Sihe Zhang | Medicine | Distinguished Scientist Award

Published on by Scientific World Research Awards

Distinguished Scientist Award

Sihe Zhang
Nankai University, China

Sihe Zhang
Affiliation Nankai University
Country China
Scopus ID 7409373738
Documents 55
Citations 1,269
h-index 16
Subject Area Medicine
Event Scientific World Research Awards
ORCID 0000-0002-8923-1993

The Distinguished Scientist Award recognizes the scholarly achievements of Sihe Zhang, Professor and Director at Nankai University School of Medicine. His research focuses on cancer biology, drug delivery systems, endocytosis, extracellular vesicles, antibody therapeutics, and translational medicine. Through sustained contributions to hepatocellular carcinoma and ovarian cancer research, he has developed innovative approaches that connect molecular mechanisms with therapeutic applications.[1]

Abstract

Sihe Zhang is a biomedical researcher whose work spans cancer biology, antibody engineering, cellular uptake mechanisms, extracellular vesicle biology, and targeted therapeutic delivery. His investigations have contributed to understanding macropinocytosis, endocytic recycling, tumor progression, and resistance mechanisms in hepatocellular and ovarian cancers. He has also participated in the development of innovative antibody-based therapies and nanomedicine strategies aimed at improving treatment specificity and efficacy. His publication portfolio demonstrates a sustained commitment to translational medical research and interdisciplinary collaboration, supporting advancements in cancer diagnosis, drug delivery, and precision medicine.[1][2]

Keywords

Cancer Biology; Drug Delivery; Endocytosis; Extracellular Vesicles; Antibody Therapeutics; Hepatocellular Carcinoma; Ovarian Cancer; Nanomedicine.

Introduction

Professor Zhang has held academic positions at Nankai University and previously at the Fourth Military Medical University. His career reflects long-term engagement with molecular medicine and cell biology, emphasizing mechanisms that influence cancer progression and treatment response.[1]

Research Profile

His research profile combines laboratory discovery with translational applications. Major themes include cellular trafficking, therapeutic antibodies, tumor microenvironment studies, and targeted delivery platforms designed to improve treatment outcomes in oncology.[1]

Research Contributions

Notable contributions include investigations into CD147-mediated signaling, extracellular vesicle uptake, macropinocytosis-driven drug resistance, and antibody-based cancer therapies. These studies have expanded understanding of tumor biology and therapeutic targeting strategies.[2][3]

Publications

His scholarly record includes 55 indexed publications. Representative works address hepatocellular carcinoma resistance mechanisms, extracellular vesicle biology, peptide delivery systems, anti-CD147 therapeutics, and nanobiotechnology-based treatment approaches.[2][4]

Research Impact

With 1,269 citations and an h-index of 16, his research has influenced studies in cancer therapeutics, molecular oncology, and biomedical engineering. The impact of his work is reflected through citations, collaborations, and peer-review activities across leading journals.[1]

Award Suitability

The breadth of Professor Zhang’s contributions, combined with sustained publication output and translational relevance, aligns with the objectives of the Scientific World Research Awards. His work demonstrates scientific rigor and practical relevance in medicine.[1]

Conclusion

Sihe Zhang has established a recognized research portfolio in cancer biology and therapeutic innovation. His scholarly achievements and ongoing contributions support recognition through the Distinguished Scientist Award.[1]

References

  1. ORCID. (2026). Sihe Zhang (0000-0002-8923-1993) Research Profile.https://orcid.org/0000-0002-8923-1993
  2. Qian, L., et al. (2025). The uptake of extracellular vesicles: Research progress in cancer drug resistance and beyond. Drug Resistance Updates.https://doi.org/10.1016/j.drup.2025.101209
  3. Qi, F.Z., et al. (2024). Hypoxia-activated ADCC-enhanced humanized anti-CD147 antibody. MedComm.https://doi.org/10.1002/mco2.512
  4. Sun, Z., et al. (2023). Cell-Penetrating Peptide-Based Delivery of Macromolecular Drugs. Biomedicines.https://doi.org/10.3390/biomedicines11071971
  5. Wang, B., et al. (2024). Hypoxia-activated selectivity-improved anti-PKM2 antibody combined with prodrug TH-302. International Journal of Biological Sciences.https://doi.org/10.7150/ijbs.92211

Asterios Deligiannis | Medicine | Best Innovation Award

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Best Innovation Award

Asterios Deligiannis

Researcher Information
Affiliation Aristotle University of Thessaloniki
Country Greece
Scopus ID 7003501457
Documents 127
Citations 5,944
h-index 28
Subject Area Chemistry
Event Scientific World Research Awards
ORCID 0000-0001-7765-1897

Asterios Deligiannis is an academic affiliated with Aristotle University of Thessaloniki, Greece. His scholarly record demonstrates extensive research productivity, interdisciplinary collaboration, and sustained scientific contribution. According to available research metrics, he has produced 127 indexed publications, received 5,944 citations, and achieved an h-index of 28, reflecting broad academic visibility and influence across multiple research domains.[1][2]

Abstract

This article presents an overview of the academic achievements of Asterios Deligiannis. His research portfolio encompasses a substantial body of scholarly work, international collaborations, and contributions to scientific knowledge. Available publication metrics indicate 127 indexed documents, 5,944 citations, and an h-index of 28, reflecting sustained research productivity and scholarly influence.[1] His academic activities include participation in international research initiatives, professional organizations, and peer-reviewed publications. These accomplishments demonstrate innovation, research leadership, and measurable scientific impact, supporting consideration for recognition through the Best Innovation Award within an international academic framework.[2]

Keywords

Innovation, Chemistry, Scientific Research, Academic Impact, Research Excellence, Scholarly Contributions.

Introduction

Research innovation is commonly assessed through scientific productivity, influence, and contributions to knowledge development. Academic recognition programs frequently consider publication records, citation performance, and interdisciplinary engagement when evaluating researchers for distinguished awards.[1]

Research Profile

Deligiannis is affiliated with Aristotle University of Thessaloniki and maintains an active ORCID record. His professional activities include academic leadership, international memberships, and participation in collaborative research programs.[2]

Research Contributions

His scholarly contributions span cardiovascular health, exercise-related investigations, rehabilitation studies, and interdisciplinary scientific research. Numerous peer-reviewed publications demonstrate long-term engagement in advancing evidence-based knowledge and innovation.[3]

Publications

The researcher has authored 127 indexed publications and contributed to a broad collection of scientific articles published in international journals. His publication record reflects sustained scholarly activity and extensive collaboration across research communities.[1]

Research Impact

Research influence is demonstrated through 5,944 citations and an h-index of 28. These indicators suggest significant academic visibility and continuing relevance of his publications within scientific literature and research networks.[1]

Award Suitability

The combination of research productivity, scholarly impact, international engagement, and documented scientific contributions supports consideration for the Best Innovation Award. His profile reflects characteristics commonly associated with academic distinction and innovation-oriented recognition.[1]

Conclusion

Asterios Deligiannis has established a substantial academic record characterized by impactful publications, collaborative research activities, and measurable scholarly influence. These achievements provide a strong foundation for recognition within international research award programs.

References

  1. Elsevier. (n.d.). Scopus Author Details: Asterios Deligiannis, Author ID 7003501457. Scopus.

    https://www.scopus.com/authid/detail.uri?authorId=7003501457

  2. ORCID. (2026). Asterios Deligiannis ORCID Record.

    https://orcid.org/0000-0001-7765-1897

  3. Deligiannis, A., et al. (2025). Investigating the Role of Exercise in Improving Bone Health Among Elderly Women with Osteopenia.

    https://doi.org/10.3390/jfmk10040451

  4. Deligiannis, A., et al. (2025). Advanced Stress Echocardiography with Cardiopulmonary Exercise Testing After Myocardial Infarction.

    https://doi.org/10.3390/jfmk10040393

  5. Scientific World Research Awards. (n.d.). Official Award Information Portal.

    https://scientificworld.net/

Xu-hua Wang | Biotechnology | Research Excellence Award

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Assoc. Prof. Dr. Xu-hua Wang | Biotechnology | Research Excellence Award

Zhejiang University, China

Dr. Xuhua Wang is an accomplished researcher recognized for influential contributions to neuroscience, regenerative medicine, spinal cord injury repair, and advanced biomedical technologies. Affiliated with Zhejiang University, Dr. Wang has established a distinguished scientific reputation through innovative studies integrating neural regeneration, biomaterials, gene delivery, and artificial intelligence-based therapeutic design. Their scholarly achievements include 2,855 citations, an h-index of 23, and an
i10-index of 27, reflecting sustained academic impact and international recognition. Dr. Wang’s publications in prestigious journals such as Nature, Cell, and Neuron demonstrate excellence in translational neuroscience and clinical innovation. Through collaborations with renowned global scientists and institutions, the researcher has contributed significantly to advancing functional recovery therapies and neural circuit restoration. Their interdisciplinary expertise continues to influence emerging biomedical strategies aimed at improving neurological healthcare and regenerative treatment methodologies worldwide.

Professional Profile

Education

Dr. Xuhua Wang possesses a strong interdisciplinary academic foundation in neuroscience, biomedical engineering, regenerative medicine, and molecular therapeutics. Their educational development reflects extensive specialization in neural regeneration, fluorescence bioimaging, drug delivery systems, and advanced translational biomedical research. Through academic training and continuous scientific engagement, Dr. Wang cultivated expertise in corticospinal circuitry, neurobiology, nanotechnology-assisted therapeutics, and biomaterials engineering. Association with Zhejiang University further strengthened their research-oriented academic background and exposure to high-level scientific innovation. The combination of theoretical knowledge and laboratory-based experience has enabled Dr. Wang to pursue groundbreaking investigations addressing spinal cord injury recovery and emerging therapeutic technologies in neuroscience.

Professional Experience

Dr. Xuhua Wang has accumulated extensive research experience in neuroscience, regenerative medicine, and biomedical innovation through collaborations with internationally recognized institutions and scientists. Their professional journey includes contributions to spinal cord injury repair, neural pathway reconstruction, advanced hydrogel development, and targeted therapeutic delivery systems. Collaborative research associations with Boston Children’s Hospital and other leading biomedical centers have enhanced their scientific exposure and interdisciplinary expertise. Dr. Wang has actively participated in high-impact experimental studies involving neural regeneration, AI-assisted biomedical applications, and translational medicine. Their professional experience demonstrates strong leadership in conducting innovative research with significant clinical and scientific relevance.

Research Interest

Dr. Xuhua Wang’s research interests focus primarily on spinal cord injury repair, stroke rehabilitation, neural regeneration, biomaterials engineering, and targeted drug and gene delivery systems. Their investigations explore corticospinal tract regeneration, extracellular vesicle therapies, hydrogel-based neural repair technologies, and advanced fluorescence bioimaging techniques. Additionally, Dr. Wang demonstrates growing interest in integrating artificial intelligence for AAV capsid engineering and precision therapeutic design. The interdisciplinary nature of their research combines neuroscience, nanomedicine, molecular biology, and biomedical engineering to develop innovative treatment approaches for neurological disorders. Their scientific interests continue to contribute toward improving functional recovery and regenerative healthcare strategies worldwide.

Award and Honor

Dr. Xuhua Wang has earned significant academic recognition through a highly influential publication record, exceptional citation performance, and impactful scientific contributions in neuroscience and regenerative medicine. With 2,855 total citations, 1,594 citations since 2021, an h-index of 23, and an i10-index of 27, Dr. Wang demonstrates sustained international scholarly influence. Publications in prestigious journals including Nature, Cell, and Nature Communications reflect the quality and significance of their research achievements. Their scientific accomplishments and collaborations with globally recognized researchers highlight professional excellence, innovation, and outstanding contributions to translational neuroscience and biomedical advancement.

Conclusion

Dr. Xuhua Wang has demonstrated exceptional scientific excellence through impactful research in neuroscience, regenerative medicine, and biomedical engineering. Their influential publications, strong citation metrics, and innovative interdisciplinary contributions highlight significant global academic impact. Dr. Wang continues to advance translational healthcare research with remarkable dedication, innovation, and scientific leadership.

Publications Top Noted

Title: Short hairpin RNA against PTEN enhances regenerative growth of corticospinal tract axons after spinal cord injury
Authors: K Zukor, S Belin, C Wang, N Keelan, X Wang, Z He
Year: 2013
Citation: 346

Title: Touch and tactile neuropathic pain sensitivity are set by corticospinal projections
Authors: Y Liu, A Latremoliere, X Li, Z Zhang, M Chen, X Wang, C Fang, J Zhu, et al.
Year: 2018
Citation: 288

Title: Deconstruction of corticospinal circuits for goal-directed motor skills
Authors: X Wang, Y Liu, X Li, Z Zhang, H Yang, Y Zhang, PR Williams, et al.
Year: 2017
Citation: 245

Title: Restoration of skilled locomotion by sprouting corticospinal axons induced by co-deletion of PTEN and SOCS3
Authors: D Jin, Y Liu, F Sun, X Wang, X Liu, Z He
Year: 2015
Citation: 231

Title: A sensitized IGF1 treatment restores corticospinal axon-dependent functions
Authors: Y Liu, X Wang, W Li, Q Zhang, Y Li, Z Zhang, J Zhu, B Chen, PR Williams, et al.
Year: 2017
Citation: 225

 

Alfredo Dimo | Biotechnology | Research Excellence Award

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Mr. Alfredo Dimo | Biotechnology | Research Excellence Award

Campus Bio Medico University of Rome | Italy

Mr. Alfredo Dimo is an emerging researcher at Fondazione Policlinico Universitario Campus Bio-Medico, Rome, Italy, specializing in biomedical engineering with a strong focus on wearable sensor technologies, 3D-printed sensing devices, and human movement analysis for clinical and rehabilitation applications. His research interests include smart wearable systems, biomechanical motion tracking, and sensor-based health monitoring. He possesses strong research skills in sensor design, prototyping, data acquisition, and experimental validation for healthcare environments. Mr. Dimo’s innovative contributions have earned recognition through peer-reviewed publications and research excellence acknowledgments in biomedical instrumentation. According to Scopus, he has published 9 documents, received 63 citations, and achieved an h-index of 5, demonstrating growing impact and promise in translational biomedical research. Overall, his work supports advancements in personalized healthcare and next-generation wearable medical technologies.

 

Citation Metrics (Scopus)

63
45
30
15
0

Citations

63

Documents

9

h-index

5

Citations

Documents

h-index

View Scopus Profile  View ORCID Profile  View Google Scholar Profile

Featured Publications

 

Philipp Kanske | Medicine | Research Excellence Award

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Prof. Dr. Philipp Kanske | Medicine | Research Excellence Award

Professor | TUD Dresden University of Technology | Germany

Prof. Dr. Philipp Kanske is an internationally recognized expert in cognitive and affective neuroscience whose work bridges psychology, social cognition, neuroimaging, and mental health research. His research centers on empathy, compassion, emotion regulation, personality functioning, and the neurobiological mechanisms that shape human social behavior across the lifespan. He investigates how individuals perceive and respond to others’ emotions, how empathic stress is transmitted within families, and how interventions such as meditation and compassion training can induce functional neural plasticity and improve emotional well-being, particularly in older adults. His interests extend to personality organization in both clinical and non-clinical populations, disease progression in bipolar disorder, white-matter microstructure, attachment dynamics in couples, value integration for self and others, and ritual-based methods for strengthening human–nature connectedness in the context of sustainability transformations. Prof. Kanske is skilled in a wide range of methodologies including experimental psychology, behavioral analysis, longitudinal study design, cognitive testing, psychoneuroendocrinology, structural and functional MRI, and advanced statistical modeling. His contributions to research transparency and reproducibility are reflected in his leadership in developing the PECANS methodological framework for cognitive and neuropsychological studies. Throughout his career, he has received multiple awards and honors (as listed in Scopus’s “Awarded Grants” section), recognizing his innovative contributions to social neuroscience, aging research, and clinical psychology. According to Scopus Preview, he has 7,136 citations, 163 documents, and an impressive h-index of 43, underscoring his global scientific influence and sustained scholarly productivity. Overall, Prof. Dr. Philipp Kanske’s work provides significant insights into how emotional, neural, and relational processes shape human behavior, offering important implications for mental health, interpersonal functioning, and societal well-being, and solidifying his role as a leading figure in modern neuroscience and psychology.

ProfilesScopus | ORCID | Google Scholar

Featured Publications

  1. Kanske, P., Heissler, J., Schönfelder, S., Bongers, A., & Wessa, M. (2011). How to regulate emotion? Neural networks for reappraisal and distraction. Cerebral Cortex, 21(6), 1379–138.
    Citations: 698

  2. Schurz, M., Radua, J., Tholen, M. G., Maliske, L., Margulies, D. S., Mars, R. B., … Kanske, P. (2021). Toward a hierarchical model of social cognition: A neuroimaging meta-analysis and integrative review of empathy and theory of mind. Psychological Bulletin, 147(3), 293–. Citations: 648

  3. Kanske, P., & Kotz, S. A. (2007). Concreteness in emotional words: ERP evidence from a hemifield study. Brain Research, 1148, 138–148. Citations: 630

  4. Preckel, K., Kanske, P., & Singer, T. (2018). On the interaction of social affect and cognition: Empathy, compassion and theory of mind. Current Opinion in Behavioral Sciences, 19, 1–6.
    Citations: 554

  5. Moshontz, H., Campbell, L., Ebersole, C. R., IJzerman, H., Urry, H. L., Forscher, P. S., … Kanske, P. (2018). The Psychological Science Accelerator: Advancing psychology through a distributed collaborative network. Advances in Methods and Practices in Psychological Science, 1(4), 501–515. Citations: 499

Prof. Dr. Philipp Kanske’s work advances global scientific understanding of empathy, compassion, and emotion regulation by uncovering the neural and psychological mechanisms that drive healthy social functioning. His research enables evidence-based mental-health interventions, strengthens human well-being across communities, and supports interdisciplinary innovation in neuroscience, clinical psychology, aging research, and societal resilience.