Avik Roy | Neuroscience | Best Researcher Award

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Dr. Avik Roy | Neuroscience | Best Researcher Award

Professor, University of Wisconsin-Miwaukee, United States.

Dr. Avik Roy is the Chief Scientific Officer at Simmaron Research Institute and an Adjunct Professor at the University of Wisconsin-Milwaukee. With a PhD in Neuroscience from Rush University Medical Center, his research focuses on the role of nitric oxide and chronic inflammation in neurodegenerative diseases. He has contributed significantly to studies on Parkinson’s, ME/CFS, and Long-COVID, leading to innovative research on autophagy and neurodegeneration. His work has garnered numerous grants and awards, advancing understanding in both basic and clinical neurobiology. 🧠🔬💡

Profile:

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Education and Experience:

Dr. Avik Roy earned his M.S. in Biochemistry & Chemistry from the University of Calcutta and a PhD in Neuroscience from Rush University Medical Center. His research journey includes a postdoctoral fellowship in Neurological Sciences, followed by an Assistant Professorship at Rush University. Currently, he serves as Chief Scientific Officer at Simmaron Research and Adjunct Professor at UWM. His expertise spans biochemistry, neurodegenerative diseases, and chronic inflammation. 🏫🧬📚

Professional Development:

Dr. Roy’s professional development has been marked by his progression from a Research Fellow to an Assistant Professor and Chief Scientific Officer. His work in neuroinflammation, nitric oxide, and the pathogenesis of neurodegenerative diseases has been recognized globally. As a principal investigator, he leads various innovative projects, earning several research grants, including the NIH R21 and Ramsay Award. His involvement as a reviewer for key journals further highlights his academic leadership. 🌍🎓💼

Research Focus:

Dr. Avik Roy’s research focuses on understanding the molecular mechanisms driving neurodegenerative diseases such as Parkinson’s, ME/CFS, and Long-COVID. He investigates the role of nitric oxide, microglial activation, and inflammation in the degeneration of dopaminergic neurons. His pioneering work on autophagy, mTOR signaling, and chronic inflammation provides valuable insights into neurodegeneration and offers potential therapeutic strategies for these diseases. 🧠🧬🩺

Publications Cited By & Year:

  1. Selective inhibition of NF-κB activation prevents dopaminergic neuronal loss (2007) 🧠📚
  2. Chronic stress-induced gut dysfunction exacerbates Parkinson’s disease (2020) 🦠🧬
  3. Up-regulation of microglial CD11b expression by nitric oxide (2006) 💥🧠
  4. Simvastatin inhibits the activation of p21ras in Parkinson’s disease (2009) 💊🧠
  5. Regulation of CREB and hippocampal genes by PPARα (2013) 🧠🔬
  6. Cinnamon activates PPARα to lower Alzheimer’s plaque pathology (2019) 🍏🧠
  7. Up-regulation of neurotrophic factors by sodium benzoate in Alzheimer’s (2013) 🧪🧠
  8. Sodium phenylbutyrate protects dopaminergic neurons in Parkinson’s (2012) 💊🧠

 

Monika Fleshner | Neuroscience | Women Researcher Award |

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Monika Fleshner | Neuroscience | Women Researcher Award

Monika Fleshner , University of Colorado Boulder , United states.

Dr. Monika Fleshner, a professor in the Department of Integrative Physiology at the University of Colorado-Boulder, is a distinguished researcher and educator renowned for her contributions to stress physiology and psychoneuroimmunology. As the director of the Stress Physiology Laboratory and a member of the Center for Neuroscience, she has significantly advanced our understanding of how acute and chronic stressors affect behavior, neural, hormonal, and immunological functions.

Publication Profile

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Education 

Dr. Monika Fleshner’s educational journey is marked by a strong foundation in behavioral neuroscience and immunology. She earned her Ph.D. and M.A. in Behavioral Neuroscience from the University of Colorado, Boulder, where she also completed postdoctoral fellowships in Neuroscience and Microbiology/Immunology. Dr. Fleshner’s academic career began with a B.S. in Psychology from Iowa State University, where she graduated with honors. This extensive and interdisciplinary education has equipped her with the expertise to lead groundbreaking research in stress physiology and psychoneuroimmunology, contributing significantly to her role as a professor and director of the Stress Physiology Laboratory at the University of Colorado-Boulder.

Dr. Monika Fleshner is a tenured professor in the Department of Integrative Physiology at the University of Colorado-Boulder, where she has been a faculty member since 1997. She also serves as the director of the Stress Physiology Laboratory and is a member of the Center for Neuroscience. Dr. Fleshner’s professional career is distinguished by her leadership roles, including past presidencies of the International Society for Exercise Immunology and the Psychoneuroimmunology Research Society. She has been recognized with numerous prestigious awards, such as the Norman Cousins Award and the Arthur C. Guyton Distinguished Lectureship Award, for her pioneering research on the impact of stress on neural, hormonal, and immunological functions. Her work has been widely funded by esteemed organizations, including the NIH, NSF, and NASA, and she continues to contribute to significant national studies through her appointments with the National Academies of Sciences, Engineering, and Medicine. Dr. Fleshner’s professional contributions are further underscored by her extensive publication record, mentorship of numerous graduate and postdoctoral students, and active involvement in various academic committees and executive roles at the University of Colorado-Boulder.

Dr. Monika Fleshner’s research focuses on understanding the complex interactions between stress, behavior, and physiological functions, particularly the neural, hormonal, and immunological systems. Her integrative research program investigates the effects of acute and chronic stressors on these systems and explores the mechanisms that enhance stress resilience, such as exercise, prebiotics, and nutraceuticals. Dr. Fleshner’s work aims to uncover how these factors contribute to increased robustness against stress, with implications for improving mental and physical health. Her groundbreaking studies have been widely recognized and funded by prestigious institutions, including the NIH, NSF, and NASA. Through her research, Dr. Fleshner has published approximately 190 peer-reviewed articles, significantly advancing the fields of stress physiology and psychoneuroimmunology.

Skills

Dr. Monika Fleshner possesses a diverse and extensive skill set that underpins her distinguished career in integrative physiology and neuroscience. Her expertise in stress physiology, psychoneuroimmunology, and behavioral neuroscience is complemented by her proficiency in advanced research methodologies, including experimental design, data analysis, and the application of various biochemical and molecular techniques. Dr. Fleshner is skilled in mentoring and has successfully trained approximately 50 MS/PhD/postdoctoral students, guiding them through complex scientific inquiries and fostering their professional development. Her ability to secure significant research funding from prestigious organizations such as the NIH, NSF, and NASA highlights her grant-writing and project management capabilities. Additionally, Dr. Fleshner’s leadership skills are evidenced by her roles as president of prominent scientific societies and her service on influential committees, including the National Academies of Sciences, Engineering, and Medicine. Her extensive publication record and high citation indices reflect her strong communication skills and her ability to disseminate complex scientific findings to both the academic community and the broader public.

Conclusion

In conclusion, Dr. Monika Fleshner exemplifies the qualities sought in candidates for the Women in Research Award. Her innovative research on stress physiology, commitment to mentorship, and significant contributions to scientific leadership and community make her an outstanding representative of women in science. Recognizing her achievements would not only honor her contributions but also inspire future generations of female scientists to pursue excellence in research and leadership roles.

Publications 📚📝