Slawomir Michalak | Neuropharmacology | Top Pharmaceutical Breakthrough Award

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Prof. Slawomir Michalak | Neuropharmacology | Top Pharmaceutical Breakthrough Award

Institute of Neurological Disorders Poznan University of Medical Sciences | Poland

Prof. Slawomir Michalak is an accomplished neurologist, neuropathologist, and laboratory medicine specialist whose contributions have significantly advanced clinical neuroscience, translational neurology, and biomarker-driven research. He leads the Stroke Unit at the University Hospital in Poznań while simultaneously heading the Department of Neurology, the Department of Neurosurgery, and the Institute of Neurological Disorders at Poznan University of Medical Sciences. His academic journey includes prestigious international fellowships at the Biochemisches Institut of Christian Albrechts Universität in Kiel and at the Istituto di Patologia Generale of the Università degli Studi in Perugia, where he strengthened his foundation in molecular neuropathology. He further enhanced his expertise through intensive neuropathology and laboratory medicine courses in leading European scientific hubs such as Berlin, Budapest, Lübeck, Aachen, and specialized mitochondrial research programs in Schroecken, Austria. As a visiting professor at the M. Ospanov West Kazakhstan State Medical Academy, he delivered advanced lectures and supervised doctoral research in neurodegenerative and demyelinating disorders.Prof. Michalak’s scientific portfolio demonstrates exceptional breadth and innovation. He has played a central role in multidisciplinary research initiatives, including a large Polish–Singaporean project developing computer-aided decision support systems for acute ischemic stroke therapy, and joint studies with international collaborators aimed at profiling pathological proteins in skin biopsies of patients with movement disorders. His work also encompasses biochemical and clinical signature identification for interferon therapy response in multiple sclerosis. As a contributor to the European COST Action project on mitochondrial mapping, he has examined the complex interplay of evolution, age, gender, lifestyle, and environmental factors on mitochondrial dynamics. His ongoing clinical research includes a major investigation on the influence of Cerebrolysin on blood–brain barrier integrity in acute ischemic stroke. He also collaborates with global experts on smart digital therapeutics using generative artificial intelligence and contributes to the Glioblastoma Research Group at Poznan University of Medical Sciences to advance biomarker-based early detection strategies.With more than five hundred scientific publications, a substantial cumulative impact factor, over two thousand citations, and a strong h-index, Prof. Michalak has established himself as a leading figure in contemporary neurology. His book publications, extensive consultancy roles, and active involvement in translational industry–academia partnerships further highlight his enduring impact. His research in stroke biology, neuroimmunology, neuro-oncology, and molecular biomarkers continues to shape clinical understanding and inspire innovation across the global neuroscience community.

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Featured Publications

Ambrosius, W., Michalak, S., & Kozubski, W., & Kalinowska, A. (n.d.). Myelin oligodendrocyte glycoprotein antibody-associated disease: Current insights into the disease pathophysiology, diagnosis and management. International Journal of Molecular Sciences, 22(1), 100.

Kazmierski, N. W. R., Michalak, S., & Wencel-Warot, A. (n.d.). Serum tight-junction proteins predict hemorrhagic transformation in ischemic stroke patients. Neurology, 79, 160.

Jasiak-Zatonska, M., Kalinowska-Łyszczarz, A., Michalak, S., & Kozubski, W. (n.d.). The immunology of neuromyelitis optica—Current knowledge, clinical implications, controversies and future perspectives. International Journal of Molecular Sciences, 17(3), 273.

Wyciszkiewicz, A., Kalinowska-Łyszczarz, A., Nowakowski, B., Kaźmierczak, K., & Michalak, S. (n.d.). Expression of small heat shock proteins in exosomes from patients with gynecologic cancers. Scientific Reports, 9(1), 9817.

Zaborowski, M. S., Spaczynski, M., & Nowak-Markwitz, E., & Michalak, S. (n.d.). Paraneoplastic neurological syndromes associated with ovarian tumors. Journal of Cancer Research and Clinical Oncology, 71.

Adamczak-Ratajczak, A., Kupsz, J., Owecki, M., Zielonka, D., Sowinska, A., & Michalak, S., et al. (n.d.). Circadian rhythms of melatonin and cortisol in manifest Huntington’s disease and in acute cortical ischemic stroke. Journal of Physiology and Pharmacology, 68(4), 539–546.

Parvin Babaei | Neuropharmacology | Women Researcher Award

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Prof. Parvin Babaei | Neuropharmacology | Women Researcher Award

Guilan University of Medical Sciences | Iran

Prof. Parvin Babaei is a distinguished physiologist and neuroscientist whose research bridges the complex domains of neuromolecular biology, neurophysiology, and behavioral sciences. She earned her Ph.D. in Physiology with a specialization in Neuromolecular Biology from the Russian Academy of Medical Sciences, Anokhin Institute of Normal Physiology in Moscow, following her M.Sc. in Human Physiology from the University of Tarbiat Modarres in Tehran and a B.Sc. in Biology from the University of Guilan, Iran. Her academic foundation and scientific curiosity have driven her to explore the molecular and behavioral mechanisms underlying neurological and physiological functions in both animal and human models.Prof. Babaei’s scientific contributions encompass a broad spectrum of research areas including gene expression, neurobehavioral assessment, and experimental modeling of neurological disorders such as Alzheimer’s, Parkinson’s, stroke, and metabolic syndrome. She possesses advanced technical expertise in immunohistochemistry, enzyme-linked immunosorbent assay (ELISA), stereotaxic surgery, behavioral and motor tracking with Ethovision software, and diverse learning and memory assessment tools such as the Morris Water Maze, passive avoidance, and object recognition tasks. Her experimental approach integrates molecular techniques with behavioral analysis to uncover the biological basis of stress, cognition, and neurodegeneration.She has made remarkable scholarly contributions with numerous impactful publications, such as Stress induced expression of c-fos in the rat brain: a comparison of averaging and individual analyses, Apamine increases excitability of CA1 hippocampal pyramidal neurons, and Characteristics of c-fos gene expression in the brains of rats with different investigative and defensive behaviors. Her works like Mapping pattern of c-fos expression after seizure using immunoperoxidase staining, Effect of aerobic training on serum IgG and IgA of male students, Effect of Atrial Natriuretic Peptide on spontaneous activity of rat uterine smooth muscle, and Effect of training on visceral fat in ovariectomized rats reflect her interdisciplinary command across physiology, neuroscience, and exercise science.Throughout her career, Prof. Babaei has been recognized with numerous honors, including several “Best Researcher” awards from Guilan University of Medical Sciences and the Guilan Province, and distinction among the world’s top 2% scientists identified by Stanford University.

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Featured Publications

Damirchi, A., Hosseini, F., & Babaei, P. (2018). Mental training enhances cognitive function and BDNF more than either physical or combined training in elderly women with MCI: A small-scale study. American Journal of Alzheimer’s Disease & Other Dementias®, 33(1), 20–29.

Kouhestani, S., Jafari, A., & Babaei, P. (2018). Kaempferol attenuates cognitive deficit via regulating oxidative stress and neuroinflammation in an ovariectomized rat model of sporadic dementia. Neural Regeneration Research, 13(10), 1827–1832.

Babaei, P. (2021). NMDA and AMPA receptors dysregulation in Alzheimer’s disease. European Journal of Pharmacology, 908, 174310.

Fayaz, E., Damirchi, A., Zebardast, N., & Babaei, P. (2019). Cinnamon extract combined with high-intensity endurance training alleviates metabolic syndrome via non-canonical WNT signaling. Nutrition, 65, 173–178.

Babaei, P., Mehdizadeh, R., Ansar, M. M., & Damirchi, A. (2010). Effects of ovariectomy and estrogen replacement therapy on visceral adipose tissue and serum adiponectin levels in rats. Menopause International, 16(3), 100–104.

Song Chian | Neuropharmacology | Best Researcher Award

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Prof. Song Chian | Neuropharmacology | Best Researcher Award

Professor at Zhejiang police college | China

Prof. Song Chian is the Director of the Forensic Physical and Chemical Teaching and Research Section at the Criminal Science and Technology College of Zhejiang Police College. With a specialized focus in drug toxicology, Prof. Song has significantly contributed to forensic science education and research. Over the past five years, he has led and participated in multiple national and provincial research initiatives, producing over 20 academic publications. His work explores the mechanisms of drug addiction and its implications in forensic toxicology. Prof. Song remains a key academic leader, mentoring future forensic professionals and contributing to policy and practical advancements in the field.

Publication Profile  

Scopus

Education 

Prof. Song Chian received his academic training in forensic science and toxicology, laying a strong foundation for his specialized work in forensic drug analysis. He completed his undergraduate and graduate studies in criminal science and technology, followed by advanced training in toxicology with a focus on the physiological and biochemical mechanisms of drug addiction. Throughout his academic career, he has actively participated in continuing education programs, academic workshops, and research methodology training both nationally and provincially. His education has equipped him with the knowledge and analytical skills essential for high-level research and teaching in forensic toxicology.

Experience 

Prof. Song Chian currently serves as Director of the Forensic Physical and Chemical Teaching and Research Section at Zhejiang Police College. Over the years, he has accumulated extensive experience in forensic toxicology, both in academia and applied research. He has served as Principal Investigator for projects funded by the Zhejiang Provincial Basic Public Welfare Research Program and has collaborated on major national initiatives. His expertise spans forensic drug detection, mechanisms of addiction, and analytical techniques in toxicology. In his academic role, he has mentored students, developed specialized curricula, and published widely in the field, shaping the next generation of forensic scientists.

Awards and Honors 

Prof. Song Chian has been recognized for his contributions to forensic science research and education. Although specific awards are not listed, his leadership roles and funding successes—such as being Principal Investigator for major research projects funded by the Zhejiang Provincial Basic Public Welfare Research Program—demonstrate academic and professional recognition. His selection to contribute to national-level special projects and National Natural Science Foundation initiatives further reflects his credibility and standing in the research community. His continuous publication record and position as director within Zhejiang Police College indicate high-level institutional trust and respect within the field of forensic toxicology.

Research Focus 

Prof. Song Chian’s primary research focus lies in the toxicology of drugs, with a particular emphasis on the mechanisms of drug addiction. His work aims to uncover the physiological and chemical pathways that underpin addictive behaviors and drug-induced toxicity. By integrating forensic science with pharmacology, Prof. Song’s research supports both legal investigations and public health policies. His approach combines analytical chemistry techniques with behavioral science models to understand drug interactions in the human body. Through his projects and academic publications, he contributes to improved drug detection methods, toxicological risk assessment, and the development of prevention strategies for substance abuse.

Publication Top Notes

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