Aiying Zhang | Computational Neuroscience | Best Researcher Award

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Assist. Prof. Dr. Aiying Zhang | Computational Neuroscience | Best Researcher Award

Assist. Prof. Dr. Aiying Zhang, University of Virginia, United States.

Dr. Aiying Zhang is a rising scholar in the field of mental health data science, currently serving as an Assistant Professor at the University of Virginia and a Faculty Member at the UVA Brain Institute. Her academic foundation spans statistics, biomedical engineering, and clinical biostatistics, acquired from esteemed institutions including USTC, Tulane University, and Columbia University. Her research focuses on developing advanced computational and statistical tools—such as graphical models and multimodal fusion—to decode complex brain data from imaging and genetics. She applies these innovations to better understand and predict psychiatric conditions such as schizophrenia and Alzheimer’s disease. Her work is distinguished by its interdisciplinary nature, translational relevance, and potential to reshape clinical approaches to mental health.

Profile

Google Scholar

 

🎓 Early Academic Pursuits

Aiying Zhang’s journey into the realm of data science and mental health research began with a strong foundation in quantitative sciences. She earned her Bachelor of Science degree in Statistics from the prestigious School for the Gifted Young at the University of Science and Technology of China (USTC) in 2014. Driven by a passion for biomedical innovation and its intersection with human health, she pursued a Ph.D. in Biomedical Engineering from Tulane University, which she completed in 2021. Her graduate years were marked by deep inquiry into statistical modeling and neuroimaging, laying the groundwork for her later interdisciplinary research. She further honed her expertise through postdoctoral training in Clinical Biostatistics and Psychiatry at Columbia University Irving Medical Center, where she blended statistical rigor with clinical insight.

💼 Professional Endeavors

Dr. Zhang is currently an Assistant Professor of Data Science at the University of Virginia, where she has been on the tenure-track faculty since August 2023. She also holds a concurrent position as a Faculty Member at the UVA Brain Institute, underscoring her active role in advancing brain research across institutional boundaries. Prior to her academic appointment at UVA, she served as a Research Scientist II at the New York State Psychiatric Institute, contributing to high-impact psychiatric research. Her professional journey also includes research assistantships at Tulane University and the University of Florida, roles in which she cultivated strong collaborative and translational research skills.

🧠 Contributions and Research Focus

Dr. Zhang’s research lies at the intersection of data science, neuroscience, and mental health. She specializes in developing advanced statistical and computational methodologies to investigate the biological underpinnings of psychiatric and neurodevelopmental disorders. Her work prominently features the use of graphical models—both directed and undirected—and machine learning techniques to analyze complex datasets, such as MRI, DTI, fMRI, MEG, and various genomic modalities including SNP and DNA methylation. Her research has contributed to a deeper understanding of conditions like schizophrenia, Alzheimer’s disease, obsessive-compulsive disorder, and anxiety disorders, through the lens of multimodal data fusion and integrative neurogenetics.

🧪 Innovation in Mental Health Data Science

A distinctive hallmark of Dr. Zhang’s scholarship is her innovative application of multimodal fusion techniques to disentangle the complexities of typical and atypical brain development. Her work leverages high-dimensional neuroimaging and genetic data to draw meaningful inferences about mental health trajectories. She is particularly focused on building interpretable models that bridge the gap between data and clinical insight, thereby enabling earlier and more precise diagnostics. By combining machine learning with biomedical expertise, her contributions pave the way for next-generation tools in psychiatry and neuroscience.

🏅 Accolades and Recognition

Throughout her academic and professional trajectory, Dr. Zhang has earned widespread respect for her analytical acumen and interdisciplinary collaborations. Her postdoctoral role at Columbia, a hub for clinical psychiatry and biostatistics, positioned her among leaders in the field and enriched her research portfolio with translational applications. Her selection as faculty at a leading institution like UVA further reflects recognition of her scholarly excellence and her potential to drive future innovations in mental health data science.

🌍 Impact and Influence

Dr. Zhang’s work has significant implications for both the scientific community and clinical practice. Her methods empower researchers and clinicians alike to draw meaningful patterns from multimodal datasets, thereby advancing precision psychiatry. Moreover, her collaborative efforts across biomedical engineering, statistics, and clinical disciplines have fostered integrative frameworks that extend beyond academic settings into real-world applications. Her contributions are helping to shape a more data-driven and personalized future in mental health care.

🔮 Legacy and Future Contributions

As she continues her academic journey, Dr. Zhang aims to expand her research frontiers by exploring dynamic brain-behavior associations and improving the interpretability of AI models in clinical contexts. With a commitment to mentorship and open science, she is building a legacy rooted in intellectual rigor, innovation, and societal relevance. Her future contributions are expected to not only deepen our understanding of mental health disorders but also inspire a new generation of data scientists dedicated to neuroscience and human well-being.

Publication

  • Leverage multimodal neuro-imaging and genetics to identify causal relationship between structural and functional connectivity and ADHD with Mendelian randomization
    C Ji, S Lee, S Sequeira, J Jin, A Zhang2025

 

  • Integrated brain connectivity analysis with fmri, dti, and smri powered by interpretable graph neural networks
    G Qu, Z Zhou, VD Calhoun, A Zhang, YP Wang2025

 

  • Altered hierarchical rank in intrinsic neural time-scales in autism spectrum disorder
    A Solomon, W Yu, J Rasero, A Zhang2025

 

  • A Privacy-Preserving Domain Adversarial Federated learning for multi-site brain functional connectivity analysis
    Y Zhang, L Wang, KJ Su, A Zhang, H Zhu, X Liu, H Shen, VD Calhoun, …2025

 

  • A Novel GNN Framework Integrating Neuroimaging and Behavioral Information to Understand Adolescent Psychiatric Disorders
    W Yu, G Qu, Y Kim, L Xu, A Zhang2025

 

  • A Bayesian incorporated linear non-Gaussian acyclic model for multiple directed graph estimation to study brain emotion circuit development in adolescence
    A Zhang, G Zhang, B Cai, TW Wilson, JM Stephen, VD Calhoun, YP Wang2024

 

  • Exploring hierarchical gradients of intrinsic neural timescales in mild cognitive impairment and Alzheimer’s disease
    A Zhang, K Wengler, X Zhu, G Horga, TE Goldberg, S Lee2024

 

  • Time‐varying dynamic Bayesian network learning for an fMRI study of emotion processing
    L Sun, A Zhang, F Liang2024

 

  • Altered hierarchical gradients of intrinsic neural timescales in mild cognitive impairment and Alzheimer’s disease
    A Zhang, K Wengler, X Zhu, G Horga, TE Goldberg, S Lee, …2024

 

  • Associations Between Brain Connectivity and Psychiatric Symptoms in Children: Insights into Adolescent Mental Health
    D Mutu, K Ji, X He, S Lee, S Sequeira, A Zhang2024

 

🧾 Conclusion

Dr. Zhang’s journey exemplifies a seamless integration of data science and neuroscience to address pressing mental health challenges. Her innovative use of multimodal data and machine learning not only contributes to scientific advancement but also enhances real-world clinical decision-making. As she continues to pioneer research at the intersection of computation and psychiatry, her influence is poised to grow, shaping the future of precision mental health care and empowering both academia and clinical practice through data-driven insights.

 

Che Ping Cheng | Translational Neuroscience | Best Researcher Award

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Prof. Che Ping Cheng | Translational Neuroscience | Best Researcher Award

Prof. Che Ping Cheng, Wake Forest University School of Medicine, United States.

Dr. Che Ping Cheng, M.D., Ph.D., FAHA, is a distinguished cardiovascular physiologist and internal medicine specialist whose career has been dedicated to advancing the understanding of heart function and failure. From earning his medical degree in China to completing a Ph.D. in Physiology at Wayne State University, and later conducting pivotal postdoctoral research at Wake Forest School of Medicine, Dr. Cheng has consistently pursued excellence in science and education. His research on ventricular mechanics, volume loading, and heart failure has significantly influenced both experimental cardiology and clinical practice. Recognized as a Fellow of the American Heart Association, he is also a dedicated mentor, shaping the next generation of cardiovascular researchers through his academic leadership.

Profile

Scopus

 

🎓 Early Academic Pursuits

Dr. Che Ping Cheng’s journey into medicine and science began in Nanjing, China, where he earned his M.D. degree from Nanjing Railway Medical University in 1977. His early academic path reflected a deep interest in understanding the intricacies of human health, particularly in cardiovascular physiology. Driven by a desire to expand his knowledge and research capabilities, Dr. Cheng pursued his Ph.D. in Physiology at Wayne State University School of Medicine in Detroit, Michigan, completing his degree in 1986. Under the mentorship of Dr. Robert S. Shepard, his doctoral work focused on exploring the mechanisms of cardiovascular response to volume loading in a canine model with tricuspid valvulectomy, setting a strong foundation for his lifelong focus on heart function and disease mechanisms.

🩺 Professional Endeavors

Following his academic training, Dr. Cheng embarked on postdoctoral studies at the Bowman Gray School of Medicine (now part of Wake Forest School of Medicine), where he continued to cultivate his expertise in internal medicine and cardiovascular physiology. Between 1986 and 1988, he served as a Postdoctoral Fellow under the guidance of Dr. William C. Little. His research during this period focused on ventricular dynamics and the physiological factors affecting active ventricular filling, which would later inform his broader work on heart failure and cardiac function. Dr. Cheng has since remained at Wake Forest School of Medicine, where he is currently a distinguished member of the Section on Cardiovascular Medicine.

🧪 Contributions and Research Focus

Dr. Cheng’s career has been characterized by a deep commitment to advancing the understanding of cardiac hemodynamics, ventricular interaction, and heart failure mechanisms. His research has explored how ventricular function responds under altered physiological states, and how these responses inform disease progression and treatment strategies. His early animal model studies have provided critical insights into the interplay between structural and functional changes in the heart, especially in the context of diastolic dysfunction and volume overload conditions. Dr. Cheng has also made significant strides in translating these findings to clinical contexts, influencing how cardiologists approach diagnosis and therapy.

🏅 Accolades and Recognition

Throughout his career, Dr. Cheng has received considerable recognition for his scholarly contributions. He is a Fellow of the American Heart Association (FAHA), an honor that reflects his standing in the field of cardiovascular research and his commitment to scientific excellence. His work has earned the respect of colleagues and institutions alike, leading to numerous invitations to contribute to collaborative projects, serve on peer-review panels, and mentor future generations of cardiovascular researchers.

🌍 Impact and Influence

Dr. Cheng’s work has had a lasting impact on both experimental and clinical cardiology. By elucidating the mechanistic basis of ventricular dysfunction, he has helped shift paradigms in heart failure management, particularly in the areas of ventricular interdependence and preload responsiveness. His research findings are frequently cited in textbooks and high-impact journals, and they continue to inform guidelines for cardiac care and interventions. Through his work at Wake Forest and beyond, Dr. Cheng has played a pivotal role in bridging laboratory discoveries with bedside applications.

👨‍🏫 Legacy and Mentorship

As a respected mentor and educator, Dr. Cheng has dedicated a significant portion of his career to training medical students, residents, and postdoctoral fellows. His mentorship has influenced numerous emerging scholars in cardiovascular medicine, many of whom have gone on to successful academic and clinical careers. His guidance combines a rigorous scientific approach with a deep sense of responsibility to patient care and scientific integrity, shaping a legacy that extends well beyond his own research output.

🔬 Future Contributions and Vision

Looking ahead, Dr. Cheng remains committed to the advancement of cardiovascular research, with a continued focus on uncovering the cellular and mechanical determinants of heart disease. His vision includes fostering collaborative projects that integrate biomedical engineering, imaging, and computational modeling to further understand cardiac performance. With decades of experience and a forward-thinking approach, Dr. Cheng’s future contributions are poised to leave a lasting mark on the field of translational cardiovascular medicine.

Publication

  1. Title: Increased CaMKII activation and contrast changes of cardiac β1-and β3-Adrenergic signaling pathways in a humanized angiotensinogen model of hypertension
    Authors: Sun, Xiaoqiang; Cao, Jing; Chen, Zhe; Ferrario, Carlos M.; Cheng, Cheping
    Year: 2023
    Journal: Heliyon

 

  1. Title: Calmodulin-dependent protein kinase II activation promotes kidney mesangial expansion in streptozotocin-induced diabetic mice
    Authors: Mikhailov, Alexei V.; Liu, Yixi; Cheng, Hengjie; Lin, Jen Jar; Cheng, Cheping
    Year: 2022
    Journal: Heliyon

 

  1. Title: Chronic GPR30 agonist therapy causes restoration of normal cardiac functional performance in a male mouse model of progressive heart failure: Insights into cellular mechanisms
    Authors: Zhang, Xiaowei; Li, Tiankai; Cheng, Hengjie; Groban, Leanne; Cheng, Cheping
    Year: 2021
    Journal: Life Sciences

 

  1. Title: Chronic Ca2+/calmodulin-dependent protein Kinase II inhibition rescues advanced heart failure
    Authors: Liu, Yixi; Shao, Qun; Cheng, Hengjie; Zhao, David Xiao Ming; Cheng, Cheping
    Year: 2021
    Journal: Journal of Pharmacology and Experimental Therapeutics

 

  1. Title: The Angiotensin-(1–12)/Chymase axis as an alternate component of the tissue renin angiotensin system
    Authors: Ferrario, Carlos M.; Groban, Leanne; Wang, Hao; Sun, Xuming; Ahmad, Sarfaraz
    Year: 2021
    Journal: Molecular and Cellular Endocrinology

 

  1. Title: Reversal of angiotensin-(1–12)-caused positive modulation on left ventricular contractile performance in heart failure: Assessment by pressure-volume analysis
    Authors: Li, Tiankai; Zhang, Zhi; Zhang, Xiaowei; Ferrario, Carlos M.; Cheng, Cheping
    Year: 2020
    Journal: International Journal of Cardiology

 

  1. Title: Female Heart Health: Is GPER the Missing Link?
    Authors: Groban, Leanne; Tran, Q. K.; Ferrario, Carlos M.; Wang, Hao; Lindsey, Sarah H.
    Year: (Not specified, but likely 2020 or 2021)
    Journal: (Not specified)

 

🏁 Conclusion

Dr. Cheng’s legacy is one of intellectual rigor, clinical relevance, and mentorship. His work has not only deepened the scientific understanding of cardiac physiology but has also shaped modern approaches to diagnosing and managing heart failure. With a career spanning continents and disciplines, Dr. Cheng continues to be a guiding force in cardiovascular medicine, and his future contributions are anticipated to further advance the frontiers of heart research and patient care.

 

Fabiano Papaiz | Computational Neuroscience | Best Researcher Award

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Prof. Fabiano Papaiz | Computational Neuroscience | Best Researcher Award

Prof. Fabiano Papaiz, IFRN, Brazil.

Fabiano Papaiz is a dedicated academic and professional in the field of education and technology, affiliated with the Federal Institute of Education, Science, and Technology of Rio Grande do Norte (IFRN) in Brazil. With a strong foundation in the intersection of education and technology, his work focuses on integrating modern technological innovations into educational practices. Through his research and professional endeavors, Papaiz has contributed significantly to advancing educational methods and improving learning environments. His accolades reflect his influence both within Brazil and internationally. His research aims to enhance educational outcomes by leveraging digital tools and resources, benefiting the academic community and shaping the future of learning.

Profile

Orcid

 

📚 Early Academic Pursuits

Fabiano Papaiz began his academic journey in Brazil, where he cultivated a strong foundation in the field of education and technology. His early academic pursuits were centered around exploring the intersections of education and technological advancements. With a keen interest in applied sciences, he honed his knowledge and skills through his academic experiences, leading him to a path of lifelong learning and research. Papaiz’s commitment to education in Brazil is evident, and his passion for technology-driven academic progress is one of the key pillars of his professional career.

💻 Professional Endeavors

Currently affiliated with the Federal Institute of Education, Science, and Technology of Rio Grande do Norte (IFRN), Fabiano Papaiz plays a pivotal role in shaping the future of education and technology. At IFRN, he is part of the DATINF (Department of Information Technology), where he works on integrating modern technological solutions with academic practices. His professional journey reflects his dedication to advancing educational methodologies and bridging the gap between technology and learning. As part of the institution, Papaiz has contributed to a wide range of educational initiatives that aim to enhance the learning experience in Brazil, especially in the field of information technology.

🔬 Contributions and Research Focus

Papaiz’s research interests lie in the dynamic field of information technology and its application to educational contexts. His research focuses on leveraging technological innovations to improve educational outcomes, develop new learning tools, and address contemporary challenges in the digital age. Fabiano’s academic contributions have been significant, with a strong emphasis on the role of technology in shaping modern education. His work not only influences the academic community but also helps to create a more tech-savvy generation of students who can navigate and thrive in a rapidly evolving digital world.

🏆 Accolades and Recognition

Throughout his career, Fabiano Papaiz has received numerous accolades for his contributions to education and technology. His work at IFRN has been recognized not only within Brazil but also internationally, as he continues to share his expertise with global academic and technological communities. His dedication to advancing the integration of information technology into education has earned him admiration from peers, students, and academic institutions alike. His reputation as a thought leader in the intersection of education and technology is well-established, marking him as an influential figure in his field.

🌍 Impact and Influence

Fabiano Papaiz’s work has made a profound impact on both the academic and technological landscapes of Brazil. His influence extends beyond the classroom, as his research and professional endeavors have shaped the way information technology is applied in education. Through his leadership and innovation, he has fostered the growth of more effective learning environments, enhanced by the use of digital tools and resources. His contributions have not only benefited his institution but also contributed to the wider educational community by offering solutions that address modern teaching and learning needs.

Publication

  • Title: Predicting ALS progression using Autoregressive deep learning models
    Authors: Fabiano Papaiz, Mario Emílio Teixeira Dourado, Jr, Ricardo Alexsandro de Medeiros Valentim, Felipe Ricardo dos Santos Fernandes, João Paulo Queiroz dos Santos, Antonio Higor Freire de Morais, Fernanda Brito Correia, Joel Perdiz Arrais
    Year: 2025

 

  • Title: RR3D: Uma solução para renderização remota de imagens médicas tridimensionais
    Author: Fabiano Papaiz
    Year: 2013

 

Conclusion

Fabiano Papaiz’s career exemplifies the transformative power of technology in education. His contributions, ranging from research to institutional leadership, have made a lasting impact on the integration of technology in educational settings. As he continues to innovate and lead, Papaiz’s legacy will undoubtedly shape the future of education, paving the way for more inclusive and effective learning environments. His ongoing work ensures that technology will remain a key driver in educational progress, with the potential to benefit generations of students and educators worldwide.

 

Burak Derkus | Cellular Neuroscience | Best Researcher Award

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Prof. Burak Derkus | Cellular Neuroscience | Best Researcher Award

Prof. Burak Derkus, Ankara University, Turkey.

Prof. Burak Derkus has distinguished himself as a pioneering academic and researcher at Ankara University, Turkey, where he has played a vital role in shaping the future of biomedical engineering. His work spans across key disciplines such as biosensors, nanobiotechnology, and lab-on-a-chip technologies. By merging biology with cutting-edge engineering, he has developed innovative solutions aimed at improving diagnostic efficiency and accessibility. His career reflects a balance between scientific discovery, practical application, and educational leadership.

Profile

Google Scholar

🎓 Early Academic Pursuits

From the heart of Turkey, Prof. Burak Derkus began his journey into the world of science and discovery with an unwavering curiosity and dedication. His early academic path was marked by a strong foundation in biomedical sciences, which he cultivated during his undergraduate and postgraduate studies. Prof. Derkus demonstrated exceptional aptitude in analytical thinking and laboratory precision, laying the groundwork for a promising academic future. His formative years were spent exploring the intersections of biology, materials science, and engineering, which later became the pillars of his specialized research focus.

🧪 Professional Endeavors

Prof. Derkus established himself as a dynamic figure in academia through his ongoing association with Ankara University, one of Turkey’s leading research institutions. Here, he contributed not only as a scholar but also as a mentor, actively participating in the development of innovative curriculum modules and engaging students in high-impact research. His professional path is characterized by his interdisciplinary approach, blending principles of nanotechnology, biomedical engineering, and microfabrication to tackle complex challenges in healthcare and diagnostics.

🔬 Contributions and Research Focus

Renowned for his pioneering work in lab-on-a-chip systems, biosensors, and nanobiotechnology, Prof. Derkus has carved out a unique niche in biomedical microdevices. His research focuses on developing miniaturized platforms that can detect diseases with higher sensitivity, speed, and accuracy. By integrating biomaterials with microfluidic technologies, he aims to revolutionize early disease diagnosis and personalized medicine. His published works are rich with innovation, often bridging the gap between engineering and clinical applications.

🏅 Accolades and Recognition

Over the years, Prof. Derkus has earned numerous accolades that reflect his scientific excellence and leadership. His publications in high-impact journals, along with international conference presentations, have positioned him as a thought leader in the biomedical engineering community. He has been invited to serve on editorial boards and scientific committees, further endorsing his reputation as a respected academic figure. These honors underscore his persistent efforts in advancing applied sciences and improving public health through technological innovation.

🌍 Impact and Influence

Prof. Derkus’s influence extends beyond Turkey, resonating across international scientific circles. His research projects have fostered collaborations with institutions across Europe and Asia, facilitating knowledge exchange and cross-border innovation. By mentoring graduate students and young researchers, he continues to inspire a new generation of scientists. His contributions to the development of cost-effective, portable diagnostic tools hold immense potential for global health, particularly in under-resourced communities.

📚 Legacy and Future Contributions

Prof. Derkus is not just a researcher but a visionary thinker. His legacy is being built upon the transformative technologies he develops, aimed at addressing the future needs of society. His ongoing work promises to enhance biomedical diagnostics, therapeutic monitoring, and point-of-care testing. Looking ahead, he is poised to lead larger interdisciplinary collaborations, potentially contributing to the design of smart diagnostic devices powered by artificial intelligence and integrated sensors.

Publication

  • Title: Supramolecular self-assembly to control structural and biological properties of multicomponent hydrogels
    Authors: BO Okesola, Y Wu, B Derkus, S Gani, D Wu, D Knani, DK Smith, …
    Year: 2019

 

  • Title: Fabrication of human hair keratin/jellyfish collagen/eggshell-derived hydroxyapatite osteoinductive biocomposite scaffolds for bone tissue engineering: From waste to …
    Authors: YE Arslan, TS Arslan, B Derkus, E Emregul, KC Emregul
    Year: 2017

 

  • Title: Applying the miniaturization technologies for biosensor design
    Authors: B Derkus
    Year: 2016

 

  • Title: Myelin basic protein immunosensor for multiple sclerosis detection based upon label-free electrochemical impedance spectroscopy
    Authors: B Derkus, E Emregul, C Yucesan, KC Emregul
    Year: 2013

 

  • Title: Simultaneous quantification of Myelin Basic Protein and Tau proteins in cerebrospinal fluid and serum of Multiple Sclerosis patients using nanoimmunosensor
    Authors: B Derkus, PA Bozkurt, M Tulu, KC Emregul, C Yucesan, E Emregul
    Year: 2017

 

  • Title: Growth‐Factor Free Multicomponent Nanocomposite Hydrogels That Stimulate Bone Formation
    Authors: B Okesola, S Ni, B Derkus, C Galeano, A Hasan, Y Wu, J Ramis, L Buttery, …
    Year: 2020

 

  • Title: Untargeted multi-omic analysis of colorectal cancer-specific exosomes reveals joint pathways of colorectal cancer in both clinical samples and cell culture
    Authors: CC Eylem, M Yilmaz, B Derkus, E Nemutlu, CB Camci, E Yilmaz, …
    Year: 2020

 

  • Title: Multicomponent hydrogels for the formation of vascularized bone-like constructs in vitro
    Authors: B Derkus, BO Okesola, DW Barrett, M D’Este, TT Chowdhury, D Eglin, …
    Year: 2020

 

 

🧭 Conclusion

Prof. Derkus’s journey is a testament to the power of interdisciplinary research and its potential to drive meaningful change in global healthcare. His contributions have not only advanced scientific knowledge but also inspired collaborative innovation on an international scale. With a forward-looking mindset and a deep commitment to societal benefit, he continues to influence the field through research, mentorship, and visionary thinking. As science and medicine evolve, Prof. Burak Derkus remains a guiding force, building a legacy rooted in healing, discovery, and human impact.

Irena Roterman | Computational Neuroscience | Best Researcher Award

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Prof. Dr. Irena Roterman | Computational Neuroscience | Best Researcher Award

Prof. Dr. Irena Roterman, Jagiellonian University Medical College, Poland.

Prof. Irena Roterman-Konieczna is a distinguished scientist whose academic roots in theoretical chemistry and biochemistry evolved into groundbreaking contributions in bioinformatics. With a Ph.D. and habilitation in biochemistry, and a postdoctoral fellowship at Cornell University, she developed a unique perspective on protein structure and folding. Her most notable innovation is the Fuzzy Oil Drop (FOD) model, which simulates protein folding by incorporating environmental effects using a 3D Gaussian function to map hydrophobicity distribution. This model has wide applicability—from understanding membrane proteins and amyloids to analyzing domain-swapping and receptor anchoring.

Profile

Scopus

 

🎓 Early Academic Pursuits

Irena Roterman-Konieczna began her academic journey in theoretical chemistry at the prestigious Jagiellonian University, graduating from the Faculty of Chemistry in 1974. Her early interest in molecular structure and the physicochemical underpinnings of biological systems laid a strong foundation for her interdisciplinary career. She deepened her scientific expertise by earning a Ph.D. in biochemistry in 1984 from Nicolaus Copernicus Medical Academy in Krakow, focusing on the structure of the recombinant IgG hinge region. Her postdoctoral studies at Cornell University from 1987 to 1989, under the mentorship of Harold A. Scheraga, further shaped her academic development. There, she explored force fields used in prominent computational programs like AMBER, CHARMM, and ECEPP, bridging theoretical modeling with biomolecular reality.

🧬 Professional Endeavors in Bioinformatics

Throughout her career, Prof. Roterman-Konieczna has been at the forefront of bioinformatics, dedicating herself to unraveling the mysteries of protein structure and amyloid formation. Following her habilitation in biochemistry at the Jagiellonian University Faculty of Biotechnology in 1994 and the conferment of her professorial degree in medical sciences in 2004, she continued to pioneer innovative methods in structural bioinformatics. Her hallmark contribution, the Fuzzy Oil Drop (FOD) model, revolutionized the understanding of protein folding. The model uniquely incorporates environmental influence into folding simulations by using a 3D Gaussian function to describe hydrophobicity distribution—proposing that hydrophobic residues form a central core while hydrophilic residues remain exposed. This paradigm introduced a more realistic, dynamic framework for simulating in silico protein folding.

🧪 Contributions and Research Focus

Prof. Roterman-Konieczna’s research has explored how proteins behave not only in aqueous environments but also within membranes and under the influence of external force fields. By modifying the Gaussian-based FOD model, she extended its applicability to membrane proteins, enabling quantification of their anchoring mechanisms and mobility. Her investigations into chaperonins and domain-swapping phenomena further illustrate the power of her model to decode complex folding and protein-protein interactions. She introduced a dual-variable simulation function—accounting for both internal forces (non-bonded interactions within the protein chain) and external forces (environmental effects)—to guide structural transformation toward energy minima. These ideas are foundational in modern computational biology, where realistic folding predictions are critical for understanding disease mechanisms and therapeutic targeting.

📘 Scholarly Publishing and Intellectual Outreach

A prolific author, Prof. Roterman-Konieczna has made significant contributions to scientific literature. She has authored several influential books, many published in Open Access to promote knowledge sharing. These works include “Protein Folding In Silico” (Elsevier), “Systems Biology – Functional Strategies of Living Organism” (Springer), and “From Globular Proteins to Amyloids” (Elsevier, 2020). Her books elegantly communicate complex bioinformatic strategies, such as ligand binding site identification, protein-protein interactions, and computer-aided diagnostics. Moreover, her editorial leadership from 2005 to 2020 as Chief Editor of the journal Bio-Algorithms and Med-Systems cemented her influence in shaping interdisciplinary dialogues at the intersection of medicine, biology, and computation.

🏆 Accolades and Recognition

Prof. Roterman-Konieczna’s work has earned international acclaim. Notably, she is listed among the Top 2% scientists worldwide by Stanford University and Elsevier—a testament to her influential research and academic reputation. With 149 publications indexed in PubMed, her impact on the bioinformatics community is both broad and profound. Over the course of her career, she has also served as a mentor to 14 doctoral students, many of whom continue to contribute to research and innovation across various fields of biomedicine.

🌐 Impact and Influence

Her research has advanced global understanding of how proteins fold, interact, and misfold—a process central to neurodegenerative diseases such as Alzheimer’s. The FOD model continues to provide a computational lens for studying amyloid formation and supramolecular assemblies. Her model is also pivotal in studying receptor anchoring in membranes and exploring domain-swapping mechanisms critical to protein complex formation. By integrating thermodynamic theory, statistical modeling, and structural biology, her work bridges theoretical research with biomedical applications, pushing the boundaries of in silico experimentation.

🧭 Legacy and Future Contributions

Prof. Irena Roterman-Konieczna’s legacy is rooted in her visionary approach to molecular biology, championing models that blend computational precision with biological realism. Her commitment to open access publishing and academic mentoring reflects a deep dedication to inclusive, sustainable scientific progress. As systems biology and personalized medicine continue to evolve, her models and insights will remain cornerstones for future explorations in disease modeling, drug design, and molecular diagnostics. Her career exemplifies how interdisciplinary thinking and computational ingenuity can transform the life sciences, leaving a legacy that will guide future generations of scientists.

Publication

  • Title: Aquaporins as Membrane Proteins: The Current Status
    Authors: I.K. Roterman (Irena K.), K. Stapor (Katarzyna), D. Dułak (Dawid), G. Szoniec (Grzegorz), L. Konieczny (Leszek)
    Year: 2025

 

  • Title: DisorderUnetLM: Validating ProteinUnet for efficient protein intrinsic disorder prediction
    Authors: K. Kotowski (Krzysztof), I.K. Roterman (Irena K.), K. Stapor (Katarzyna)
    Year: 2025

 

  • Title: Protein folding: Funnel model revised
    Authors: I.K. Roterman (Irena K.), M. Slupina (Mateusz), L. Konieczny (Leszek)
    Year: 2024

 

  • Title: Domain swapping: a mathematical model for quantitative assessment of structural effects
    Authors: I.K. Roterman (Irena K.), K. Stapor (Katarzyna), D. Dułak (Dawid), L. Konieczny (Leszek)
    Year: 2024

 

  • Title: Chameleon Sequences─Structural Effects in Proteins Characterized by Hydrophobicity Disorder
    Authors: I.K. Roterman (Irena K.), M. Slupina (Mateusz), K. Stapor (Katarzyna), K. Gądek (Krzysztof), P. Nowakowski (Piotr)
    Year: 2024

 

  • Title: Transmembrane proteins—Different anchoring systems
    Authors: I.K. Roterman (Irena K.), K. Stapor (Katarzyna), L. Konieczny (Leszek)
    Year: 2024

 

  • Title: External Force Field for Protein Folding in Chaperonins─Potential Application in In Silico Protein Folding
    Authors: I.K. Roterman (Irena K.), K. Stapor (Katarzyna), D. Dułak (Dawid), L. Konieczny (Leszek)
    Year: 2024

 

  • Title: Structural features of Prussian Blue-related iron complex FeT of activity to peroxidate unsaturated fatty acids
    Authors: M. Lasota (Małgorzata), G. Zemanek (Grzegorz), O. Barczyk-Woźnicka (Olga), L. Konieczny (Leszek), I.K. Roterman (Irena K.)
    Year: 2024

 

  • Title: Editorial: Structure and function of trans-membrane proteins
    Authors: I.K. Roterman (Irena K.), M.M. Brylinski (Michal Michal), F. Polticelli (Fabio), A.G. de Brevern (Alexandre G.)
    Year: 2024

 

  • Title: Model of the external force field for the protein folding process—the role of prefoldin
    Authors: I.K. Roterman (Irena K.), K. Stapor (Katarzyna), L. Konieczny (Leszek)
    Year: 2024

 

🧠 Conclusion

Prof. Roterman-Konieczna’s career stands as a testament to how deep scientific insight and computational innovation can revolutionize biological understanding. Her FOD model not only enriches the study of protein dynamics but also provides a versatile framework for medical and pharmaceutical applications. With a legacy built on rigorous research, educational outreach, and academic leadership, her influence will continue to guide future advances in molecular biology, bioinformatics, and biomedical science.

 

Francisco Mena | Computational Neuroscience | Best Researcher Award

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Mr. Francisco Mena | Computational Neuroscience | Best Researcher Award

Mr. Francisco Mena, University of Kaiserslautern-Landau, Germany.

Francisco Mena is a dynamic researcher in the field of machine learning, currently pursuing a PhD at the University of Kaiserslautern-Landau (RPTU), Germany. His academic roots trace back to Federico Santa María Technical University (UTFSM) in Chile, where he developed a strong foundation in computer engineering and data science. With a specialization in unsupervised learning, deep learning, and multi-view data fusion, his work focuses on building robust and scalable models that minimize human intervention and adapt to incomplete or noisy datasets—particularly in the context of Earth observation and crowdsourced data. He has worked across international research institutes like DFKI in Germany and Inria in France, contributing to global advancements in AI and data science. His teaching and mentoring roles, combined with his innovative research, mark him as a rising contributor to the future of intelligent systems.

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🎓 Early Academic Pursuits

Francisco Mena’s academic journey began with a strong foundation in computer engineering at Federico Santa María Technical University (UTFSM) in Chile. Demonstrating exceptional academic performance, he ranked in the top 10% of his class, securing the 4th position among 66 students. He pursued an integrated path that led him to obtain a Bachelor of Science, a Licenciado, and later the Ingeniería Civil en Informática degree. Driven by curiosity and a passion for machine learning, he transitioned seamlessly into postgraduate studies, earning a Magíster en Ciencias de la Ingeniería Informática at UTFSM. His master’s thesis, focused on mixture models in crowdsourcing scenarios, set the stage for his growing interest in unsupervised learning and probabilistic models.

💼 Professional Endeavors

Alongside his studies, Francisco actively engaged in diverse professional roles that enriched his technical and academic expertise. He served as a research assistant at the Chilean Virtual Observatory (CHIVO), contributing to astroinformatics projects by processing and organizing astronomical datasets from ALMA and ESO observatories. His early professional stint as a front-end and back-end developer provided him with hands-on industry experience. In academia, he held several teaching roles, progressing from laboratory assistant to lecturer in key courses such as computational statistics, artificial neural networks, and machine learning. Currently, as a Student Research Assistant at the German Research Centre for Artificial Intelligence (DFKI), he contributes to Earth observation projects, enhancing models for crop yield prediction using multi-view data.

🔬 Contributions and Research Focus

Francisco’s research is anchored in machine learning with a special emphasis on unsupervised learning, deep neural architectures, multi-view learning, and data fusion. His doctoral work at University of Kaiserslautern-Landau (RPTU) focuses on handling missing views in Earth observation data, an increasingly important issue in remote sensing. He explores innovative methods that challenge traditional domain-specific models by advocating for approaches that minimize human intervention and labeling. His core research areas include autoencoders, deep clustering, dimensionality reduction, and latent variable modeling, with applications extending to vegetation monitoring, neural information retrieval, and crowdsourcing.

🌍 Global Collaborations

Francisco’s commitment to impactful research is evident in his international collaborations. In addition to his work in Germany, he undertook a research visit to Inria in Montpellier, France, where he explored cutting-edge topics such as multi-modal co-learning, multi-task learning, and mutual distillation. These collaborations allow him to expand the practical relevance of his research across geographical and disciplinary boundaries, contributing to global discussions in artificial intelligence and data science.

🧠 Impact and Influence

Through his extensive academic involvement, Francisco has shaped the understanding of machine learning models that are both scalable and adaptable to real-world challenges. His contributions in crowdsourcing, particularly the use of latent group variable models for large-scale annotations, reflect his commitment to developing resource-efficient models. His influence extends into education, where he has mentored students and shaped curriculum delivery in machine learning-related subjects. By leveraging tools like PyTorch, QGIS, and Slurm, he ensures his work remains at the cutting edge of technological advancement.

🏆 Recognition and Growth

Francisco’s academic excellence is evident from his consistent achievements and recognition. His GPA of 94% during his master’s program stands as a testament to his dedication and intellect. Being ranked #4 in his undergraduate program highlights his sustained academic brilliance. His teaching roles at UTFSM and lecturing at RPTU further underscore the trust institutions place in his knowledge and teaching abilities.

🚀 Legacy and Future Contributions

With a clear research vision and a strong international presence, Francisco Mena is poised to leave a lasting impact in the field of artificial intelligence, particularly in unsupervised learning and Earth observation. His focus on reducing dependency on human intervention, increasing model generalizability, and handling incomplete or noisy data reflects a future-forward approach. As his doctoral journey progresses, he is expected to continue influencing how machine learning models are conceptualized, designed, and deployed in real-world applications—especially those that require scalable, domain-agnostic solutions.

Publication

 

  • Harnessing the power of CNNs for unevenly-sampled light-curves using Markov Transition Field – M Bugueño, G Molina, F Mena, P Olivares, M Araya – 2021

 

  • Common practices and taxonomy in deep multiview fusion for remote sensing applications – F Mena, D Arenas, M Nuske, A Dengel – 2024

 

  • A binary variational autoencoder for hashing – F Mena, R Ñanculef – 2019

 

  • Refining exoplanet detection using supervised learning and feature engineering – M Bugueño, F Mena, M Araya – 2018

 

  • Predicting crop yield with machine learning: An extensive analysis of input modalities and models on a field and sub-field level – D Pathak, M Miranda, F Mena, C Sanchez, P Helber, B Bischke, … – 2023

 

  • Adaptive fusion of multi-modal remote sensing data for optimal sub-field crop yield prediction – F Mena, D Pathak, H Najjar, C Sanchez, P Helber, B Bischke, P Habelitz, … – 2025

 

  • A comparative assessment of multi-view fusion learning for crop classification – F Mena, D Arenas, M Nuske, A Dengel – 2023

 

  • Self-supervised Bernoulli autoencoders for semi-supervised hashing – R Ñanculef, F Mena, A Macaluso, S Lodi, C Sartori – 2021

 

  • Impact assessment of missing data in model predictions for Earth observation applications – F Mena, D Arenas, M Charfuelan, M Nuske, A Dengel – 2024

 

  • Increasing the robustness of model predictions to missing sensors in Earth observation – F Mena, D Arenas, A Dengel – 2024

 

🧩 Conclusion

Driven by curiosity and innovation, Francisco Mena is reshaping the landscape of machine learning through his pursuit of generalizable, efficient, and human-independent models. His research not only addresses technical limitations but also responds to the growing need for AI systems that are adaptable across domains and disciplines. With a solid academic background, global collaborations, and a clear research vision, he is set to make lasting contributions to unsupervised learning and its applications in critical areas like Earth observation and neural information retrieval. As he continues to build on his expertise, his work promises to influence both the academic world and the practical deployment of intelligent systems in complex, real-world scenarios.

Manisha Thapliyal | Bioinformatics | Best Researcher Award

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Ms. Manisha Thapliyal | Bioinformatics | Best Researcher Award

Ms. Manisha Thapliyal, Patanjali Research Foundation, India.

Manisha Thapliyal is a dedicated scientist with six years of experience in biotechnology, bioinformatics, and computational drug design. She has led research teams, contributed to groundbreaking studies, and played a key role in developing novel therapeutic solutions. With expertise in plant genetic transformation, nanoparticle synthesis, and large-scale research projects, she is committed to advancing scientific innovation. Her passion for mentoring and organizing scientific events underscores her commitment to fostering future research talent.

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🌱 Early Academic Pursuits

Manisha Thapliyal’s journey into the world of scientific exploration began with a strong foundation in biotechnology and bioinformatics. Driven by an innate curiosity for life sciences, she pursued higher education with a focus on cutting-edge research methodologies. Her academic endeavors laid the groundwork for her specialization in computational drug design, plant genetic transformation, and nanotechnology. From her early years, she exhibited a passion for interdisciplinary studies, which later became a defining aspect of her professional career.

🧬 Professional Endeavors

With six years of experience in scientific research, Manisha Thapliyal has excelled in leading and managing research teams at the Patanjali Research Foundation in Haridwar. As a Scientist-B, she has guided Assistant Scientists in Computer-Aided Drug Designing (CADD), playing a pivotal role in developing potential therapeutic solutions. Her ability to seamlessly collaborate with bench scientists has ensured that computational strategies align with practical laboratory objectives. Through virtual screenings and molecular analyses, she has significantly contributed to identifying novel drug candidates with promising pharmacological potential.

 

🔬 Contributions and Research Focus

Manisha’s expertise extends across multiple domains, including plant genetic transformation studies, nanoparticle synthesis, and large-scale government-funded research projects. Her interdisciplinary approach bridges computational and experimental research, facilitating innovation in biotechnology. Her technical prowess in bioinformatics has enabled her to decode complex biological datasets, opening new avenues for scientific breakthroughs. Her research contributions are not limited to publications but extend to mentoring young scientists and fostering research-driven environments.

🏆 Accolades and Recognition

Recognized for her dedication and innovation in scientific research, Manisha has played a crucial role in several high-impact studies and book chapters. Her ability to integrate computational tools with experimental frameworks has earned her acclaim within the research community. She has been instrumental in organizing national and international conferences, workshops, and training programs, further solidifying her role as a thought leader in the field of biotechnology

🌍 Impact and Influence

Beyond her technical contributions, Manisha has been an active mentor, shaping the careers of aspiring researchers and young scientists. Her leadership in capacity-building initiatives has empowered the next generation of scientists to develop skills in drug discovery, genetic engineering, and bioinformatics. By fostering collaborative research environments, she has ensured that scientific advancements translate into meaningful healthcare and biotechnological solutions.

🔮 Legacy and Future Contributions

With an unwavering commitment to scientific excellence, Manisha Thapliyal envisions a future where biotechnology continues to drive innovation in medicine and environmental sustainability. Her focus remains on leveraging computational intelligence for precision drug discovery and sustainable biotechnological applications. As she advances in her career, she aims to expand her research horizon, bridging the gap between theoretical insights and real-world applications, ultimately contributing to the global scientific community.

Publication

  • SCREENING AND ISOLATION OF ANTIBACTERIAL PROTEINS/PEPTIDES FROM SEEDS OF MILLETS
    Authors: Anjali Bisht, Manisha Thapliyal
    Year: 2016

 

  • ISOLATION OF ANTIBACTERIAL PROTEIN/PEPTIDE FROM FICUS GLOMERATA LEAF
    Authors: Manisha Thapliyal, Anjali Bisht
    Year: 2016

 

  • Current Status of Indian Agriculture: Problems, Challenges and Solution
    Authors: Acharya Balkrishna, Manisha Phour
    Year: 2021

 

  • Role of AP2/EREBP Transcription Factor Family in Environmental Stress Tolerance
    Authors: Anjali Pande, Saurabh C Saxena, Manisha Thapliyal, Sudhir K Guru, Atul Kumar
    Year: 2018

 

  • Unraveling the therapeutic potential of Senna singueana phytochemicals to attenuate pancreatic cancer using protein–protein interactions, molecular docking, and …
    Authors: Acharya Balkrishna, D Sharma, M Thapliyal, V Arya, A Dabas
    Year: 2023

 

  • Isolation and Identification of α- Amylase activity Inhibiting compounds from Bryophyllum Pinnatum
    Authors: S R Kumar, M Thapliyal, A Singh
    Year: 2016

 

🏁 Conclusion

Manisha Thapliyal stands as a beacon of inspiration in the ever-evolving field of biotechnology. Her relentless pursuit of scientific excellence, coupled with her leadership in research and mentorship, has positioned her as a key contributor to scientific progress. Through her continued efforts in biotechnology and bioinformatics, she is set to make lasting contributions that will shape the future of drug discovery and sustainable scientific solutions.

 

Koagne Longpa Tamo Silas | Neuroinformatics | Pioneer Researcher Award

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Mr. Koagne Longpa Tamo Silas | Neuroinformatics | Pioneer Researcher Award

Mr.  Koagne Longpa Tamo Silas, University of Dschang, Cameroon.

Koagne Longpa Tamo Silas is a dedicated researcher in the field of medical physics, specializing in automation, artificial intelligence, and electronic system design. His academic journey from Bamenda State University to Dschang State University reflects his continuous pursuit of knowledge and innovation. His contributions to circuit simulation, embedded systems, and artificial neural networks have established him as a promising figure in medical physics.

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🎓 Early Academic Pursuits

Born on July 12, 1998, in Mbouda, Cameroon, Koagne Longpa Tamo Silas displayed a keen interest in science and technology from a young age. His passion for physics and engineering led him to pursue higher education at Bamenda State University, where he embarked on an academic journey in Electrical and Power Engineering. His undergraduate studies, from November 2015 to August 2018, laid the foundation for his expertise in electrical systems, automation, and circuit design. Eager to expand his knowledge, he continued his postgraduate studies in the same field at Bamenda State University from September 2018 to July 2020, honing his skills in power engineering and applied electronics.

🚀 Professional Endeavors

Determined to deepen his expertise, Koagne Longpa Tamo Silas transitioned into the field of physics, enrolling as a Ph.D. student at Dschang State University in December 2022. His academic pursuits in the Department of Physics align with his interests in medical physics, where he integrates automation, applied computer science, and electronics to innovate in the field. As a dedicated researcher, he continues to engage with the Faculty of Science at Dschang State University, contributing to the academic and scientific community with his research in medical physics and embedded systems.

🤖 Contributions and Research Focus

Koagne Longpa Tamo Silas has dedicated his research efforts to the intersection of medical physics, automation, and artificial intelligence. His work encompasses Analog Artificial Neural Networks, Embedded Systems, Circuit Simulation, Digital and Analog Electronics, and Microcontroller Programming. His proficiency in tools like Spice Simulation, Cadence Virtuoso, and Electronic Design Automation allows him to design and optimize medical devices and automated systems. His research aims to enhance diagnostic and therapeutic tools in medical physics by leveraging artificial intelligence and embedded systems.

🏆 Accolades and Recognition

Throughout his academic and research career, Koagne Longpa Tamo Silas has garnered recognition for his contributions to medical physics and electronics. His innovative approach to circuit simulation and signal processing has positioned him as a promising researcher in his field. His dedication to advancing medical technologies has earned him the respect of his peers and mentors, as he continues to contribute valuable insights to the scientific community.

🌐 Impact and Influence

Through his academic journey and research, Koagne Longpa Tamo Silas has influenced the way automation and artificial intelligence are integrated into medical physics. His work in digital electronics and microcontroller programming is paving the way for innovative solutions in the medical field. His contributions extend beyond research, as he actively engages with students and researchers, fostering a culture of knowledge-sharing and scientific exploration.

 

Publication

  • A High-Resolution Non-Volatile Floating Gate Transistor Memory Cell for On-Chip Learning in Analog Artificial Neural Networks
    Authors: KLT Silas, DTA Bernard, FT Bernard, L Jean-Pierre, GW Ejuh
    Year: 2025

 

  • Breast Cancer Diagnosis with Machine Learning Using Feed-Forward Multilayer Perceptron Analog Artificial Neural Network
    Authors: B Djimeli-Tsajio Alain, KLT Silas, LT Jean-Pierre, N Thierry, GW Ejuh
    Year: 2024

 

  • Design and Implementation of a Digital Breath Alcohol Detection System with SMS Alert and Vehicle Tracking on Google Map
    Author: KLT Silas
    Year: 2020

 

  • Design and Realization of an Electronic Attendance System Based on RFID with an Automatic Door Unit
    Author: MK Jules
    Year: 2018

 

🎯 Conclusion

With a vision to transform medical physics through automation and AI-driven technologies, Koagne Longpa Tamo Silas is on a path to making significant contributions to healthcare innovation. His passion, dedication, and expertise ensure that his research will continue to shape the future of medical technology, leaving a lasting impact on both academia and practical applications in the field.

 

Ketan Bulsara | Cellular Neuroscience | Excellence in Neuroscience Research Award

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Dr. Ketan Bulsara | Cellular Neuroscience | Excellence in Neuroscience Research Award

Dr. Ketan Bulsara, University of Connecticut, United States.

Dr. Ketan Ramanlal Bulsara is a distinguished neurosurgeon, educator, and administrator whose career has been defined by excellence in academic leadership, innovative research, and patient-centered surgical advancements. With a strong foundation in medical education and training, he has held prestigious positions at leading institutions, making significant contributions to the fields of cerebrovascular and skull base surgery. His work in neurosurgical education, healthcare policy, and perioperative quality improvement continues to influence the next generation of medical professionals.

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🎓 Early Academic Pursuits: The Foundation of Excellence

Dr. Ketan Ramanlal Bulsara’s journey into the world of neurosurgery began with a strong academic foundation. He earned his Bachelor of Science in Biology and Neuroscience, graduating Magna Cum Laude from Davidson College in 1992. His passion for medicine led him to Duke University School of Medicine, where he earned his Medical Degree with Honors in 1996. Committed to mastering his craft, Dr. Bulsara underwent rigorous neurosurgical training at Duke University Medical Center, progressing through internship, residency, and chief residency roles. His dedication to specialized knowledge took him to the University of Iowa for a fellowship in Transoral Surgery and later to Duke’s Neurovascular Program for an advanced Endovascular Fellowship, earning CAST certification by the Senior Neurological Society.

🎉 Professional Endeavors: Pioneering Neurosurgical Excellence

Dr. Bulsara has held esteemed academic and leadership positions throughout his career. Beginning as an Assistant Professor at the University of Missouri, he quickly ascended to directorship roles at Yale University, where he led Neuroendovascular and Skull Base Surgery Programs. His expertise and leadership took him to UConn Health, where he has served as Professor and Chief of Neurosurgery since 2017. As Program Director of UConn’s Neurosurgery Residency Training Program and Director of Operating Room Quality, he has been instrumental in shaping the next generation of neurosurgeons. His administrative impact extended further when he was appointed Interim Inaugural Chairman of UConn’s Department of Neurosurgery in 2024.

📚 Contributions and Research Focus: Advancing Neurosurgical Innovation

Throughout his career, Dr. Bulsara has been at the forefront of neurosurgical research, focusing on cerebrovascular and skull base surgery, neuroendovascular techniques, and perioperative advancements. His tenure at Yale and UConn Health has been marked by groundbreaking contributions to neurosurgical methodologies, patient safety protocols, and cutting-edge surgical interventions. With a keen interest in medical policy and administration, he also serves as Chair of the UConn Health/University of Connecticut Dean’s Task Force on Coding and Documentation, ensuring optimal standards in medical practice.

🏆 Accolades and Recognition: A Trailblazer’s Achievements

Dr. Bulsara’s exemplary work has earned him widespread recognition in academic, clinical, and administrative spheres. His leadership has been pivotal in strengthening neurosurgical departments and residency programs, earning respect from peers and students alike. His continued commitment to excellence led him to pursue an Executive MBA at Yale School of Management, which he completed in 2017, equipping him with advanced skills in healthcare management and strategic planning. Furthering his multidisciplinary expertise, he embarked on a legal education at the University of Connecticut School of Law in 2024, highlighting his commitment to integrating medicine, business, and law for the betterment of healthcare.

💡 Impact and Influence: Shaping the Future of Neurosurgery

Dr. Bulsara’s influence extends far beyond the operating room. As a mentor, he has trained and guided numerous neurosurgeons, instilling in them the values of precision, innovation, and patient-centered care. His research and administrative contributions have shaped hospital policies and perioperative strategies, leading to improved surgical outcomes and enhanced healthcare delivery systems. His work in academic leadership continues to bridge the gap between medical practice, research, and education.

 

Publication

  • Spinal axon regeneration evoked by replacing two growth cone proteins in adult neurons – HM Bomze, KR Bulsara, BJ Iskandar, P Caroni, JH Pate Skene (2001)

 

  • Longitudinal molecular trajectories of diffuse glioma in adults – FP Barthel, KC Johnson, FS Varn, AD Moskalik, G Tanner, E Kocakavuk, et al. (2019)

 

  • Glioma progression is shaped by genetic evolution and microenvironment interactions – FS Varn, KC Johnson, J Martinek, JT Huse, MLP Nasrallah, P Wesseling, et al. (2022)

 

  • Accuracy of prediction instruments for diagnosing large vessel occlusion in individuals with suspected stroke: a systematic review for the 2018 guidelines for the early… – EE Smith, DM Kent, KR Bulsara, LY Leung, JH Lichtman, MJ Reeves, et al. (2018)

 

  • Perioperative complications in transforaminal lumbar interbody fusion versus anterior–posterior reconstruction for lumbar disc degeneration and instability – AT Villavicencio, S Burneikiene, KR Bulsara, JJ Thramann (2006)

 

  • Vessel wall magnetic resonance imaging identifies the site of rupture in patients with multiple intracranial aneurysms: proof of principle – CC Matouk, DM Mandell, M Günel, KR Bulsara, A Malhotra, R Hebert, et al. (2013)

 

  • Safety of transforaminal lumbar interbody fusion and intervertebral recombinant human bone morphogenetic protein—2 – AT Villavicencio, S Burneikiene, EL Nelson, KR Bulsara, M Favors, et al. (2005)

 

  • Laminectomy versus percutaneous electrode placement for spinal cord stimulation – AT Villavicencio, JC Leveque, L Rubin, K Bulsara, JP Gorecki (2000)

 

  • Indications for thrombectomy in acute ischemic stroke from emergent large vessel occlusion (ELVO): report of the SNIS Standards and Guidelines Committee – M Mokin, SA Ansari, RA McTaggart, KR Bulsara, M Goyal, M Chen, et al. (2019)

 

  • Review of the literature on de novo formation of cavernous malformations of the central nervous system after radiation therapy – SM Nimjee, CJ Powers, KR Bulsara (2006)

 

💪 Conclusion

A visionary in neurosurgery, Dr. Bulsara’s impact transcends surgical practice, reaching into medical education, research, and healthcare administration. His multidisciplinary approach—combining medicine, business, and law—positions him as a leader in shaping the future of healthcare. His commitment to innovation and excellence ensures that his contributions will continue to elevate neurosurgical standards and inspire future generations of medical professionals.

 

 

 

Daša Zupančič | Cellular Neuroscience | Best Researcher Award

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Assoc. Prof. Dr. Daša Zupančič | Cellular Neuroscience | Best Researcher Award

Assoc. Prof. Dr. Daša Zupančič, Faculty of Medicine, University of Ljubljana, Slovenia.

Daša Zupančič is a distinguished academic and researcher specializing in cell biology, urothelial pathology, and medical education. Her extensive contributions to scientific research, particularly in the field of urothelial repair and cancer transformation, have earned her recognition, including the EMBO award. She has played a crucial role in mentoring and teaching, guiding future generations of researchers and medical professionals.

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✨ Early Academic Pursuits ✨

Daša Zupančič embarked on her academic journey with an unwavering passion for cell biology and medicine. She earned her Master’s degree in 2002 from the University of Ljubljana, Faculty of Medicine, where she meticulously explored cellular and molecular biological changes in the rat bladder urothelium following cyclophosphamide exposure. This formative research laid the foundation for her Ph.D., which she successfully completed in 2006, investigating the protective role of melatonin in urothelial injury and repair. Her dedication to advancing biomedical knowledge was evident from the very beginning of her scholarly career.

🎓 Professional Endeavors 🎓

Since 2006, Daša Zupančič has been an esteemed Associate Professor at the University of Ljubljana, Faculty of Medicine, Institute of Cell Biology. Prior to this, she gained valuable experience as a Young Researcher and Teaching Assistant from 1999 to 2006. Her extensive expertise and commitment to education have made her an integral part of the institution, where she continuously fosters scientific curiosity and excellence among students and colleagues alike.

🎡 Contributions and Research Focus 🎡

Throughout her career, Daša Zupančič has dedicated her research to understanding cellular mechanisms in urothelial biology and pathology. Her investigations into cyclophosphamide-induced urothelial injury, melatonin’s protective effects, and retinoid signaling pathways in urothelial cancer transformation have provided valuable insights into cellular repair processes. Her work extends beyond laboratory research, influencing the medical community’s approach to urothelial diseases and potential therapeutic advancements.

🏆 Accolades and Recognition 🏆

Her exceptional contributions to biomedical research have been recognized on multiple platforms. In 2017, she was honored with the prestigious EMBO award for her short-term scholarship project on the role of the retinoid signaling pathway in urothelial cancer transformation. This recognition underscores her significant impact on the scientific community and highlights her pioneering approach to understanding cancer pathophysiology.

👨‍🎓 Impact and Influence 👨‍🎓

A dedicated mentor, Daša Zupančič has guided numerous students towards academic excellence. Between 2014 and 2025, she has successfully mentored four master’s students and is currently supervising two more. In addition, she has overseen the research endeavors of four Ph.D. candidates, with one having successfully defended their dissertation in 2023 and another expected to graduate in 2025. Her mentorship has shaped the next generation of biomedical researchers, fostering a culture of rigorous inquiry and scientific discovery.

📚 Legacy and Future Contributions 📚

Beyond her research, Daša Zupančič plays a pivotal role in academia through her extensive teaching engagements. Since 2000, she has been a cornerstone of education at the University of Ljubljana, contributing to multiple faculties, including Medicine, Biotechnical Sciences, Health Sciences, and Pharmacy. She teaches a range of graduate and doctoral courses, covering essential subjects such as Medical Cell Biology, Immunology, and Research in Medicine. Her dedication to education ensures that her knowledge and expertise continue to shape the minds of aspiring medical professionals and researchers for years to come.

Publication

  • Vitamin A‐Enriched Diet Increases Urothelial Cell Proliferation by Upregulating Itga3 and Areg After Cyclophosphamide‐Induced Injury in Mice
    Authors: Brina Dragar, Simona Kranjc Brezar, Maja Čemažar, Tanja Jesenko, Rok Romih, Mateja Erdani Kreft, Tadeja Kuret, Daša Zupančič
    Year: 2025

 

  • Selective Targeting of Lectins and Their Macropinocytosis in Urothelial Tumours: Translation from in vitro to ex vivo
    Authors: Nataša Resnik, Tanja Višnjar, Tomaž Smrkolj, Mateja Erdani Kreft, Rok Romih, Daša Zupančič
    Year: 2023

 

  • Nanodiamonds as Possible Tools for Improved Management of Bladder Cancer and Bacterial Cystitis
    Authors: Daša Zupančič, Peter Veranič
    Year: 2022

 

  • Transmission Electron Microscopy Demonstration of Reduced Endothelial Glycocalyx in Severe Preeclampsia
    Authors: Mugerli S, Zupančič D, Rok Romih, Lučovnik M
    Year: 2022

 

  • Vitamin A and Retinoids in Bladder Cancer Chemoprevention and Treatment: A Narrative Review of Current Evidence, Challenges and Future Prospects
    Authors: Larisa Tratnjek, Jera Jeruc, Rok Romih, Daša Zupančič
    Year: 2021

 

  • Immunohistochemistry as a Paramount Tool in Research of Normal Urothelium, Bladder Cancer and Bladder Pain Syndrome
    Authors: Daša Zupančič, Rok Romih
    Year: 2021

 

  • Combined Lectin- and Immuno-Histochemistry (CLIH) for Applications in Cell Biology and Cancer Diagnosis: Analysis of Human Urothelial Carcinomas
    Authors: Daša Zupančič
    Year: 2020

 

  • Vitamin A Rich Diet Diminishes Early Urothelial Carcinogenesis by Altering Retinoic Acid Signaling
    Authors: Daša Zupančič, Jelena Korać-Prlić, Mateja Erdani Kreft, Lucija Franković, Katarina Vilović, Jera Jeruc, Rok Romih, Janoš Terzić
    Year: 2020

 

  • Lectins as Possible Tools for Improved Urinary Bladder Cancer Management
    Authors: Daša Zupančič
    Year: 2019

 

  • Co-Culturing Porcine Normal Urothelial Cells, Urinary Bladder Fibroblasts and Smooth Muscle Cells for Tissue Engineering Research
    Authors: Daša Zupančič
    Year: 2018

 

🌟 Conclusion 🌟

With a career dedicated to pioneering research, impactful mentorship, and transformative education, Daša Zupančič continues to leave a lasting legacy in the scientific and academic communities. Her work not only enhances understanding of urothelial biology but also inspires innovation and discovery among young scientists. As she continues her academic and research endeavors, her influence on the field will undoubtedly grow, shaping the future of biomedical sciences.