, S. Y., Yang, Y. T., Shen, P. Y., Ma, J., Fang, B., Wang, Q. X., Wang, K. F., Shi, P. H., Fan, S. W., & Fang, X. Q. (2021). circPDE4B prevents articular cartilage degeneration and promotes repair by acting as a scaffold for RIC8A and MID1. Annals of the Rheumatic Diseases, 80(9), 1209–1219.

Shen, S. Y., Liang, Y., Zhao, Y., Hu, Z., Huang, Y., Wu, Y., Liu, Y., Fan, S., Wang, Q., & Xiao, P. (2024). Dietary supplementation of vitamin B1 prevents the pathogenesis of osteoarthritis. Proceedings of the National Academy of Sciences, 121(30), e2408160121.

Vineet Srivastava | Environmental Modeling | Research Excellence Award

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Mr. Vineet Srivastava | Environmental Modeling | Research Excellence Award

Mr. Vineet Srivastava | University of Szeged | Hungary

Mr. Vineet Srivastava is a passionate environmental science researcher specializing in the interaction between sustainable agriculture and climate change, currently pursuing his doctoral studies in Climate Change through Animal Agriculture at the University of Szeged, Hungary. His Ph.D. focuses on estimating ammonia, methane, and nitrous oxide emissions from animal husbandry operations using the advanced photoacoustic spectroscopy method developed at the University of Szeged. He is actively involved in PAS instrument calibration, field sampling, gas estimation, and publication work, contributing to improved understanding of livestock-related emissions and sustainable mitigation strategies. Prior to this, he served as a Junior Research Fellow at CSIR-NEERI, where he contributed to projects under the National Jal Jeevan Mission, working on water quality sensor calibration, rural water monitoring, sampling, analytical assessments, and technical reporting. He holds a Master’s degree in Environmental Science (Environmental Technology) from Banaras Hindu University, where he researched microplastic impacts on soil properties and wheat productivity, and a Bachelor’s degree in Biology and Chemistry from DDU Gorakhpur University. His training includes IoT-based environmental monitoring, analytical instrumentation for environmental contaminants, and field-based environmental assessments. Vineet has presented his research at international conferences and contributed to peer-reviewed publications, with his work receiving 76 citations, 1 indexed publication, and an h-index of 1. He is a recipient of the prestigious Stipendium Hungaricum Scholarship (2024), awarded by the Tempus Public Foundation, and was selected as one of the top 30 candidates from India by the University Grants Commission. He has also qualified the UGC-NET (2022) for eligibility as Assistant Professor in India. Dedicated to advancing sustainable environmental practices, Vineet aims to integrate scientific innovation with practical solutions, aligning personal research goals with broader institutional and global sustainability objectives.

Profiles: Scopus Orcid

Featured Publications

Srivastava, V., Mikó, E., Horváth, L., Gombi, C., Szabó, A., & Bozóki, Z. (2026). Unraveling nitrous oxide in free-stall dairy barns: A linear mixed modeling approach to cyclic, spatial, and environmental drivers. Smart Agricultural Technology, 6, 101678.

Srivastava, R., Srivastava, V., & Singh, A. (2023). Multipurpose benefits of an underexplored species purslane (Portulaca oleracea L.): A critical review. Environmental Management, 71, 1–??.

Rerhrhaye Badr | Electrical Network | Best Scholar Award

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Mr. Rerhrhaye Badr | Electrical Network | Best Scholar Award

Mr. Rerhrhaye Badr | LASTIMI | Morocco

Mr. Rerhrhaye Badr is an electrical engineer specializing in energy systems, conversion technologies, and sustainable development, holding a Master’s degree in “Énergie électrique, conversion, matériaux et développement durable” from INP Toulouse & Université Paul Sabatier (2021–2022) and an Ingénieur d’État diploma in Génie Électrique from ENSAM Rabat (2019–2021). His professional experience spans academia, healthcare infrastructure, and industrial environments, reflecting a strong balance of technical, managerial, and instructional expertise. As an Enseignant Vacataire at EST-Salé (2023–2024), he delivered courses, TDs, and TPs in solar installation maintenance and electrical systems while supervising 127 final-year projects across Génie Électrique, Informatique Industrielle, Génie Industriel, and Maintenance. In 2023, he served as Project Manager for Hôpital Avicenne Marrakech, leading the design and implementation of a 220 kWc self-consumption solar system, including load-profile analysis, equipment selection, and photovoltaic field dimensioning. His final-year internship at SAFRAN Tech Paris-Saclay (2022) focused on BCI testing for energy-conversion chains and the automation of a LabView-based test bench. From 2014 to 2019, he was Adjoint Chef de Service at HMIMV in Rabat, responsible for maintaining critical electrical and medical equipment in collaboration with Siemens, GE, T2S, and other major firms, following five years (2009–2014) as Chef de Projet overseeing large-scale electrical network renovations and the installation of ten MT/BT transformer stations. His academic output includes 8 published documents, with 24 citations across 17 citing sources and an h-index of 3, reflecting a growing scientific contribution in electrical engineering, energy systems, and applied industrial technologies.

Profile: Scopus

Featured Publications

Rerhrhaye, B., Rerhrhaye, F., El Akkary, A., Lahlouh, I., Ennaciri, Y., Sefiani, N., Khouili, D., & El Martaoui, C. (2025). Proposal for the utilization of multilevel solar inverters for the electrical network conditioning of a hospital. EPJ Web of Conferences, 330, Article 03004.

Marijo Bekic | Orthopedics | Academic Excellence Recognition Award

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Prof. Dr. Marijo Bekic | Orthopedics | Academic Excellence Recognition Award

Prof. Dr. Marijo Bekic | General Hospital Dubrovnik | Croatia

Prof. Dr. Marijo Bekic is a distinguished Croatian trauma and orthopaedic surgeon with an extensive academic and clinical career spanning more than two decades. He completed his medical education at the University of Zagreb School of Medicine (1992–1999) and earned his Master of Sciences in Biomedical Studies in 2002. He received his MD PhD in Trauma and Orthopaedic Surgery in 2005 and progressed through academic ranks, becoming Assistant Professor in 2014, Associate Professor at Dubrovnik University in 2020, Associate Professor at the University of Rijeka in 2023, and later at the University of Split School of Medicine in 2024. His professional journey began at the Department of Surgery, University Hospital Zagreb (2002–2007), followed by several years in traumatology at County Hospital Dubrovnik, where he served as General Surgeon-Traumatologist and later Head of the Department of Orthopaedy and Traumatology (2014–2016). Since 2016, he has held senior clinical and leadership roles, including Hospital Director at County Hospital Dubrovnik, contributing significantly to healthcare management and surgical excellence. Prof. Bekic is deeply engaged in national and international professional bodies, serving as Chairman of the Governing Council of the Health Center Dubrovnik and the Emergency Institute of Dubrovacko-Neretvanska County, as well as being a member of civil defence headquarters, scientific committees, Croatian trauma associations, medical chambers, and international military surgery networks. He serves on the editorial board of Acta Chirurgica Croatica and is an active lecturer at the Military School “Ban Josip Jelačić” and the Ambroise Paré International Military Surgery Forum. His organisational leadership includes managing large-scale EU-funded hospital projects focusing on emergency care, trauma management, and modernisation of healthcare infrastructure, with budgets exceeding €10 million. Prof. Bekic has been recognised with awards such as the Croatian Surgery Society’s 2nd Award (2007) and has contributed extensively to scientific literature, with 20 published documents, 115 citations, and an h-index of 5, reflecting his influence in trauma surgery, orthopaedics, and hospital emergency preparedness. His work integrates clinical expertise, academic advancement, strategic healthcare leadership, and cross-border medical collaboration, positioning him as a leading figure in trauma and orthopaedic surgery in Croatia and the wider region.

Profiles: Scopus | Orcid

Featured Publications

Bekic, M., Bagavac, P., Sesic, N., Kulić, M., & Bekic, A. (2025). The effect of strain rate on bone fragility and clinical applications. Bioengineering, 12(12), 1295.

Kulic, M., Bagavac, P., Bekic, M., & Krstulovic-Opara, L. (2024). Ex vivo biomechanical bone testing of pig femur as an experimental model. Bioengineering, 11(6), 572.

Milos, M., Vujnović, N., Bekic, M., Lojpur, J., Moretti, M., Kirin, I., & Roth, A. (2022). Retrograde calcaneo-talo-tibial nail, subtalar arthrodesis and fibula transposition in the treatment of traumatic bone and articulatory defect of the distal tibia and talocrural joint: A case report. Trauma Case Reports, 39, 100734.

Vidović, D., Bencic, I., Cuti, T., Bakota, B., Bekic, M., Dobric, I., Sabalic, S., & Blazevic, D. (2021). Surgical treatment of scapular fractures: Results and complications. Injury, 52(1), 33–38.

Ostojić, M., Bulj, Z., Kordić, D., Sunjic, D., Buntic, A., Juka, K., Bliznac, I., Topic, A., Ostojic, Z., Rotim, K., et al. (2019). Establishment of the bone tissue bank at Mostar University Clinical Hospital. Acta Clinica Croatica, 58(4), 565–575.

Vidovic, D., Bencic, I., Cuti, T., Gajski, D., Cengic, T., Bekic, M., Zovak, M., Sabalic, S., & Blazevic, D. (2019). Treatment of humeral shaft fractures: Antegrade interlocking intramedullary nailing with additional interlocking neutralization screws through fracture site. Acta Clinica Croatica, 58(4), 639–648.

Vidovic, D., Elabjer, E., Muškardin, I. V. A., Milosevic, M., Bekic, M., & Bakota, B. (2017). Posterior fragment in ankle fractures: Anteroposterior vs posteroanterior fixation. Injury, 48(S6), S43.