Jolanta Dorszewska | Neurobiology | Women Researcher Award

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Dr. Jolanta Dorszewska | Neurobiology | Women Researcher Award

Professor Jolanta Dorszewska is a globally recognized neuroscientist and pharmacologist based at Poznan University of Medical Sciences, Poland 🧠🇵🇱. She leads the Laboratory of Neurobiology, exploring the molecular and genetic basis of neurodegenerative diseases 🧬. With over 35 years of academic experience, her work spans neurochemistry, clinical neurology, and genetic research in Alzheimer’s and Parkinson’s disease 🧪. A prolific author, she has contributed to 80+ research papers, 50+ reviews, and 30+ book chapters 📚. She serves on editorial boards of top neuroscience journals and holds leadership roles in national and international neurological societies 🌍.

Profile

Education 🎓

Prof. Dorszewska earned her M.Sc. in Pharmacy with distinction from Poznan University of Medical Sciences in 1987 🏅. She completed board certifications in Pharmaceutical Analytics (1990 & 1997) and received her Ph.D. in 1996 🧪. In 2004, she qualified as an Associate Professor and achieved full Professorship in 2016 🎓. Her academic growth includes training in medical genetics from 2012 to 2020 🧬. Her education reflects an evolving blend of pharmacy, neurobiology, and genetics, forming the foundation of her current research excellence 💡.

Experience 👨‍🏫

Prof. Dorszewska began as an Assistant in the Dept. of Pharmacy (1987-88), then in Clinical Neurochemistry (1988-96) at PUMS 👩‍🔬. She was a Research Scientist in New York (1999–2000) 🗽 and has led the Laboratory of Neurobiology since 2004 🧠. She became Full Professor in 2022 🏛️. She also lectured at the National High Medical School in Pila (2012–2018) 📖. Her career blends hands-on research, global collaboration, and dedicated academic leadership 📚. She continues to mentor, publish, and drive innovations in neurology and neurochemistry 🚀

Awards & Recognitions 🏅

Awards and Honors:
Prof. Dorszewska is a Local Honorary Member of the 12th World Congress on Controversies in Neurology (2018) 🌐. She has served as Guest Editor for 6 prestigious theme issues and holds editorial roles in top-tier journals like Frontiers in Molecular Neuroscience and Current Alzheimer Research 📘. A section and associate editor for journals across the USA, UK, and Poland 🌍, she’s a key figure in scientific publishing 🖋️. She’s affiliated with the Polish Academy of Sciences and international neurological societies and has co-edited 5 books 📚.

Research Interests 🔬

Research Focus:
Her research spans lipid metabolism in hypoxia 🧫, cerebral sterols 🧠, neurotransmitters (serotonin, dopamine) 🧪, apoptosis in aging and disease (Alzheimer’s, Parkinson’s) 💔, and gene polymorphisms (MTHFR, MAO-B, PARK) 🧬. She investigates homocysteine metabolism, catecholamine pathways, and molecular changes in neurodegeneration 🧠. Since 2009, she’s focused on genetic mutations (PARK, APOE), biomarkers (ASN, microRNAs), and migraine genetics ⚙️. She uses advanced techniques like HPLC, PCR, ELISA, and immunohistochemistry 🔍. Her interdisciplinary work integrates neurobiology, pharmacogenomics, and molecular neuroscience in tackling brain diseases 🚀.

Publications 

  • Genetic variants of ZNF746 and the level of plasma Parkin, PINK1, and ZNF746 proteins in patients with Parkinson’s disease

    IBRO Neuroscience Reports
    2025-06 | Journal article
    DOI: 10.1016/j.ibneur.2025.01.016
    CONTRIBUTORS: Jolanta Dorszewska; Jolanta Florczak-Wyspiańska; Bartosz Słowikowski; Wojciech Owecki; Oliwia Szymanowicz; Ulyana Goutor; Mateusz Dezor; Paweł P. Jagodziński; Wojciech Kozubski

  • Kinesiotherapeutic Possibilities and Molecular Parameters in Multiple Sclerosis

    Sclerosis
    2025-04-03 | Journal article
    DOI: 10.3390/sclerosis3020013
    CONTRIBUTORS: Katarzyna Wiszniewska; Małgorzata Wilk; Małgorzata Wiszniewska; Joanna Poszwa; Oliwia Szymanowicz; Wojciech Kozubski; Jolanta Dorszewsk

  • Unraveling the Role of Proteinopathies in Parasitic Infections

    Biomedicines
    2025-03-03 | Journal article
    DOI: 10.3390/biomedicines13030610
    CONTRIBUTORS: Mikołaj Hurła; Damian Pikor; Natalia Banaszek-Hurła; Alicja Drelichowska; Jolanta Dorszewska; Wojciech Kozubski; Elżbieta Kacprzak; Małgorzata Paul

  • Expression of Neuronal Nicotinic Acetylcholine Receptor and Early Oxidative DNA Damage in Aging Rat Brain—The Effects of Memantine

    International Journal of Molecular Sciences
    2025-02-14 | Journal article
    DOI: 10.3390/ijms26041634
    CONTRIBUTORS: Małgorzata Anna Lewandowska; Agata Różycka; Teresa Grzelak; Bartosz Kempisty; Paweł Piotr Jagodziński; Margarita Lianeri; Jolanta Dorszewska

Elsa Pittaras | Neuroscience | Women Researcher Award

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Dr. Elsa Pittaras | Neuroscience | Women Researcher Award

Elsa Pittaras is a Basic Life Research Scientist at Stanford University, specializing in neuroscience, cognition, and sleep research. With expertise in molecular biology, neuroanatomy, pharmacology, and behavior, she has extensively studied decision-making processes in mice. Her research has contributed significantly to understanding sleep deprivation’s effects on cognition and memory in Down Syndrome and Alzheimer’s disease models. She has published multiple papers as both first and last author, showcasing her leadership in neuroscience. Elsa’s goal is to advance research on mood disorders, cognition, and neurochemistry, aspiring to become an independent researcher in the U.S. 🇺🇸🔬🧠

Profile

Education 🎓

Elsa Pittaras earned a B.S. in Physiology from the University of Caen (2010), an M.S. in Neuroscience from the University of Paris Sud and ENS Cachan (2012), and a Ph.D. in Neuroscience from Neuro-PSI and the Biomedical Research Unit of the French Army (2016). Her multidisciplinary foundation in biology, physics, chemistry, and mathematics from Châtelet, Douai (2009) laid the groundwork for her neuroscience expertise. Throughout her education, she focused on decision-making, sleep deprivation, and neurochemical mechanisms in cognition. 🧠📚🎓

Experience 👨‍🏫

Elsa Pittaras has been a Basic Life Research Scientist at Stanford University since 2022, focusing on cognitive enhancement in Down Syndrome and Alzheimer’s disease models. She was a Postdoctoral Fellow at Stanford (2017-2022), investigating sleep and circadian rhythms’ effects on memory. Previously, she conducted research at the Biomedical Research Unit of the French Army (2016-2017) and completed her Ph.D. at Neuro-PSI. Her career includes internships in neuroscience at Neuro-PSI (2011-2012) and clinical observations at CHU Caen (2010). 🏛️🧬🧪

Research Interests 🔬

Elsa’s research explores decision-making, memory, and sleep in neurodevelopmental disorders. She pioneered the Mouse Gambling Task, revealing individual decision-making strategies. Her Ph.D. identified neurochemical markers of decision-making behaviors and the effects of sleep deprivation. At Stanford, she investigates sleep’s impact on cognition in Down Syndrome and Alzheimer’s models, aiming to improve memory and sleep quality through pharmacological interventions. Her work bridges behavioral neuroscience with neurochemistry to enhance cognitive function. 🧠💡🛌

Awards & Recognitions 🏅

Elsa has received prestigious grants, including the Jerome Lejeune Research Grants (2019, 2020), the Fyssen Foundation Research Grant (2017), and travel awards for conferences such as T21RS (2021) and Advances in Sleep and Circadian Science (2019). She was also recognized by the French Society for Research and Sleep Medicine (2014) and received a European Neuroscience Federation travel award (2016). 🏅

Publications 

  • Selectively Blocking Small Conductance Ca2+-Activated K+ Channels Improves Cognition in Aged Mice.

  • Short-term γ-aminobutyric acid antagonist treatment improves long-term sleep quality, memory, and decision-making in a Down syndrome mouse model

  • Behavioral and Neuronal Characterizations, across Ages, of the TgSwDI Mouse Model of Alzheimer’s Disease.

  • Inter-individual differences in cognitive tasks: focusing on the shaping of decision-making strategies

  • Handling, task complexity, time-of-day, and sleep deprivation as dynamic modulators of recognition memory in mice

  • Enhancing sleep after training improves memory in down syndrome model mice