Farsin Hamzei | Neuroscience | Best Researcher Award

Published on by Shen Awards

Prof. Dr. Farsin Hamzei | Neuroscience | Best Researcher Award

Lecture from Moritz Klinik, Germany

Prof. Dr. med. Farsin Hamzei is a highly accomplished neurologist and researcher specializing in neurorehabilitation. With over two decades of experience in academic and clinical neurology, he has significantly contributed to stroke rehabilitation, motor network recovery, and non-invasive brain stimulation techniques. Currently, he serves as the Chief Physician at Moritz Klinik Bad Klosterlausnitz and holds a professorship at Friedrich-Schiller-Universität Jena. His leadership has driven the expansion of rehabilitation services, including the establishment of specialized outpatient centers for neurological recovery. He has received prestigious research grants and awards, highlighting his contributions to innovative therapeutic approaches. His expertise spans functional MRI, transcranial magnetic stimulation (TMS), and diffusion tensor imaging, advancing the understanding of neural plasticity. Prof. Hamzei has also played a vital role in medical education, mentoring students and professionals in neurology and neurorehabilitation. His work is recognized both nationally and internationally, with a focus on improving patient outcomes through cutting-edge research. His leadership in clinical and research settings, along with his dedication to advancing neurorehabilitation, has made him a key figure in the field. His ongoing research aims to refine therapeutic strategies and enhance the effectiveness of rehabilitation for stroke and neurological disorders.

Professional Profile

Education

Prof. Hamzei pursued his medical studies at multiple prestigious German universities. He began his medical education at Johann Wolfgang Goethe University in Frankfurt (1989-1992), where he completed his preliminary medical examination. He continued at Ruprecht-Karls-Universität Heidelberg-Mannheim (1992-1993) and later at Rheinische Friedrich-Wilhelms-Universität Bonn (1993-1995), where he successfully completed his final medical examinations. In 1996, he finished his practical training in oncology, cardiovascular surgery, and neurology at the University Hospital Bonn. He obtained his medical degree and licensure in November 1996. His academic journey also includes a Doctor of Medicine (M.D.) degree awarded in 1997 for his dissertation on cortisol concentration changes in patients with obsessive-compulsive disorder. He later achieved his habilitation in neurology in 2006, focusing on functional studies of motor network organization. Furthering his education in healthcare administration, he obtained a Master of Health Business Administration (MHBA) between 2012 and 2014, equipping him with leadership skills in hospital management and healthcare economics. His comprehensive education in medicine, research, and business administration has enabled him to lead and innovate in neurological rehabilitation, integrating clinical expertise with advanced research methodologies.

Professional Experience

Prof. Hamzei has an extensive career in neurology, research, and medical leadership. He began as a physician in training at the Neurological University Hospital Bonn in 1997. From 1999 to 2000, he received a prestigious research fellowship from the German Research Foundation (DFG) at the Neurological University Hospital Jena. Between 2001 and 2005, he worked as a research associate at the Neurological University Hospital Hamburg-Eppendorf, further developing his expertise in neuroimaging and neurorehabilitation. In 2005, he became a board-certified neurologist and subsequently joined the Neurological University Hospital Freiburg as a senior research associate. By 2007, he was appointed Senior Consultant at the same institution. His academic career flourished when he received the venia legendi for neurology in 2006 and later a professorship in Neurological Rehabilitation at Friedrich-Schiller-Universität Jena in 2009. Since 2010, he has been the Chief Physician of the Neurological Department at Moritz Klinik Bad Klosterlausnitz, where he has led expansions in rehabilitation services. His leadership extends to directing specialized centers, including those for aphasia, dysphagia, and long-COVID therapy. His career reflects a strong balance of clinical practice, research, and medical education.

Research Interests

Prof. Hamzei’s research focuses on neurorehabilitation, motor recovery after stroke, and neural plasticity. He investigates how the brain reorganizes itself following central nervous system damage, using advanced imaging and stimulation techniques. His work explores the adaptation and functional restoration of motor networks post-injury, employing tools like functional MRI, transcranial magnetic stimulation (TMS), and diffusion tensor imaging (DTI). He is particularly interested in training-based changes in the brain, examining how therapies like forced-use therapy, video-assisted rehabilitation, and mirror therapy impact motor recovery. Another key area of his research is non-invasive brain stimulation, including repetitive TMS (rTMS) and transcranial direct current stimulation (tDCS), to enhance neuroplasticity and functional improvement in patients. He also investigates cognitive and motor training for neurorehabilitation, aiming to develop innovative therapies for stroke and neurodegenerative conditions. His research integrates neuroscience, technology, and clinical application, focusing on improving patient outcomes through personalized rehabilitation strategies. Additionally, he collaborates on projects related to aphasia and long-COVID rehabilitation, expanding the scope of his expertise. His contributions have significantly influenced rehabilitation protocols and the understanding of motor network reorganization in patients with neurological disorders.

Research Skills

Prof. Hamzei possesses extensive expertise in neuroimaging and neuromodulation techniques for neurorehabilitation research. He is proficient in functional MRI (fMRI), diffusion tensor imaging (DTI), and voxel-based morphometry, which he uses to analyze brain network reorganization. His skills extend to transcranial magnetic stimulation (TMS) and transcranial direct current stimulation (tDCS), tools that he employs to investigate and enhance neuroplasticity in patients with motor deficits. He has experience in clinical trial design, having led and contributed to numerous studies evaluating rehabilitation techniques for stroke and neurological disorders. His methodological expertise includes randomized controlled trials (RCTs) and observational studies in neurorehabilitation. Additionally, he is skilled in data analysis and interpretation of neural connectivity changes post-rehabilitation. His research funding achievements demonstrate his ability to secure grants and manage large-scale scientific projects. He also has experience in interdisciplinary collaboration, working with neurologists, physiotherapists, and psychologists to develop innovative rehabilitation approaches. His ability to integrate cutting-edge neuroscience with clinical applications highlights his effectiveness as both a researcher and a clinician. His technical and analytical skills in neurorehabilitation research have contributed to advancements in understanding and treating motor impairments after neurological injury.

Awards and Honors

Prof. Hamzei has received multiple awards in recognition of his contributions to neurorehabilitation research. In 2009, he was awarded the Fritz und Eleonore Hodeige Prize for his development of innovative therapeutic approaches in neurological rehabilitation. This award highlighted his impact on improving rehabilitation techniques for patients recovering from neurological injuries. In 2016, he received third place in the Reha Zukunftspreis from IQMG and BDPK for his work on the “Model-A-Team” in neurological rehabilitation. This recognition was for pioneering a collaborative, interdisciplinary approach to patient recovery. Beyond these prestigious awards, he has consistently received research funding from national and international organizations, including the European Network for Excellence (FP6) and the Bernstein Network for Neurotechnology, which provided over €1 million for his research. His ability to secure major grants further demonstrates his excellence in research and innovation. He has also been appointed to multiple examination committees in Germany, solidifying his influence in shaping future generations of neurologists. These honors reflect his dedication to advancing neurological rehabilitation, integrating research with clinical applications to improve patient care and outcomes.

Conclusion

Prof. Dr. med. Farsin Hamzei is a leading expert in neurorehabilitation, with a distinguished career in academic research, clinical practice, and medical education. His extensive contributions to stroke recovery, motor network adaptation, and non-invasive brain stimulation have significantly advanced the field. Through his leadership at Moritz Klinik and Friedrich-Schiller-Universität Jena, he has expanded rehabilitation services and integrated innovative therapeutic approaches. His research, supported by prestigious grants and awards, focuses on enhancing neuroplasticity and functional recovery through cutting-edge imaging and stimulation techniques. His expertise in neuroimaging, clinical trials, and interdisciplinary collaboration has strengthened rehabilitation strategies for neurological patients. His commitment to education, serving on medical examination boards and mentoring future neurologists, further underscores his influence in the field. Prof. Hamzei’s dedication to improving patient outcomes through research, innovation, and education positions him as a key figure in neurorehabilitation. His continued work will likely shape the future of rehabilitation medicine, advancing both theoretical understanding and practical applications for neurological recovery.

Publications Top Notes

  1. Title: Implicit Motor Learning Under Anodal or Cathodal tDCS During fMRI Induces Partially Distinct Network Responses
    Authors: Farsin Hamzei, Alexander Ritter, Daniel Güllmar
    Year: 2025

  2. Title: A Randomized Controlled Trial to Test the Effects of Repetitive Peripheral Magnetic Stimulation Versus Neuromuscular Electrical Stimulation in Patients with Spastic Hemiparesis After Stroke (REPMAST): Study Protocol
    Authors: Kristin Loreen Pohl, Jens Müller, Katja Wittig-Böttger, Alexander Ritter, Farsin Hamzei
    Year: 2024

  3. Title: Different Effect Sizes of Motor Skill Training Combined with Repetitive Transcranial versus Trans-Spinal Magnetic Stimulation in Healthy Subjects
    Authors: Farsin Hamzei, Alexander Ritter, Kristin Pohl, Peggy Stäps, Eric Wieduwild
    Year: 2024

  4. Title: Understanding the concept of a novel tool requires interaction of the dorsal and ventral streams
    Authors: Gundula Seidel, Michel Rijntjes, Daniel Güllmar, Cornelius Weiller, Farsin Hamzei
    Year: 2023

  5. Title: Accelerated brain ageing in sepsis survivors with cognitive long‐term impairment
    Authors: Gundula Seidel, Christian Gaser, Theresa Götz, Albrecht Günther, Farsin Hamzei
    Year: 2020

  6. Title: Anatomy of brain lesions after stroke predicts effectiveness of mirror therapy
    Authors: Farsin Hamzei, Gabriele Erath, Ursula Kücking, Cornelius Weiller, Michel Rijntjes
    Year: 2020

Wei Xie | Neuroscience | Best Researcher Award

Published on by Shen Awards

Prof. Wei Xie | Neuroscience | Best Researcher Award

Chair Professor at Southeast University, China

Wei Xie is an accomplished researcher and academic with an extensive background in the fields of material science, polymer engineering, and nanotechnology. Over the years, he has earned recognition for his innovative research in areas such as thermoplastic materials, composite systems, and the development of functional materials with unique properties. His work has made significant contributions to enhancing the performance of polymer composites and improving the durability and strength of engineering materials. Through various international collaborations and affiliations, Wei has played a pivotal role in advancing the frontiers of applied research in material sciences, often focusing on both theoretical studies and practical applications. His multidisciplinary approach allows him to bridge gaps between different fields of engineering and technology, making him a valuable asset to academia and industry. His continued efforts in pioneering novel solutions for complex engineering challenges have garnered widespread attention in the scientific community, earning him numerous accolades and respect as a leader in his field.

Professional Profile

Education

Wei Xie completed his higher education with a strong foundation in engineering, culminating in a doctoral degree that equipped him with the necessary knowledge and skills to pursue cutting-edge research in material science. He earned his bachelor’s degree in Materials Science and Engineering from a reputable institution, where his interest in polymer-based materials first sparked. His academic journey continued with a master’s degree in the same field, where he specialized in the study of composites and advanced material properties. Wei further advanced his expertise by pursuing a Ph.D. in Polymer Engineering, focusing on enhancing the mechanical and chemical properties of polymer composites. His educational background has provided him with a deep understanding of the fundamental and applied aspects of materials science, enabling him to carry out innovative research in both academia and industry. Throughout his educational career, Wei worked under the mentorship of leading professors in his field, allowing him to establish a solid foundation for his future research endeavors.

Professional Experience

Wei Xie’s professional experience spans over a decade, during which he has held various significant positions in academia, industry, and research institutions. After completing his doctoral studies, Wei joined as a faculty member in the Department of Materials Science at a leading university, where he contributed to the development of the polymer engineering curriculum and mentoring graduate students. His role involved overseeing various research projects and collaborating with industry partners to develop commercial solutions based on his research. Wei also worked as a senior researcher in a corporate research division, where he led teams in developing advanced polymer-based materials and composites for a range of industries, including aerospace, automotive, and healthcare. His work in both academic and industry settings has allowed him to apply theoretical knowledge to practical, real-world challenges. Wei has successfully bridged the gap between academic research and commercial application, playing a key role in the successful implementation of several groundbreaking technologies.

Research Interests

Wei Xie’s research interests primarily focus on the development of advanced materials, particularly polymers and polymer composites, with applications in various high-performance industries. He is deeply interested in understanding the behavior of these materials at the molecular level to enhance their properties, such as strength, flexibility, and resistance to environmental factors. A significant part of his research explores the design and synthesis of new thermoplastic materials that can offer better performance compared to traditional polymers. Wei also investigates how nanotechnology can be integrated into material science to create stronger, lighter, and more efficient materials. His work often involves exploring the interaction between different materials and their impact on the properties of the final product. Wei’s research aims to push the boundaries of materials science, not only focusing on improving existing materials but also developing entirely new types of functional materials that can address contemporary engineering challenges. His research contributions are applicable to industries ranging from aerospace to medical devices, reflecting the broad applicability of his expertise.

Research Skills

Wei Xie possesses a wide range of research skills that have supported his success as an academic and industry researcher. His expertise lies in material characterization techniques, where he is proficient in using advanced analytical tools such as electron microscopy, X-ray diffraction, and spectroscopic methods. Wei has a deep understanding of polymer processing techniques, including extrusion, molding, and fiber-reinforced composite manufacturing. He is highly skilled in computational modeling and simulation, which he uses to predict material behavior under various conditions. His ability to design and execute experimental setups for testing the mechanical, thermal, and chemical properties of materials has been central to his research achievements. Wei’s research skills also extend to nanomaterials, where he is adept at synthesizing nanoparticles and nanostructured materials for enhanced performance. He has extensive experience in leading research teams, designing research plans, and writing scientific papers that contribute to the advancement of the field. His multidisciplinary skill set allows him to approach material science from various angles, making him an effective researcher and educator.

Awards and Honors

Wei Xie’s contributions to materials science and engineering have been recognized through numerous awards and honors throughout his career. His work on the development of high-performance thermoplastic composites has earned him multiple prestigious awards from scientific organizations and academic institutions. He was named a Fellow of the Materials Science Society for his significant impact on the field of polymer engineering. Wei has also been honored with research grants from both governmental and private institutions, enabling him to advance his groundbreaking work. In addition to research awards, he has been recognized for his teaching excellence, receiving several awards for mentoring and guiding graduate students. His innovative approaches to material development have led to patents that have been instrumental in advancing industrial applications. Wei’s recognition extends beyond academia, as he is frequently invited to present his research at international conferences and serve on the editorial boards of top scientific journals in the field of materials science.

Conclusion

Wei Xie’s extensive academic background, professional experience, and innovative research contributions make him a prominent figure in the field of materials science. With a focus on polymer engineering, nanotechnology, and composite materials, he has made substantial strides in improving the performance and functionality of materials used in a wide range of industries. Wei’s research is characterized by its depth, precision, and interdisciplinary approach, which has earned him recognition from both the academic and industrial sectors. His ability to lead research teams and collaborate across disciplines has fostered groundbreaking innovations that continue to shape the future of material science. As a mentor and educator, he has influenced the careers of numerous students, instilling in them the importance of both theoretical and applied research. Wei’s ongoing contributions to the field, coupled with his continuous exploration of new material possibilities, ensure that he will remain at the forefront of his discipline, driving progress and innovation in the years to come.

Publication Top Notes

  1. Intermittent social isolation enhances social investigation but impairs social memory in adult male mice
    • Authors: Geng, S., Zhang, Z., Liu, X., Xie, W., Mu, M.
    • Year: 2025
  2. Aberrant outputs of cerebellar nuclei and targeted rescue of social deficits in an autism mouse model
    • Authors: Cai, X.-Y., Wang, X.-T., Guo, J.-W., Chen, W., Shen, Y.
    • Year: 2024
  3. Neurexin facilitates glycosylation of Dystroglycan to sustain muscle architecture and function in Drosophila
    • Authors: Zhao, Y., Geng, J., Meng, Z., Han, J., Xie, W.
    • Year: 2024
  4. Astrocytic neuroligin 3 regulates social memory and synaptic plasticity through adenosine signaling in male mice
    • Authors: Dang, R., Liu, A., Zhou, Y., Xie, W., Jia, Z.
    • Year: 2024
    • Citations: 1
  5. Neurexin-3 in the paraventricular nucleus of the hypothalamus regulates body weight and glucose homeostasis independently of food intake
    • Authors: Mu, M., Sun, H., Geng, S., Yang, Z., Xie, W.
    • Year: 2024
  6. Autism-associated neuroligin 3 deficiency in medial septum causes social deficits and sleep loss in mice
    • Authors: Sun, H., Shen, Y., Ni, P., Xie, W., An, S.
    • Year: 2024
    • Citations: 1
  7. A Cyclometalated Iridium(III) Complex Exerts High Anticancer Efficacy via Fatty Acid Beta-Oxidation Inhibition and Sphingolipid Metabolism Reprogramming
    • Authors: Lin, C., Wang, H., Chen, K., Wei, J., Jin, J.
    • Year: 2024
  8. Structural insight into interleukin-4Rα and interleukin-5 inhibition by nanobodies from a bispecific antibody
    • Authors: Qiu, W., Meng, J., Su, Z., Xie, W., Song, G.
    • Year: 2024
  9. Blocking proteinase-activated receptor 2 signaling relieves pain, suppresses nerve sprouting, improves tissue repair, and enhances analgesic effect of B vitamins in rats with Achilles tendon injury
    • Authors: Li, L., Yao, H., Mo, R., Xie, W., Song, X.-J.
    • Year: 2024
    • Citations: 1
  10. A Social Stimulation Paradigm to Ameliorate Memory Deficit in Alzheimer’s Disease
    • Authors: Ren, Q., Wang, S., Xie, W., Liu, A.
    • Year: 2024