Jacques-Olivier COQ | Brain development | Best Researcher Award

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Dr. Jacques-Olivier COQ | Brain development | Best Researcher Award

Dr. Jacques-Olivier COQ, CNRS/aix Marseille Université, France

Dr. Coq is a Senior Researcher at the CNRS, specializing in neuroscience, particularly sensorimotor plasticity and neurodevelopmental disorders. He holds a PhD from Aix Marseille Université and has conducted postdoctoral research at UC San Francisco and Vanderbilt University. His work focuses on disorders like cerebral palsy, developmental coordination disorder, and the effects of prenatal hypoxia/ischemia. He develops animal models for pathologies associated with neurodevelopment and investigates neuroprotection strategies using stem cells and other therapies. Dr. Coq has authored 61 publications and received multiple research grants and international awards. 🌍🔬

 

Publication Profile

Google Scholar

Education & Training 📚

Dr. Jacques-Olivier Coq has a distinguished academic background in neuroscience. He completed his postdoctoral studies at the University of California, San Francisco, under the guidance of Professor Merzenich (2001-2002) and at Vanderbilt University, Nashville, with Professor Kaas (1999-2000). Dr. Coq earned his PhD in Neuroscience from Aix Marseille Université, France (1998). He also holds Master’s degrees from Aix Marseille Université and Université de Bordeaux 1-2, with specializations in Neuroscience and Physiology (1993-1994). His expertise spans developmental neuroplasticity, sensorimotor integration, and neurodevelopmental disorders. 🧠👨‍🔬

 

Grants and Awards 🏆

Dr. Coq has secured 14 research grants since 2001, showcasing his ability to attract funding for his work. He has received multiple awards, including recognitions from the Institut de France and Aix Marseille Université, further validating his research excellence.

Research Interests 🧠🔬

Dr. Jacques-Olivier Coq’s research focuses on cortical and spinal plasticity, particularly in relation to altered sensorimotor experiences during development and adulthood, perceptual abilities, and the effects of stroke and perinatal hypoxia/ischemia. His work involves developing animal models for pathologies such as Encephalopathy of Prematurity, Cerebral Palsy, spasticity, and Developmental Coordination Disorder (DCD). Using tools like mesenchymal stem cells and lactoferrin supplementation, he aims to understand the underlying mechanisms of these disorders and develop new neuroprotective strategies. His expertise includes cognition, learning, behavior, locomotion, and electrophysiology (in vivo/vitro patch-clamp and multi-electrode recordings). 🧑‍🔬📈

 

Conclusion

Dr. Jacques-Olivier Coq’s extensive experience, impactful publications, international collaborations, and focus on pressing neurological conditions make him a highly suitable candidate for the Best Researcher Award. His work not only advances our understanding of sensorimotor integration and neurodevelopmental disorders but also contributes to developing new therapeutic strategies, aligning well with the award’s objectives of recognizing outstanding research and innovation in the field.

 

Publication Top Notes

  • Environmental enrichment alters organizational features of the forepaw representation in the primary somatosensory cortex of adult rats – 156 citations, 1998 🐾🧠
  • Experience-induced plasticity of cutaneous maps in the primary somatosensory cortex of adult monkeys and rats – 141 citations, 1996 🐒🔄
  • Effects of sensorimotor restriction and anoxia on gait and motor cortex organization: implications for a rodent model of cerebral palsy – 100 citations, 2004 🚶‍♂️⚡
  • Anatomical and functional organization of somatosensory areas of the lateral fissure of the New World titi monkey (Callicebus moloch) – 96 citations, 2004 🐒🧠
  • Impact of neonatal asphyxia and hind limb immobilization on musculoskeletal tissues and S1 map organization: implications for cerebral palsy – 91 citations, 2008 🚼🦵
  • Impact of prenatal ischemia on behavior, cognitive abilities, and neuroanatomy in adult rats with white matter damage – 81 citations, 2012 🧠💔
  • Tactile impoverishment and sensorimotor restriction deteriorate the forepaw cutaneous map in the primary somatosensory cortex of adult rats – 76 citations, 1999 🖐️📉
  • Prenatal ischemia deteriorates white matter, brain organization, and function: implications for prematurity and cerebral palsy – 67 citations, 2016 🧠⏳
  • Neuroanatomical, sensorimotor, and cognitive deficits in adult rats with white matter injury following prenatal ischemia – 64 citations, 2012 🧠🚨
  • Sensorimotor experience modulates age-dependent alterations of the forepaw representation in the rat primary somatosensory cortex – 58 citations, 2001 🧠🔄

Farimah Beheshti | Neuroscience | Best Researcher Award

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Assist. Prof. Dr. Farimah Beheshti | Neuroscience | Best Researcher Award

Assist. Prof. Dr. Farimah Beheshti, Torbat Heydriyeh University of Medical Sciiences, Iran

Dr. Farimah Beheshti is an Assistant Professor in Medical Physiology at Torbat Heydariyeh University of Medical Sciences, Iran. She holds a PhD in Medical Physiology from Mashhad University of Medical Sciences (2018). Her research focuses on learning and memory impairment, cognitive disorders, and brain developmental disorders. Dr. Beheshti has authored numerous publications and presented at various national and international conferences. She is a skilled neuroscientist with expertise in rodent behavioral assessments, stereotaxic surgery, and scientific writing. Among her honors are Top Researcher awards from Mashhad and Torbat Heydariyeh Universities. 🏆📚

 

Publication Profile

Google Scholar

Academic Background

Dr. Beheshti has a strong academic foundation in Medical Physiology, with an M.Sc. and PhD from Mashhad University of Medical Sciences. Her education, spanning from biological sciences to specialized neuroscience, underscores her deep knowledge in the field. Her research focuses on mechanisms of cognitive disorders, particularly in relation to learning and memory impairments, which is central to advancing neuroscience.

Research Skills

Dr. Beheshti’s practical experience in neuroscience is extensive, including advanced techniques like in vivo extracellular single unit recording, stereotaxic surgery, and behavioral assessments. These skills demonstrate her proficiency in experimental research and her ability to handle complex laboratory procedures, which significantly contribute to her research accomplishments.

Recognition

With an H-index of 30 on Scopus, Dr. Beheshti has published extensively in reputable journals. Her research contributions are backed by a significant amount of peer-reviewed work and substantial impact in the field, as evidenced by her Web of Science Researcher ID and contributions to over 24 peer reviews in journals like Scientific Reports and Brain Research Bulletin. Her ability to influence the scientific community through publications and peer reviews is notable.

Teaching

Dr. Beheshti’s involvement in teaching neuroscience at the MSc level reflects her commitment to advancing the next generation of researchers and healthcare professionals. Her MSc thesis and PhD dissertation titles indicate a keen interest in cognitive health, particularly in the context of neurodegenerative diseases.

Awards and Honors

Dr. Beheshti’s recognition as a Top Researcher at Torbat Heydariyeh University of Medical Sciences for multiple years (2020 and 2021) speaks volumes about her sustained excellence and contributions to the field. Such recognition further solidifies her standing as an impactful researcher.

Research Focus

Assist. Prof. Dr. Farimah Beheshti’s research primarily focuses on neuropharmacology, neuroinflammation, and memory impairment. She investigates the effects of various plant-based compounds, such as Nigella sativa (black seed) and thymoquinone, on brain health, particularly in relation to oxidative stress and neuroinflammation in animal models. Her studies often explore neuroprotective agents in conditions like hypothyroidism, lipopolysaccharide-induced memory deficits, and neurodegenerative diseases. Dr. Beheshti’s work also delves into oxidative stress, cytokine regulation, and learning and memory functions, making significant contributions to understanding neuroprotection and therapeutic strategies for cognitive dysfunction. 🧠🌿💡🔬

 

Conclusion

Dr. Farimah Beheshti’s exceptional research achievements, combined with her teaching contributions, awards, and peer-reviewed work, make her an excellent candidate for the Research for Best Researcher Award. Her cutting-edge research, extensive presentation history, and consistent academic performance demonstrate her dedication to advancing the field of neuroscience, particularly in memory and cognitive health.

 

Publication Top Notes

  • The effects of thymoquinone on hippocampal cytokine level, brain oxidative stress status, and memory deficits induced by lipopolysaccharide in rats – Cited by: 107, Year: 2017 🧠💊
  • The effects of Nigella sativa extract on hypothyroidism-associated learning and memory impairment during neonatal and juvenile growth in rats – Cited by: 89, Year: 2017 🌱🧠
  • Neuropharmacological effects of Nigella sativa – Cited by: 89, Year: 2016 🌿💊
  • Inducible nitric oxide inhibitor aminoguanidine ameliorates deleterious effects of lipopolysaccharide on memory and long term potentiation in rat – Cited by: 71, Year: 2016 ⚡🧠
  • Neuronal nitric oxide synthase has a role in the detrimental effects of lipopolysaccharide on spatial memory and synaptic plasticity in rats – Cited by: 62, Year: 2016 🧠💡
  • The Effect of Allium cepa Extract on Lung Oxidant, Antioxidant, and Immunological Biomarkers in Ovalbumin-Sensitized Rats – Cited by: 61, Year: 2018 🧄🌬️
  • Beneficial effects of Urtica dioica on scopolamine-induced memory impairment in rats: protection against acetylcholinesterase activity and neuronal oxidative damage – Cited by: 60, Year: 2019 🌿🧠
  • Aminoguanidine affects systemic and lung inflammation induced by lipopolysaccharide in rats – Cited by: 59, Year: 2019 💊🌬️
  • The effects of PPAR-γ agonist pioglitazone on hippocampal cytokines, brain-derived neurotrophic factor, memory impairment, and oxidative stress status in lipopolysaccharide – Cited by: 56, Year: 2019 💊🧠
  • Thymoquinone reverses learning and memory impairments and brain tissue oxidative damage in hypothyroid juvenile rats – Cited by: 55, Year: 2018 🧠💊

 

Philip Pavlovsky | Neuroscience | Young Scientist Award

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Mr. Philip Pavlovsky | Neuroscience | Young Scientist Award

Mr. Philip Pavlovsky, N.N.Semenov Federal research center for chemical physics, Russia

Philip Pavlovsky is a PhD student with an impressive academic and research background in neurobiology, particularly focusing on electrophysiological studies. His experience spans across international research institutions, where he has contributed to studies on neurodegenerative disorders and human electrophysiology. His curiosity and collaboration skills make him a standout candidate for research awards.

 

Publication profile

Scopus

Orcid

Scientific Interests

Philip’s interests include single-cell and multicellular activity, neurodegenerative disorders, and human electrophysiology. His research aligns closely with the innovative exploration of brain function, which is a crucial focus for the Research for Young Scientist Award.

 

Professional Experience

Philip’s work as a junior researcher in the Federal Research Center for Chemical Physics (RAS) highlights his expertise in pathological cellular activity in Parkinsonian patients. His international internships reflect a strong commitment to multidisciplinary research, enhancing his candidacy for the award.

Awards & Conference Participation

Philip has won several awards for his oral presentations and has been granted prestigious travel and training grants. His participation in global neuroscience conferences further establishes him as a promising young scientist.

Conclusion

Philip Pavlovsky’s extensive research background, international collaborations, and numerous accolades make him an ideal candidate for the Research for Young Scientist Award. His contributions to neurodegenerative disease research, particularly Parkinson’s disease, demonstrate significant potential for impactful future discoveries.