James Shine | Systems Neuroscience | Research Excellence Award

Published on by Neuroscientists

Prof. Dr. James Shine | Systems Neuroscience | Research Excellence Award

Prof. Dr. James Shine | The University of Sydney | Australia

This researcher is an influential systems neurobiologist whose work has significantly advanced the scientific understanding of whole-brain neural dynamics. With over 170 peer-reviewed publications, more than 16,000 citations, an h-index of 67, and an i10-index of 177, their scholarly contributions have shaped multiple domains within contemporary neuroscience. Their research integrates multimodal neuroimaging, computational modelling, network science, and systems-level neurobiology to uncover the principles governing cognition, attention, and consciousness. A major focus of their work involves developing biophysically informed models that link neuroanatomical organization with large-scale patterns of human brain activity, enabling the generation of testable predictions across imaging modalities. Their publications span impactful studies in neuroimaging, neurobiology, and computational science, including widely cited papers in high-profile journals. Their seminal insights into dynamic functional brain network integration have catalyzed global interest in time-resolved brain connectivity, influencing methodological developments and being adopted by more than 100 research groups across over 90 countries. Their research program also advances innovative computational frameworks for analysing complex neural signals, contributing both theoretical and practical tools that inform the study of neurodegenerative conditions and cognitive function. their work continues to shape the direction of systems neuroscience and quantitative brain research.

Profile: Google Scholar

Featured Publications

Shine, J. M., Bissett, P. G., Bell, P. T., Koyejo, O., Balsters, J. H., Gorgolewski, K. J., … (2016). The dynamics of functional brain networks: Integrated network states during cognitive task performance. Neuron, 92(2), 544–554.

Hansen, J. Y., Shafiei, G., Markello, R. D., Smart, K., Cox, S. M. L., Nørgaard, M., … (2022). Mapping neurotransmitter systems to the structural and functional organization of the human neocortex. Nature Neuroscience, 25(11), 1569–1581.

Lurie, D. J., Kessler, D., Bassett, D. S., Betzel, R. F., Breakspear, M., Kheilholz, S., … (2020). Questions and controversies in the study of time-varying functional connectivity in resting fMRI. Network Neuroscience, 4(1), 30–69.

Shine, J. M., Breakspear, M., Bell, P. T., Ehgoetz Martens, K. A., Shine, R., … (2019). Human cognition involves the dynamic integration of neural activity and neuromodulatory systems. Nature Neuroscience, 22(2), 289–296.

Poldrack, R. A., Laumann, T. O., Koyejo, O., Gregory, B., Hover, A., Chen, M. Y., … (2015). Long-term neural and physiological phenotyping of a single human. Nature Communications, 6, 8885.

Shine, J. M., Matar, E., Ward, P. B., Frank, M. J., Moustafa, A. A., Pearson, M., … (2013). Freezing of gait in Parkinson’s disease is associated with functional decoupling between the cognitive control network and the basal ganglia. Brain, 136(12), 3671–3681.

Dipesh | Computational Neuroscience | Best Researcher Award

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Assist. Prof. Dr. Dipesh | Computational Neuroscience | Best Researcher Award

Assist. Prof. Dr. Dipesh | SR University | India

Dr. Dipesh is a dedicated mathematician specializing in mathematical modeling, with extensive experience in both academic and research domains. He has made significant contributions to applied mathematics, particularly in areas intersecting numerical methods, AI/ML, and fluid dynamics. Dr. Dipesh has actively organized and coordinated multiple academic programs, including national workshops, faculty development programs, and departmental initiatives, demonstrating strong leadership in fostering educational and research excellence. His efforts in coordinating the Department of Intellectual Property Rights and successfully conducting events such as RAFAS highlight his commitment to academic growth and institutional development. Academically, he has pursued rigorous training from undergraduate to postdoctoral levels, culminating in advanced research at Harran University, Turkey. Dr. Dipesh’s scholarly output includes 30 documents that have been cited 103 times, reflecting an h-index of 7, underscoring the impact and relevance of his research contributions in applied mathematics and related interdisciplinary fields. His approach emphasizes quality teaching, student placement, institutional ranking, and enhancing the overall goodwill of the organizations he serves. Driven by a passion for tackling challenges and improving systems with limited resources, Dr. Dipesh continually seeks to connect with external environments, promote collaborative work, and advance the reach and recognition of academic institutions.

Profiles: Scopus | Orcid | Google Scholar | Research Gate | Linked In

Featured Publications

  1. Mathematical model of Cynodon Dactylon’s allelopathic effect on perennial ryegrass for exploring plant-plant interactions based upon ordinary differential equations. (2025). Partial Differential Equations in Applied Mathematics.

  2. Modelling the role of delay in blood flow dynamics in human body using delay differential equations. (2025). Physica A: Statistical Mechanics and Its Applications.

  3. On the modeling the impact of delay on stock pricing fluctuations using delay differential equations. (2025). Physica A: Statistical Mechanics and Its Applications.

Nan Liu | Systems Neuroscience | Best Researcher Award

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Mrs. Nan Liu | Systems Neuroscience | Best Researcher Award

Mrs. Nan Liu |  North China University of Science and Technology | China

Nan Liu is a distinguished medical researcher specializing in occupational lung diseases, with extensive experience in public health and toxicology. Serving in a leadership role at a key laboratory for occupational health and safety, she has led numerous impactful research projects investigating the toxic effects of industrial exposures, particularly involving indium compounds and nanoparticles. Her work has contributed significantly to understanding the mechanisms of pulmonary damage and identifying potential therapeutic agents, such as N-acetylcysteine. With multiple SCI-indexed publications, academic books, and awards to her credit, Nan Liu has established herself as a vital contributor to both the scientific community and the field of occupational medicine.

Academic Profile

Scopus

Early Academic Pursuits

Nan Liu embarked on her academic journey with a solid foundation in medical sciences, nurturing a keen interest in public health early in her career. Her academic training cultivated a deep understanding of disease mechanisms, particularly those associated with occupational environments. Through rigorous study and persistent dedication, she built a strong base in experimental research and translational medicine, paving the way for her impactful contributions in respiratory health and occupational safety.

Professional Endeavors in Occupational Health

As a committed researcher and academic, she has served in a leading role within a prestigious public health institution, where she engaged in various multidisciplinary projects addressing workplace-related diseases. Her professional path has been marked by persistent inquiry into occupational hazards and the physiological consequences of industrial exposures. Over the years, she contributed to nationally and regionally significant scientific and technological initiatives, working closely with local and governmental bodies to improve occupational health frameworks.

Contributions and Research Focus

Nan Liu’s core research revolves around the prevention and treatment of occupational lung diseases, with a particular focus on pulmonary alveolar proteinosis and the toxicity induced by indium compounds and nanoparticles. Her scientific investigations bridge clinical observations with laboratory models, revealing the underlying mechanisms of lung injury and protective responses. She has made critical strides in experimental toxicology, demonstrating how specific therapeutic agents like N-acetylcysteine can mitigate occupationally induced pulmonary damage through molecular pathways such as NF-κB signaling.

Innovations and Scholarly Output

Her research has culminated in numerous peer-reviewed publications in esteemed international journals indexed in SCI and Scopus. These works are frequently cited, reflecting their importance in the fields of nanotoxicology and environmental health. In addition to her journal articles, she has authored and edited multiple academic books covering occupational medicine and experimental techniques, reinforcing her role as a thought leader in toxicological studies and clinical methodology.

Accolades and Recognition

Nan Liu’s sustained contributions to occupational health science have earned her notable recognition within scientific and professional circles. Her research has received commendation through regional science and technology awards, and she continues to lead several competitive scientific projects supported by key governmental bodies. These achievements not only underscore the relevance of her work but also signify the trust placed in her expertise by academic and policy-making institutions.

Impact and Collaborative Influence

Her work has extended beyond the laboratory through collaborations with other researchers, public health institutions, and policy developers. By integrating clinical insights with public health strategies, she has helped shape safer working environments, particularly within high-risk industries. Her innovations in experimental models for occupational lung diseases have laid the groundwork for more targeted therapeutic approaches and regulatory changes.

Legacy and Future Contributions

Looking ahead, Nan Liu’s research trajectory continues to evolve, with growing emphasis on emerging occupational threats posed by new industrial materials and environmental exposures. Her commitment to advancing preventive health measures and early intervention strategies ensures that her legacy will not only influence current occupational health practices but also guide future innovations in respiratory medicine and toxicological research. Her journey exemplifies the enduring value of integrating science, medicine, and public service.

Publication

Title: N-Acetyl-L-Cysteine modulates indium-tin oxide nanoparticles-caused interstitial lung diseases in male rats through oxidative stress-activated apoptosis and autophagy
Authors: [Names not provided in the snippet]
Year: 2025

Title: Nano-ITO induce pulmonary alveolar proteinosis through oxidative stress and activation of NF-κB/Nrf2 signaling pathway
Authors: [Names not provided in the snippet]
Year: 2025

Title: Study on silicosis mechanism by transcriptome sequencing of peripheral blood mononuclear cells
Authors: [Names not provided in the snippet]
Year: 2024

Conclusion

Nan Liu’s research has bridged the gap between clinical toxicology and public health, offering solutions to pressing occupational health challenges. Her contributions in experimental modeling, therapeutic exploration, and preventive strategies demonstrate a lasting commitment to improving worker safety and respiratory health. With her continued pursuit of scientific excellence and collaboration, she is well-positioned to make further advancements in occupational and environmental health in the years to come.