Ricardo Osorio | Clinical Neuroscience | Best Researcher Award

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Dr. Ricardo Osorio | Clinical Neuroscience | Best Researcher Award

Dr. Ricardo S. Osorio is a tenured Associate Professor of Psychiatry and Radiology at NYU Grossman School of Medicine, where he directs the Healthy Brain Aging and Sleep Center and serves as Director of the Biomarker Core within the NYU Alzheimer’s Disease Research Center. A physician-scientist, Dr. Osorio investigates the interplay of sleep, vascular, and inflammatory mechanisms in Alzheimer’s disease, integrating multimodal biomarkers, neuroimaging, and detailed clinical phenotyping. He has led several landmark studies, including trials on sleep apnea, amyloid and tau accumulation, brain energetics, and locus coeruleus dysfunction, exploring how sleep and metabolic factors influence cognitive decline and neurodegeneration. His work has significantly advanced translational biomarker development, assay harmonization, and inclusive recruitment in aging research. Dr. Osorio has published over 130 peer-reviewed articles in top journals such as JAMA Neurology, Annals of Neurology, Sleep, Alzheimer’s & Dementia, Lancet, and Brain, contributing to more than 8,369 citing documents, with a total citation count of 9,893 and an h-index of 44. He serves on multiple editorial boards, including Sleep Medicine Reports, and has provided expert peer review for leading journals worldwide. His collaborative network spans the NYU Alzheimer’s Disease Research Center, Mount Sinai, the ENIGMA-Sleep Consortium, and numerous national and international aging and sleep research initiatives, mentoring the next generation of clinician-scientists while shaping the field of sleep and neurodegeneration.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

  1. Author(s). (Year). Disordered sleep and painful diabetic neuropathy (PDN): A review of the literature on pathophysiology, pharmacologic and nonpharmacologic treatment options, and future directions. Journal Name, Volume(Issue), pages.

  2. Author(s). (2025). EEG slow oscillations and overnight spatial navigational memory performance in CPAP-treated obstructive sleep apnea. Sleep, Volume(Issue), pages.

  3. Author(s). (2025). High-frequency oscillations >250 Hz in people with Down syndrome and associated Alzheimer’s disease dementia. Alzheimer’s & Dementia, Volume(Issue), pages.

  4. Author(s). (2025). Impact of Alzheimer’s disease on sleep in adults with Down syndrome. Alzheimer’s & Dementia, Volume(Issue), pages.

  5. Author(s). (2025). Sleep-wake variation in body temperature regulates tau secretion and correlates with CSF and plasma tau. Journal of Clinical Investigation, Volume(Issue), pages.

  6. Author(s). (2025). The stability of slow-wave sleep and EEG oscillations across two consecutive nights of laboratory polysomnography in cognitively normal older adults. Journal of Sleep Research, Volume(Issue), pages.

  7. Author(s). (2025). Two-year longitudinal outcomes of subjective cognitive decline in Hispanics compared to non-Hispanic Whites. Journal of Geriatric Psychiatry and Neurology, Volume(Issue), pages.

  8. Author(s). (Year). Enhancing sleep, wakefulness, and cognition with transcranial photobiomodulation: A systematic review. Journal Name, Volume(Issue), pages.

  9. Author(s). (2024). The relationship between anxiety and levels of Alzheimer’s disease plasma biomarkers. Journal of Alzheimer’s Disease, Volume(Issue), pages.

  10. Author(s). (2024). The neutrophil to lymphocyte ratio associates with markers of Alzheimer’s disease pathology in cognitively unimpaired elderly people. Immunity and Ageing, Volume(Issue), pages.

Karen Kikuta | Developmental Neuroscience | Best Researcher Award

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Ms. Karen Kikuta | Developmental Neuroscience | Best Researcher Award

Ms. Karen Kikuta | UCLA David Geffen School of Medicine | United States

Ms. Karen Kikuta is an accomplished MD Candidate at the UCLA David Geffen School of Medicine with expertise in neuroscience, immunology, and global health research. She earned her B.S. in Neuroscience with minors in Public Health and Biology from Santa Clara University and conducted advanced immunological studies at Stanford University’s Binns Program for Cord Blood Research, investigating immune cell subsets using flow cytometry and single-cell RNA sequencing. Her work has resulted in publications in high-impact journals, including Frontiers in Immunology and the International Journal of Infectious Diseases. Karen has contributed to seven major research projects spanning neurodevelopment, infectious disease, and translational medicine, notably pioneering studies on antenatal Zika virus exposure and its long-term neurobehavioral and cardiac outcomes in children. Her research portfolio includes 2 published documents, 45 citations, and an h-index of 2. She has presented findings at national and international conferences, reflecting her dedication to bridging laboratory discoveries with clinical application. As a member of the American Academy of Neurology and the American Neurological Association, Karen is committed to integrating scientific innovation with compassionate care to advance understanding and treatment of neuroinfectious and developmental disorders.

Profiles: Scopus | Orcid | Research Gate | Linked In

Featured publication

Kikuta, K., Hernandez, C. J., Dunshee de Abranches, A., Damasceno, L., de Britto, J. A., Jardim Duarte, C., Vasconcelos, Z., Zin, A., Brasil, P., Moreira, M. E., & Nielsen-Saines, K. (2025). Academic and social-behavioral assessment in a prospective cohort of normocephalic school-aged children with antenatal Zika virus exposure. International Journal of Infectious Diseases, 159, Article 108026.

Jaleel Miyan | Clinical Neuroscience | Best Researcher Award

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Dr. Jaleel Miyan | Clinical Neuroscience | Best Researcher Award

Dr. Jaleel Miyan | The University of Manchester | United Kingdom

Dr. Jaleel Ahmad Miyan is a distinguished British neuroscientist and Senior Lecturer at the Faculty of Biology, Medicine & Health, Division of Neuroscience, University of Manchester, with a long-standing career dedicated to understanding cerebrospinal fluid (CSF) physiology and its role in neurological disorders. As President of the Society for Research into Hydrocephalus & Spina Bifida and a Fellow of both the Higher Education Academy and the Royal Society of Biology, he is recognized internationally for his expertise in cerebral folate metabolism and hydrocephalus research. His principal work focuses on fetal-onset and neonatal hydrocephalus, aiming to develop a non-invasive, non-surgical treatment to address global disparities in care. Miyan has supervised numerous PhD and Masters students, postdoctoral researchers, and technicians, fostering research excellence. He has published over 120 peer-reviewed research papers and reviews, with an h-index of 34, and his work has garnered substantial citations, reflecting his impact in neuroscience. He has served on editorial boards, contributed to major research projects, and secured significant funding for studies on folate metabolism in neurological conditions. Miyan’s scholarship is accessible through his ResearchGate, Orcid, and Google Scholar profiles, showcasing his profound contributions to advancing neuroscience and improving treatments for devastating neurological conditions.

Profiles : Google ScholarOrcid | Research Gate

Featured Publications

Downing, J. E. G., & Miyan, J. A. (2000). Neural immunoregulation: Emerging roles for nerves in immune homeostasis and disease. Immunology Today, 21(6), 281–289.

Assas, B. M., Pennock, J. I., & Miyan, J. A. (2014). Calcitonin gene-related peptide is a key neurotransmitter in the neuro-immune axis. Frontiers in Neuroscience, 8, 23.

Miyan, J. A., Nabiyouni, M., & Zendah, M. (2003). Development of the brain: A vital role for cerebrospinal fluid. Canadian Journal of Physiology and Pharmacology, 81(4), 317–328.

Gazi, E., Dwyer, J., Lockyer, N. P., Miyan, J., Gardner, P., Hart, C., & Brown, M., et al. (2005). Fixation protocols for subcellular imaging by synchrotron‐based Fourier transform infrared microspectroscopy. Biopolymers: Original Research on Biomolecules, 77(1), 18–30.

Mashayekhi, F., Draper, C. E., Bannister, C. M., Pourghasem, M., & Miyan, J. A., et al. (2002). Deficient cortical development in the hydrocephalic Texas (H‐Tx) rat: A role for CSF. Brain, 125(8), 1859–1874.

Owen‐Lynch, P. J., Draper, C. E., Mashayekhi, F., Bannister, C. M., & Miyan, J. A. (2003). Defective cell cycle control underlies abnormal cortical development in the hydrocephalic Texas rat. Brain, 126(3), 623–631.

Meng Wang | Neuroanatomy | Best Researcher Award

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Mr. Meng Wang | Neuroanatomy | Best Researcher Award

Mr. Meng Wang | Chongqing Medical University | China

Meng Wang is an Associate Professor at Chongqing Medical University, where he leads an innovative research program focused on unraveling the neural encoding mechanisms underlying sensory memory traces. His work employs multiscale approaches that integrate neural networks, cellular ensembles, and synaptic plasticity to advance the systematic mapping of cortical memory processes through microscale functional connectivity maps. Dr. Wang has made landmark contributions to neuroscience, including the identification of Holistic Bursting (HB) cells as putative auditory memory engram neurons characterized by superlinear integration properties, providing novel insights into how sensory memories are encoded and maintained in the brain. His research program bridges cellular neurobiology with systems neuroscience, offering a comprehensive framework for understanding memory formation at multiple organizational levels. A committed scholar, Dr. Wang has authored 15 scientific documents that have collectively received 156 citations from 149 publications, reflecting the impact and visibility of his work within the global scientific community. His h-index of 7 demonstrates a growing influence in the field, underscoring both the relevance and originality of his research. Through his pioneering efforts, Dr. Wang continues to contribute significantly to advancing the understanding of cortical mechanisms that shape memory processing and sensory cognition.

Profiles: Scopus | Research Gate

Featured Publications

Author(s). (2025). 6-Gingerol, an active compound of ginger, attenuates NASH-HCC progression by reprogramming tumor-associated macrophage via the NOX2/Src/MAPK signaling pathway. BMC Complementary Medicine and Therapies.

Gang Cao | Behavioral Neuroscience | Best Researcher Award

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Mr. Gang Cao | Behavioral Neuroscience | Best Researcher Award

Anhui University of Finance and Economics | China

Gang Cao (Ph.D.) is a Lecturer at the International Business School, Anhui University of Finance and Economics, with academic training in Business Administration and Management Science and Engineering from Shanghai University and Anhui University of Finance and Economics. His research focuses on AI capabilities, entrepreneurship, and innovation, and he has published in leading international journals such as the Journal of Business Research, Management and Organization Review, R&D Management, Plos One, and the International Journal of Conflict Management, as well as in top Chinese journals including Journal of Management Sciences in China and Journal of Economic Management. He has authored and co-authored multiple high-impact studies addressing themes such as entrepreneurial well-being, entrepreneurial failure and reentry, bricolage and disruptive innovation, digital identity change, impression management, and the integration of artificial intelligence with entrepreneurship and business model innovation. His work combines quantitative, qualitative, and computational methodologies, offering both theoretical contributions and practical insights into entrepreneurial behavior and firm evolution. Gang Cao has achieved an h-index of 5, with 11 documents and 102 citations, reflecting his growing academic impact and recognition in the fields of entrepreneurship, innovation management, and digital transformation. Through his interdisciplinary and collaborative research, he continues to advance understanding of the complex dynamics driving entrepreneurial success and organizational performance.

Profiles: Google Scholar

Featured Publications

“Exploring the relationship between entrepreneurial failure and conflict between work and family from the conservation of resources perspective.”

“Entrepreneurial Bricolage and Disruptive Innovation: The Joint Effect of Learning From Failure and Institutional voids.”

“Striking the balance: Configurations of causation and effectuation principles for SME performance.”

Wilfred Angie Abia | Developmental Neuroscience | Best Researcher Award

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Dr. Wilfred Angie Abia | Developmental Neuroscience | Best Researcher Award

Dr. Wilfred Angie Abia |  University of Yaounde 1 | Cameroon

Wilfred Angie Abia is an accomplished biochemist and food safety toxicologist whose career bridges Africa and Europe through impactful teaching, research, and international collaborations. His academic foundation in medical biochemistry, nutrition, and toxicology has evolved into a distinguished career specializing in food contaminants, mycotoxin biomonitoring, fraud detection, and risk assessment. He has held influential postdoctoral and leadership positions in projects addressing agri-food safety and consumer health protection. His contributions span mycotoxicology, food fraud prevention, One Health research, and climate-related food safety challenges. Beyond research, he plays an important role as a senior lecturer and mentor, advancing both academic excellence and professional training in food safety.

Profile

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Orcid
Scopus

Early Academic Pursuits

Wilfred Angie Abia began his academic journey with a strong foundation in biochemistry, focusing on medical laboratory technology, nutritional sciences, and food safety. His doctoral studies at the University of Yaoundé I provided him with advanced expertise in food contaminants, safety, and biomonitoring of multimycotoxin exposures. His early academic years were marked by interdisciplinary training that connected biochemistry, nutrition, toxicology, and public health, setting the stage for his specialized career in agri-food safety and toxicology.

Professional Endeavors

His professional career spans teaching, research, and project management across multiple institutions and international collaborations. He has held postdoctoral fellowships and senior research positions in Africa, Europe, and the United Kingdom, where he advanced projects on food safety, toxicology, and fraud detection. His work at Queen’s University Belfast included leadership roles in large-scale European initiatives, where he served as both a researcher and project manager. As a Senior Lecturer of Biochemistry and Food Safety/Toxicology at the University of Yaoundé I, he combines teaching, mentorship, and research with program coordination responsibilities, shaping the next generation of food safety professionals.

Contributions and Research Focus

Abia’s research focuses on food contaminants, safety, and human health with a special emphasis on mycotoxicology. He has pioneered studies in exposure assessment, biomarker development, and human biomonitoring, particularly in vulnerable populations. His work extends to food integrity, authenticity, fraud detection, and traceability, ensuring consumer health protection. He has contributed significantly to toxicological risk assessments of chemicals in food, drugs, and the environment, while also addressing broader themes such as climate change, food security, and the One Health approach. His unique contributions include research into the neurotoxicology of mycotoxins, highlighting the intersection of food safety and neuroscience.

Accolades and Recognition

Throughout his career, Abia has been recognized through prestigious international research fellowships and visiting scholar positions in leading research centers across Europe and Africa. His involvement in high-impact projects such as MycoMarker and FoodSafer underscores his leadership in global food safety initiatives. His achievements are further strengthened by professional certifications, including specialized training in food fraud prevention, which demonstrate his commitment to continuous professional growth and excellence in his field.

Impact and Influence

His work has had a profound impact on advancing food safety research, shaping policies, and protecting public health. By bridging biochemistry with toxicology, agri-food safety, and environmental sciences, he has influenced how food contaminants and fraud are detected and managed. His role as a lecturer and mentor ensures that his expertise is transmitted to students and young researchers who will continue to advance the field. His contributions also extend to policy and science diplomacy, where he actively promotes interdisciplinary collaboration for sustainable solutions in food and health security.

Legacy and Future Contributions

Abia’s legacy lies in his dedication to safeguarding food systems, advancing toxicological research, and promoting interdisciplinary approaches that connect human, animal, and environmental health. His work in mycotoxin biomonitoring and neurotoxicology offers critical insights into the hidden health risks of food contamination. Looking ahead, his future contributions are likely to expand in areas of food fraud prevention, climate-smart agriculture, and One Health frameworks, ensuring resilient food systems for global populations. His combination of research excellence, teaching, and science diplomacy positions him as a thought leader in shaping the future of food safety and toxicology.

Publications

  • Title: Determination of multi-mycotoxin occurrence in cereals, nuts and their products in Cameroon by liquid chromatography tandem mass spectrometry (LC-MS/MS)
    Authors: WA Abia, B Warth, M Sulyok, R Krska, AN Tchana, PB Njobeh, MF Dutton, …
    Year: 2013

  • Title: Mycotoxin exposure in rural residents in northern Nigeria: A pilot study using multi-urinary biomarkers
    Authors: CN Ezekiel, B Warth, IM Ogara, WA Abia, VC Ezekiel, J Atehnkeng, …
    Year: 2014

  • Title: Development and validation of a rapid multi‐biomarker liquid chromatography/tandem mass spectrometry method to assess human exposure to mycotoxins
    Authors: B Warth, M Sulyok, P Fruhmann, H Mikula, F Berthiller, R Schuhmacher, …
    Year: 2012

  • Title: Bio-monitoring of mycotoxin exposure in Cameroon using a urinary multi-biomarker approach
    Authors: WA Abia, B Warth, M Sulyok, R Krska, A Tchana, PB Njobeh, PC Turner, …
    Year: 2013

  • Title: Ultra-sensitive, stable isotope assisted quantification of multiple urinary mycotoxin exposure biomarkers
    Authors: B Šarkanj, CN Ezekiel, PC Turner, WA Abia, M Rychlik, R Krska, M Sulyok, …
    Year: 2018

  • Title: Low doses of mycotoxin mixtures below EU regulatory limits can negatively affect the performance of broiler chickens: A longitudinal study
    Authors: O Kolawole, A Graham, C Donaldson, B Owens, WA Abia, J Meneely, …
    Year: 2020

  • Title: Urinary analysis reveals high deoxynivalenol exposure in pregnant women from Croatia
    Authors: B Šarkanj, B Warth, S Uhlig, WA Abia, M Sulyok, T Klapec, R Krska, …
    Year: 2013

Conclusion

Wilfred Angie Abia’s work exemplifies a rare integration of scientific expertise, international leadership, and educational impact. His contributions to food safety, toxicology, and agri-food research not only safeguard public health but also strengthen global food systems. With his continued focus on innovation, interdisciplinary approaches, and capacity building, he stands as a key figure in shaping the future of food safety science and policy worldwide.

Rania Awadi | Developmental Neuroscience | Best Researcher Award

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Dr. Rania Awadi | Developmental Neuroscience | Best Researcher Award

Dr. Rania Awadi |  Higher Institute of Medical Technologies of Tunis | Tunisia

Dr. Rania Awadi is a biophysics and medical imaging researcher whose work centers on cardiac biomechanics and non-invasive diagnostic techniques. With a PhD in biophysics and medical imaging, she has conducted advanced studies on left ventricle biomechanics using finite element modelling and gained international experience through research internships in France and collaborations with leading medical institutions in Tunisia. Her research expertise lies in cardiovascular MRI, image processing, and myocardial strain assessment, particularly in pediatric populations where diagnostic challenges are more pronounced. Among her significant contributions is a study on Duchenne Muscular Dystrophy, where she applied cardiac MRI feature tracking to identify early subclinical myocardial dysfunction without contrast agents, an advancement with meaningful clinical impact.

Profile

Google Scholar

Early Academic Pursuits

From the outset of her academic journey, Dr. Rania Awadi cultivated a strong foundation in biophysics, medical physics, and medical imaging. Her doctoral studies at the Higher Institute of Medical Technologies of Tunis were marked by a deep focus on the biomechanics of the left ventricle, where she applied finite element modelling to explore complex cardiac dynamics. Early research internships at prestigious institutions such as IMT Atlantique in France and Sorbonne University enriched her academic profile, enabling her to refine her expertise in advanced imaging and computational modelling techniques.

Professional Endeavors

Building upon her academic training, Dr. Awadi advanced into professional roles that merged teaching and research. She joined the Higher Institute of Medical Technologies of Tunis as a lecturer in biomechanics, where she has contributed to shaping future professionals in medical physics and imaging. Her work also extended to clinical collaborations, including her involvement with the Principal Military Hospital of Tunis and Monji Ben Hmida Center, emphasizing translational research that bridges scientific innovation with patient care.

Contributions and Research Focus

Dr. Awadi’s contributions to medical science are anchored in cardiovascular imaging and cardiac biomechanics. Her expertise lies in cardiac magnetic resonance imaging, image processing, and computational modelling, with a particular focus on assessing myocardial strain. She has addressed the unique challenges of pediatric populations, where smaller heart sizes, higher heart rates, and variability in strain demand precise methodologies. Her research has sought to make early diagnosis more accessible and reliable, especially in vulnerable groups affected by genetic and muscular disorders.

Pioneering Research on Duchenne Muscular Dystrophy

Among her notable achievements, Dr. Awadi conducted a pioneering study on myocardial strain assessment for early diagnosis of Duchenne Muscular Dystrophy in pediatric patients using cardiac MRI. Through the application of feature tracking techniques, she demonstrated the feasibility of detecting subclinical myocardial dysfunction without the use of contrast agents, reducing risks in younger patients. Her findings, published in Applied Sciences, underscored significant associations between myocardial strain parameters and structural cardiac changes, providing a non-invasive tool for monitoring disease progression in affected children.

Accolades and Recognition

Dr. Awadi’s scholarly contributions have been recognized in the international research community through publication in high-impact journals. Her work in Applied Sciences has strengthened her standing as an emerging researcher in cardiac imaging and biomechanics. Her collaborations with European and Tunisian research institutions reflect her growing reputation as a scientist capable of fostering cross-border innovation in medical imaging and biomechanics.

Impact and Influence

The impact of Dr. Awadi’s research extends beyond academic recognition to meaningful influence on clinical practices. By offering new insights into myocardial strain assessment, she has contributed to refining diagnostic approaches for conditions like Duchenne Muscular Dystrophy, where early intervention can significantly alter outcomes. Her teaching and mentorship also shape a new generation of researchers and clinicians, further amplifying the reach of her work across academia and healthcare.

Legacy and Future Contributions

Looking ahead, Dr. Awadi’s career continues to chart a path of scientific advancement and clinical relevance. With expertise spanning biomechanics, MRI, and computational modelling, she is poised to deepen investigations into cardiac function across diverse patient populations. Her future contributions are expected to expand the frontiers of non-invasive diagnostics, ensuring that her legacy in cardiovascular biomechanics and imaging is defined by both innovation and tangible impact on patient health.

Publications

Numerical study of two microwave antennas dedicated to superficial cancer hyperthermia
N. Benameur, R. Awadi, A. Bouabidi, M.A. Mohammed, M.U. Rehman, … – 2024

A quasi-static biomechanical model of the human myocardium based on Cardiac Magnetic Resonance images
R. Awadi, N. Benameur, T. Kraiem, L. Salam – 2023

Comparison of Left Ventricle Deformation Analysis Using Abaqus and CVi42 Software: Insights from Healthy Subjects and patients with Myocardial Infarction
R. Awadi, N. Benameur, A. Sleimi, L. Salam – 2025

Myocardial Strain Assessment for Early Duchenne Muscular Dystrophy Diagnosis in Pediatric Patients Using Cardiac MRI
R. Awadi, N. Benameur, H. Hafsi, T.B. Younes, Y. Arous, S. Labidi, … – 2024

Left Ventricle Wall Motion Abnormalities Detection in Cardiac MRI
N. Benameur, R. Awadi, R. Mahmoudi, M. Deriche, M. Al Betar – 2023

Finite Element of Biomechanical Model of the Human Myocardium from a Cardiac MRI Images
A. Rania, N. Benameur, T. Kraiem, S. Labidi – 2022

of the Human Myocardium from a Cardiac MRI Images
A. Rania, N. Benameur, T. Kraiem, S. Labidi – 2022

Conclusion

Dr. Awadi’s career reflects a blend of academic rigor, professional dedication, and innovative research that addresses pressing clinical needs in pediatric cardiology. Her work has advanced the understanding of myocardial strain assessment, offering tools that improve early diagnosis and patient care. Through her teaching, collaborations, and published research, she has established herself as a promising figure in cardiac imaging and biomechanics. Looking forward, her contributions are set to further bridge the gap between research and clinical application, reinforcing her role as a driving force in the development of non-invasive diagnostic technologies.

Anna Aragno | Evolutionary Neuroscience | Best Researcher Award

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Dr. Anna Aragno | Evolutionary Neuroscience | Best Researcher Award

Dr. Anna Aragno | National Association for the Advancement of Psychoanalysis | Italy

Anna Aragno’s intellectual and professional journey reflects a remarkable blend of artistry and psychoanalytic scholarship. Beginning with a solid foundation in literature and the arts, she rose to prominence as a classical prima ballerina and educator before transitioning into psychology. Her academic path led her to advanced studies in psychoanalytic psychology, where she trained under leading scholars and completed significant clinical work. Her research has centered on the role of language, symbolization, and psychic transformation in psychoanalysis, offering innovative perspectives that bridge traditional theory with modern insights. In clinical practice, she has distinguished herself by working closely with creative and performing artists, providing a unique integration of artistic sensitivity and psychoanalytic depth. Her appointment as a Distinguished Scholar-in-Residence underscores the recognition of her contributions to psychoanalysis and her lasting influence on the field.

Profile

Scopus

Early Academic Pursuits

Anna Aragno began her education in Europe, where she studied in England and later at La Sorbonne in Paris, focusing on literature and the arts. Her formative years were marked by a deep engagement with culture, language, and creativity, which would later inform her psychoanalytic work. Her exposure to diverse academic traditions laid a foundation for her interdisciplinary approach, blending the humanities with psychology and psychoanalysis.

Professional Endeavors in the Arts

Before fully dedicating herself to psychoanalysis, she pursued a distinguished international career as a classical prima ballerina. As both a performer and teacher, she embodied artistic excellence and intellectual curiosity. She also lectured on ballet and movement, demonstrating her ability to integrate performance with pedagogy. This early immersion in the world of creativity and expression became a cornerstone of her later clinical focus on the psychology of artists and performers.

Transition to Psychoanalytic Studies

After her artistic career, she resumed academic study in psychology, earning degrees in human development and psychoanalytic psychology. Her graduate work included training with renowned scholars in metapsychology, behavioral biology, and narrative studies. She completed clinical internships in psychiatric hospitals, gaining direct experience in the complexities of mental health care. Her doctoral thesis proposed a new paradigm for symbolization, offering fresh insights into the psychoanalytic model of psychic transformation.

Contributions to Psychoanalysis and Research Focus

Her scholarship centers on the intersections of language, symbolism, and psychoanalysis. With a particular focus on processes of psychic transformation, she has sought to expand classical psychoanalytic theory through innovative models of symbolization. Her research reflects an interdisciplinary spirit, drawing on philosophy, linguistics, and clinical practice. She has also contributed significantly to the supervision of psychoanalytic practice, shaping future generations of clinicians through rigorous training and mentorship.

Clinical Practice and Specialization

For decades, she has maintained a private practice in New York City, specializing in the treatment of creative and performing artists. Her dual background in the arts and psychology uniquely equips her to address the psychological needs of individuals engaged in creative professions. Her clinical work embodies a fusion of sensitivity to artistic expression with the depth of psychoanalytic inquiry, establishing her as a specialist in the psychology of creativity.

Accolades and Recognition

Her contributions have been recognized through appointments and honors, most notably her designation as a Distinguished Scholar-in-Residence at the Washington Square Institute in New York City. This role reflects both her scholarly impact and her enduring commitment to advancing psychoanalytic thought. Her achievements illustrate a career that bridges artistic mastery and intellectual innovation.

Impact, Influence, and Legacy

Anna Aragno’s life work represents a rare synthesis of art and psychoanalysis. By uniting performance, pedagogy, and clinical scholarship, she has expanded the boundaries of psychoanalytic understanding. Her influence is felt through her clinical practice, her research on symbolization, and her teaching within psychoanalytic institutions. Her legacy lies in the depth of her theoretical contributions and the lives she has touched through clinical and academic engagement. As her career continues, her work promises to shape future dialogues on creativity, psychic transformation, and the evolving role of psychoanalysis in understanding human experience.

Publication

  • Title: Codes across (life)sciences

  • Authors: Robert Prinz; Philipp Bucher; Ádám Kun; Omar Paredes; Anna Aragno; Candice Shelby; Markus Gumbel; Elena Fimmel; Lutz Strüngmann

  • Year: 2025

Conclusion

Anna Aragno’s career demonstrates how the convergence of artistic excellence and rigorous scholarship can produce enduring contributions to human understanding. By linking creativity with psychoanalysis, she has enriched both fields, offering fresh perspectives on symbolization, psychic transformation, and the inner lives of artists. Her influence extends through her clinical work, her theoretical contributions, and her role as a mentor and scholar. Her legacy stands as a testament to the power of interdisciplinary inquiry and ensures that her ideas will continue to shape future explorations of the human psyche.

Soheila Hosseinzadeh | Cognitive Neuroscience | Best Researcher Award

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Assoc. Prof. Dr. Soheila Hosseinzadeh | Cognitive Neuroscience | Best Researcher Award

Assist. Prof. Dr. Soheila Hosseinzadeh, Tehran University of Medical Sciences, Iran.

Dr. Soheila Hosseinzadeh is a distinguished Assistant Professor of Neuroscience at the Tehran University of Medical Sciences, with a rich academic background that spans nursing, physiology, and neuroscience. Over the years, she has made substantial contributions to neuroscience education and research, particularly in the fields of cognitive neurophysiology and addiction studies. Her expertise includes a wide range of advanced techniques such as event-related potential analysis, EEG-based neurofeedback, behavioral studies, and molecular tools like RT-PCR and ELISA. She has played a pivotal role in training students and developing neuroscience programs at multiple academic institutions, demonstrating a balanced commitment to both teaching and scientific innovation.

Academic Profile

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Early Academic Pursuits

Dr. Soheila Hosseinzadeh’s academic foundation is deeply rooted in an interdisciplinary understanding of human physiology and neurological sciences. Her early career began with a Bachelor of Science in Nursing in 2000, which was soon followed by a Master’s degree in Physiology in 2003. Demonstrating a keen interest in the mechanisms underlying brain function and behavior, she further advanced her expertise by earning a Ph.D. in Neuroscience in 2013. These academic milestones laid a solid groundwork for her future in teaching and cutting-edge neurophysiological research.

Professional Endeavors in Neuroscience

After completing her Ph.D., Dr. Hosseinzadeh embarked on an academic and research-oriented career that has spanned over a decade. From 2014 to April 2022, she served as a neurophysiology course instructor at Babol University of Medical Sciences, nurturing future scientists with her in-depth understanding of brain physiology. Since April 2022, she has continued her academic contributions at the Tehran University of Medical Sciences, where she teaches courses in Neuroscience and Addiction Studies. Her dual role as educator and researcher places her at the forefront of neuroscience education in Iran.

Contributions and Research Focus

Dr. Hosseinzadeh’s research is focused on the interface of cognitive neuroscience and addiction studies. Her technical proficiency includes advanced neurophysiological techniques such as event-related potential (ERP) recording and analysis, quantitative EEG (QEEG)-based neurofeedback, and behavioral assessments in animal models. She is also experienced in molecular biology tools including real-time RT-PCR and ELISA, alongside rodent stereotaxic surgeries and flow cytometry. Her work often explores neural mechanisms underlying cognitive functions, brain plasticity, and responses to addictive substances—bridging lab findings with clinical relevance.

Accolades and Recognition

Throughout her academic journey, Dr. Hosseinzadeh has earned recognition for her expertise in neurophysiological and behavioral science. Her dual roles at prestigious institutions such as Tehran University of Medical Sciences reflect her trusted authority in the field. While her accolades are more rooted in impact and mentorship than in public awards, her consistent engagement in neuroscience education and translational research is a clear indicator of peer acknowledgment and professional respect.

Impact and Influence

Dr. Hosseinzadeh’s influence extends beyond academic teaching. By integrating theoretical neuroscience with hands-on technical applications like neurofeedback and EEG-based cognitive training, she fosters a research culture that promotes both clinical innovation and scientific discovery. Her guidance has shaped students and young researchers in multiple universities, many of whom continue to advance the fields of neurophysiology and cognitive rehabilitation across the country.

Legacy in Neurotechnology and Cognitive Health

Her pioneering efforts in cognitive task design and ERP analysis have significantly contributed to Iran’s growing reputation in brain research. As one of the few experts integrating neurofeedback with behavioral science and electrophysiology, Dr. Hosseinzadeh has helped establish a platform for neurotechnological interventions in addiction and mental health studies. Her legacy lies in creating an interdisciplinary approach that merges neuroscientific inquiry with practical healthcare applications.

Future Contributions and Vision

Looking ahead, Dr. Soheila Hosseinzadeh is poised to make even greater strides in neuroscience, particularly in the domains of addiction neurobiology, cognitive rehabilitation, and neurofeedback therapy. With continuous advancements in brain-monitoring tools and behavioral modeling, she aims to lead research projects that offer deeper insights into brain-behavior relationships and provide innovative treatments for neuropsychiatric disorders. Her vision includes developing collaborative research networks that connect Iranian neuroscience to global scientific conversations.

Publication

Piperine restores streptozotocin-induced cognitive impairments: Insights into oxidative balance in cerebrospinal fluid and hippocampus
M Khalili-Fomeshi, MG Azizi, MR Esmaeili, M Gol, S Kazemi, …
2018

Plasma microparticles in Alzheimer’s disease: The role of vascular dysfunction
S Hosseinzadeh, M Noroozian, E Mortaz, K Mousavizadeh
2018

Elevated CSF and plasma microparticles in a rat model of streptozotocin-induced cognitive impairment
S Hosseinzadeh, M Zahmatkesh, MR Zarrindast, GR Hassanzadeh, …
2013

Effect of methamphetamine exposure on the plasma levels of endothelial-derived microparticles
A Nazari, M Zahmatkesh, E Mortaz, S Hosseinzadeh
2018

Hippocampal DHCR24 down regulation in a rat model of streptozotocin-induced cognitive decline
S Hosseinzadeh, M Zahmatkesh, M Heidari, GR Hassanzadeh, …
2015

Increment of CSF fractalkine-positive microvesicles preceded the spatial memory impairment in amyloid beta neurotoxicity
L Karimi-Zandi, M Zahmatkesh, G Hassanzadeh, S Hosseinzadeh
2022

Arbutin intervention ameliorates memory impairment in a rat model of lysolecethin induced demyelination: Neuroprotective and anti-inflammatory effects
S Ashrafpour, MJ Nasr-Taherabadi, A Sabouri-Rad, S Hosseinzadeh, …
2024

Conclusion

Dr. Hosseinzadeh’s career reflects an exemplary blend of academic excellence, technical expertise, and visionary research in neuroscience. Her efforts have significantly advanced the understanding of brain function, particularly in the context of addiction and cognitive health. As a leader in her field, she continues to inspire the next generation of neuroscientists while actively contributing to translational research that bridges laboratory findings with clinical solutions. With her ongoing work and future vision, Dr. Hosseinzadeh stands out as a key figure in shaping the future of neuroscience in Iran and beyond.

Kumud Bala | Molecular and Cellular Neuroscience | Excellence in Research Award

Published on by Neuroscientists

Prof. Kumud Bala | Molecular and Cellular Neuroscience | Excellence in Research Award

Prof. Kumud Bala, Amity University, India.

Prof. Kumud Bala is a seasoned academic and researcher in the fields of biotechnology and immunology, with a rich educational background that includes a Ph.D. from Patna University in collaboration with AIIMS. She has over 25 years of teaching and research experience, primarily at Amity University, Noida, where she currently holds the position of Professor at the Amity Institute of Biotechnology. Her professional journey has been marked by consistent progression, interdisciplinary teaching, and impactful research. She has contributed significantly to biotechnology education through curriculum development, student mentorship, and translational research projects that align closely with real-world biomedical challenges.

Profile

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Early Academic Pursuits

Prof. Kumud Bala’s academic journey began with a strong foundation in the life sciences at Patna University, where she earned her B.Sc. in Zoology in 1992, followed by an M.Sc. in Immunology in 1995. Her passion for understanding the intricate mechanisms of biological systems led her to pursue a Ph.D. in Biotechnology, a collaborative program between Patna University and AIIMS, which she successfully completed in 2003. This solid educational background laid the groundwork for her long-standing academic and research career in the field of biotechnology and immunology.

Professional Endeavors in Higher Education

Prof. Bala has cultivated a distinguished teaching and research career over nearly three decades, beginning in 1996 as a Lecturer at St. Columba’s College, Hazaribag, where she contributed for over a decade. She later joined Amity University, Noida, where she steadily rose through the academic ranks—from Senior Lecturer at the Amity Institute of Advanced Training and Research to Expert Faculty at the Amity Institute of Pharmacy, and eventually to Assistant Professor III in 2009. Her dedication and academic excellence led to her promotion as Associate Professor in 2013, and she currently serves as a Professor at the Amity Institute of Biotechnology since 2019. Her professional journey is a testament to her unwavering commitment to knowledge dissemination and academic leadership.

Contributions and Research Focus

Prof. Bala’s research primarily revolves around biotechnology and immunology, with deep insights into molecular mechanisms of disease, therapeutic interventions, and diagnostic innovations. Her work often bridges interdisciplinary domains, particularly in translational research aimed at addressing immunological disorders and enhancing biotechnological applications in healthcare. Through her roles in academia, she has significantly contributed to shaping curricula, mentoring research scholars, and advancing scientific inquiry in life sciences. Her scholarly output reflects a commitment to both foundational and applied research in biomedical biotechnology.

Accolades and Recognition

While explicit accolades are not detailed in the record, Prof. Bala’s rise through academic ranks and continued tenure at a leading private university in India—Amity University—indicates a high level of institutional recognition. Her roles have involved strategic responsibilities in curriculum development, research coordination, and interdisciplinary teaching, underscoring her reputation as a trusted educator and researcher. The trust placed in her for long-term roles across diverse faculties also reflects professional respect and recognition among peers.

Impact and Influence on Biotechnology Education

Prof. Bala has profoundly influenced biotechnology education in India through her dynamic teaching methodologies and innovative research projects. Her involvement in training students from pharmacy, advanced research, and biotechnology backgrounds positions her at the center of a multidisciplinary educational landscape. Her ability to integrate academic theory with practical applications has shaped the perspectives of numerous undergraduates, postgraduates, and research aspirants, many of whom have pursued impactful careers in biomedical sciences and allied fields.

Legacy in Research and Mentorship

A hallmark of Prof. Bala’s career is her enduring legacy as a mentor and scientific guide. Her role in mentoring early-career scientists and guiding them through complex research problems stands as one of her most valuable contributions to academia. Her collaborative ethos, combined with her scientific rigor, has fostered a culture of excellence and innovation. Her efforts have ensured that research in biotechnology not only thrives in academic settings but also responds to real-world health challenges.

Future Vision and Continuing Contributions

Looking ahead, Prof. Kumud Bala continues to be an influential voice in biotechnology and immunology, actively participating in the academic and scientific community at Amity University and beyond. With the growing importance of biotechnology in global healthcare, she is uniquely positioned to lead future projects focused on interdisciplinary research, biomedical innovation, and policy-oriented science education. Her unwavering commitment to scientific growth and mentorship guarantees that her impact will be felt for generations to come.

Publication

1. Morphological examination of ear: a study of an Indian population – PK Chattopadhyay, S Bhatia – 2009


2. Herbal contraceptive: an overview – K Bala, M Arya, DP Katare – 2014


3. Adverse effect of combined oral contraceptive pills – A Shukla, R Jamwal, K Bala – 2017


4. Dealing Wildlife Offences in India: Role of the Hair as Physical Evidence – VT V Sahajpal, SP Goyal, Kumudbala Singh – 2009


5. In vitro antioxidant activity of defatted seed extracts of Ocimum sanctum on rat PC-12 cells and its inhibitory efficacy with receptors of oral squamous cell carcinoma – Y Sharma, M Bharadwaj, N Srivastava, A Kaur, M Kumar, M Agarwal, … – 2020


6. In-vitro antiproliferative efficacy of Abrus precatorius seed extracts on cervical carcinoma – A Kaur, Y Sharma, A Kumar, MP Ghosh, K Bala – 2022


7. Antioxidant activity of polyphenolic flavonoid of stem of Nicotiana tabacum – Y Sharma, A Nagar, NS Srivastava, K Bala – 2017


8. Comparative study of different parts of fruits of Musa Sp. on the basis of their antioxidant activity – Y Sharma, A Chauhan, K Bala, A Nagar – 2016


9. Preclinical assessment of stem of Nicotiana tabacum on excision wound model – Y Sharma, A Kaur, R Bhardwaj, N Srivastava, M Lal, S Madan, K Bala – 2021


10. Nosocomial infection by non-fermenting gram negative bacilli in tertiary care hospital: Screening and cure – R Wadhwa, Y Sharma, RP Upadhyay, K Bala – 2016

 

Conclusion

Prof. Kumud Bala’s career reflects a strong blend of academic rigor, research excellence, and educational leadership. Through her deep involvement in immunology and biotechnology, she has shaped the academic paths of numerous students and contributed to advancing science education in India. Her enduring commitment to scientific inquiry, mentorship, and innovation positions her as a respected figure in her field. Moving forward, her work promises to continue influencing both academic advancement and practical healthcare solutions, reinforcing her role as a pivotal contributor to the growth of life sciences in higher education.