Magdalena Sobieska | Physiotherapy | Research Excellence Award

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Prof. Magdalena Sobieska | Physiotherapy | Research Excellence Award

Prof. Magdalena Sobieska | Poznań University of Medical Sciences | Poland

Dr. Magdalena Sobieska is a distinguished rehabilitation and physiotherapy specialist at the Poznań University of Medical Sciences, widely recognized for her deep expertise in immunology, clinical diagnostics, and physical medicine. She has held influential academic and leadership roles that have significantly strengthened physiotherapy education, clinical practice, and international program development within her institution. A prolific and impactful researcher, Dr. Sobieska has contributed substantially to multiple domains intersecting immunology and rehabilitation. Her scientific work encompasses the study of acute phase proteins as sensitive indicators of immune activation following physical exercise, stress, and physiotherapeutic interventions. She has also advanced understanding of eosinophil activation mechanisms and the diagnostic utility of cytokines and acute phase proteins in traumatic injuries, pediatric food allergies, inflammatory bowel disease, and melanoma. Her earlier investigations examined immune system dysfunctions in mental disorders, inflammation-related biomarkers in metabolic diseases, and the application of immunodiagnostic monitoring in veterinary medicine. Furthermore, her research has enriched knowledge of rheumatic diseases through the analysis of inflammatory markers and glycosylation profiles. International training at leading immunology and rheumatology centers strengthened her expertise in how physiotherapy modulates inflammation and acute phase responses. Dr. Sobieska maintains an extensive teaching portfolio, encompassing immunology, biochemistry, sport immunology, spa medicine, diagnostic methods in rheumatology, and laboratory medicine for physiotherapy students. Her commitment to education is reflected in her long-standing mentorship of graduate students, with numerous bachelor’s and master’s theses completed under her supervision. Her scholarly influence is well documented, with 2,189 citations across 1,869 documents, a publication record of 117 scientific works, and an h-index of 20, underscoring the sustained impact of her research within the scientific community. Fluent in multiple European languages, she brings multicultural and multilingual strength to collaboration and academic engagement. Her comprehensive background and broad expertise position her as a respected educator, researcher, and mentor in the medical and rehabilitation sciences.

Profiles: Scopus | Orcid

Featured Publications

Gajewska, E., Surowińska, J., Michalak, M., Gajewski, J., Chałupka, A., Naczk, M., Naczk, A., & Sobieska, M. (2025). The third month’s development predicts the side and oblique sit and walking. Journal of Clinical Medicine, 14, Article 38492. https://doi.org/10.3390/jcm14238492

Pawlak-Andryszczyk, Ż., Andryszczyk, M., & Sobieska, M. (2025). Movements induced by optic flow in relation to HINE. Scientific Reports, 15, Article 20726. https://doi.org/10.1038/s41598-025-20726-y

Bieniaszewska, A., Sobieska, M., & Gajewska, E. (2024). Functional and structural changes in patients with spinal muscular atrophy treated in Poland during 12-month follow-up: A prospective cohort study. Journal of Clinical Medicine, 13(14), 4232. https://doi.org/10.3390/jcm13144232

Bieniaszewska, A., Sobieska, M., Steinborn, B., & Gajewska, E. (2023). Examination of upper limb function and the relationship with gross motor functional and structural parameters in patients with spinal muscular atrophy. Biomedicines, 11(4), 1005. https://doi.org/10.3390/biomedicines11041005

De Mezer, M., Rogaliński, J., Przewoźny, S., Chojnicki, M., Niepolski, L., Sobieska, M., & Przystańska, A. (2023). SERPINA3: Stimulator or inhibitor of pathological changes. Biomedicines, 11(1), 156. https://doi.org/10.3390/biomedicines11010156

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.

Irineu Loturco | Health Professions | Best Researcher Award

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Prof Dr. Irineu Loturco | Health Professions | Best Researcher Award

Prof. Dr. Irineu Loturco | Federal University of Sao Paulo | Brazil 

Prof. Dr. Irineu Loturco Filho (born May 22, 1972, Brazil) is a distinguished researcher, educator, and practitioner in sports science, specializing in high-performance training, neuromuscular adaptations, strength, power, and speed development. He holds a degree in Sports from the University of São Paulo (1999), a Professional Master’s in High-Performance Sports from Universidad Autónoma de Madrid (2009), and both a Master’s (2010) and PhD (2014) in High-Performance Sports from Universidad Pablo de Olavide, Spain, where his research focused on the effects of training load sequencing on strength, speed, and muscle power. Loturco currently serves as Director of Sport Science & Research Leader at the Núcleo de Alto Rendimento Esportivo de São Paulo (NAR-SP), coordinating postgraduate programs in training methodology and supervising research on training periodization, performance monitoring, and neuromuscular development. He is also a professor and advisor at the Federal University of São Paulo (UNIFESP) and a visiting professor at the University of South Wales, contributing to both national and international sports science research. Over his career, he has worked with elite athletes and professional teams including Clube Atlético Mineiro, Sociedade Esportiva Palmeiras, and Sport Club Corinthians Paulista, as well as national organizations such as the Brazilian Football Confederation and Brazilian Karate Confederation. His current research investigates strategies to enhance athletic performance, including weighted vest training, seasonal performance variation, and injury prevention. Recognized internationally for his contributions, Loturco has received awards such as the 2019 SCS Investigator Award and honors for his work in adaptive sports and high-performance athlete development, solidifying his position as a leading authority in strength and conditioning science.

Profile: Orcid

Featured Publications

Survey Studies: Connecting Sport Science to Coaching Practice – International Journal of Sports Physiology and Performance

Training at Different Velocity Zones: Does It Really Matter? – International Journal of Sports Physiology and Performance

Neuromuscular and Performance Responses to Resisted Sprint Loads in Elite Female Sprinters

Effects of a Short-Term Ballistic Training Program on Performance and Strength Deficit in Elite Youth Female Soccer Players – Sports,

Effects of Loaded and Unloaded Jumps Used as Priming Activities in Elite Male Rugby Union Players