Marina Vesovic | Pharmaceutical chemistry | Medical Chemistry Award

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Prof Dr. Marina Vesovic | Pharmaceutical chemistry | Medical Chemistry Award

Professor at Faculty of Medical Sciences Serbia

Prof. Dr. Marina Vesovic is an Associate Professor in the Department of Pharmacy at the Faculty of Medical Sciences, University of Kragujevac. Elected to her current position in June 2023, she specializes in Pharmaceutical Chemistry. Her research focuses on the synthesis, modeling, and evaluation of organic compounds and metal complexes, particularly in relation to their anti-inflammatory, antioxidant, and cytotoxic activities.

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  • Citations: 13 citations across 12 documents
  • h-index: 2 (This index measures both the productivity and citation impact of the researcherā€™s publications.)

Research Documents and Impact

Number of Documents: 5
Citations by Document: Reflects the impact and relevance of each published work.

Education

Prof. Vesovicā€™s educational background includes advanced studies in Pharmaceutical Chemistry, which laid the foundation for her expertise and ongoing research in this field. Specific details about her degrees and institutions are not provided, but her role as an associate professor indicates a strong academic background.

Research Focus

Her research centers on medicinal chemistry, pharmaceutical chemistry, and bioinorganic chemistry. She investigates the synthesis and biological activities of organic compounds and metal complexes, focusing on their therapeutic potential and biochemical interactions.

Professional Journey

Prof. Vesovic’s professional journey includes her recent promotion to Associate Professor in 2023, her leadership in various research projects, and her active participation in advancing the field of pharmaceutical chemistry. She has mentored graduate students and contributed to significant research projects in her domain.

Honors & Awards

The bio does not mention specific honors or awards, but Prof. Vesovicā€™s significant contributions to research and education, including her role in various high-impact projects and publications, highlight her esteemed position in her field.

Publications Noted & Contributions

Prof. Vesovic has published extensively, with 18 articles in M20 category journals, 32 in M30, 10 in M50, and 17 in M60. Her notable contributions include a textbook titled “Pharmaceutical Chemistry 1 – Selected Chapters” and numerous research articles detailing her work on pharmaceutical compounds.

Indomethacin Derivatives as Potential Anticancer Agents – Daybreak of New Epoch

Authors: Gogic, A., Vesovic, M., Nedeljkovic, N., Zdravkovic, N., Zivanovic, A.
Journal: ChemistrySelect, 2024, 9(30), e202402050
Citations: 0
Summary: This article explores the potential of indomethacin derivatives as anticancer agents. It presents a detailed study on the synthesis and evaluation of these derivatives, focusing on their anticancer properties. The research aims to offer new insights into drug development for cancer treatment.

Design of Vonoprazan Pyrazole Derivatives as Potential Reversible Inhibitors of Gastric Proton Pump: An In Silico Molecular Docking Study

Authors: Karović, M., Nikolić, B., Nedeljković, N., Vesović, M., Nikolić, M.
Journal: Acta Facultatis Medicae Naissensis, 2024, 41(1), pp. 53ā€“79
Citations: 0
Summary: This article employs in silico molecular docking to design pyrazole derivatives of vonoprazan as potential reversible inhibitors of the gastric proton pump. It offers a computational approach to drug design, aiming to enhance the efficacy of treatments for gastric acid-related disorders.

Synthesis, Characterization, and Investigation of Anti-Inflammatory and Cytotoxic Activities of Novel Thiourea Derivatives of Naproxen

Authors: Nedeljković, N., Nikolić, M., Čanović, P., Vujić, Z., Dobričić, V.
Journal: Pharmaceutics, 2024, 16(1), 1
Citations: 3
Summary: This paper details the synthesis and characterization of novel thiourea derivatives of naproxen, focusing on their anti-inflammatory and cytotoxic activities. The study provides valuable data on these compounds’ potential therapeutic applications and biological effectiveness.

Investigation of the Interaction Between S-Isoalkyl Derivatives of Thiosalicylic Acid and Human Serum Albumin

Authors: Vesović, M., Jelić, R., Nikolić, M., Kljun, J., Tomović, D.
Journal: Journal of Biomolecular Structure and Dynamics, 2024
Citations: 0
Summary: This research investigates how S-isoalkyl derivatives of thiosalicylic acid interact with human serum albumin. The study highlights the binding specificity and potential implications for drug delivery and design.

Synthesis and Investigation of Anti-Inflammatory Activity of New Thiourea Derivatives of Naproxen

Authors: Nedeljković, N., Dobričić, V., BoÅ”ković, J., Vujić, Z., Nikolić, M.
Journal: Pharmaceuticals, 2023, 16(5), 666
Citations: 10
Summary: This article focuses on the synthesis and anti-inflammatory activity of new thiourea derivatives of naproxen. It provides insights into how these new compounds might improve treatment for inflammatory conditions and their potential benefits over existing drugs.

Research Timeline

Ongoing projects include investigations into the synthesis and biological properties of organic and metal complex compounds, with a focus on anti-inflammatory and antioxidant activities. Her recent research efforts span from 2023 to the present, continuing to build on her previous work.

Collaborations and Projects

Prof. Vesovic is involved in several research projects funded by the Ministry of Education, Science, and Technological Development. Her projects include the synthesis and characterization of new drug derivatives, and she is a member of professional societies such as the Serbian Crystallographic Society and the Serbian Society for Immunology, Molecular Oncology, and Regenerative Medicine.

Strengths of Prof. Dr. Marina Vesovic for the Medical Chemistry Award

  1. Research Contributions: Prof. Vesovic’s research focuses on significant areas of pharmaceutical chemistry, including anti-inflammatory, antioxidant, and cytotoxic activities. Her work on indomethacin derivatives, pyrazole derivatives of vonoprazan, and novel thiourea derivatives of naproxen illustrates her commitment to advancing drug development and therapeutic applications.
  2. Publication Record: Her extensive publication record, including articles in high-impact journals like ChemistrySelect and Pharmaceutics, demonstrates a strong and active research presence. Notably, her contributions to understanding drug mechanisms and interactions highlight her expertise.
  3. Innovative Research: Prof. Vesovic’s research employs cutting-edge methods such as in silico molecular docking and detailed biochemical investigations. Her studies into drug interactions with human serum albumin and the development of new drug derivatives show a forward-thinking approach to pharmaceutical chemistry.
  4. Educational and Professional Impact: As an Associate Professor at the Faculty of Medical Sciences, University of Kragujevac, Prof. Vesovic plays a vital role in educating the next generation of pharmaceutical chemists. Her leadership in research projects and mentorship of graduate students underscores her influence in the field.
  5. Active Research Projects: Her ongoing research projects funded by reputable organizations and her involvement in professional societies demonstrate her dedication and engagement with the broader scientific community. These efforts contribute to both theoretical and practical advancements in pharmaceutical chemistry.

Areas for Improvement

  1. Citation Impact: Despite a solid publication record, Prof. Vesovic’s citation metrics are relatively modest. Increasing the visibility and impact of her research could involve strategic collaborations and high-profile publications to enhance citation counts.
  2. Research Visibility: While her research is highly relevant, increasing its visibility through conference presentations, media engagement, or collaborative projects with international researchers could further elevate her profile in the field.
  3. Grant Funding: Securing additional research funding or collaborating on larger, multi-institutional grants could provide more resources for her projects and expand the scope of her research.
  4. Publication Diversity: Expanding the range of journals where her work is published, including higher-impact journals or interdisciplinary platforms, might improve both the reach and influence of her research.
  5. Award and Recognition: Gaining recognition through prestigious awards or honors could further validate her contributions to the field. Actively pursuing such accolades or nominations could enhance her professional standing.

Conclusion

Prof. Dr. Marina Vesovic is a promising candidate for the Medical Chemistry Award due to her significant research contributions, extensive publication record, and innovative approaches to drug development. Her work demonstrates a deep understanding of pharmaceutical chemistry and its applications in medicine. By addressing areas such as increasing research visibility and enhancing citation impact, she could further strengthen her candidacy and contribute even more significantly to the field of pharmaceutical chemistry.

Ajmer Singh Grewal | Drug Discovery | Best Researcher Award

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Prof. Ajmer Singh Grewal | Drug Discovery | Best Researcher Award

Ā Professor at Guru Gobind Singh College of Pharmacy, India

Amelia Sweet is a dedicated graduate student pursuing a Ph.D. in Computational Chemistry at the University of Iowa. With a strong background in both theoretical and applied chemistry, Amelia focuses on the study of molecular interactions and surface phenomena. Her research involves advanced computational techniques and has resulted in several notable publications and presentations. Ameliaā€™s professional journey reflects a commitment to both research and education in the field of chemistry.

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Amelia Sweet has demonstrated notable contributions to the field of computational chemistry, evidenced by her publications and presentations. Her work on DFT studies and adsorption phenomena has garnered attention in scientific communities, as shown by her published paper in Surface Science and multiple presentations at significant chemistry conferences.

  • Citations: 1,703 across 1,451 documents
  • Documents: 102
  • h-index: 19

Education

Amelia completed her Bachelor of Arts in Chemistry from Saint Maryā€™s University of Minnesota in May 2020, where she received the American Chemical Society Award for her thesis work on tungsten-based polyoxometalates. She is currently pursuing a Ph.D. in Chemistry at the University of Iowa, under the co-advisement of Dr. Sara Mason and Dr. Scott Shaw. Her doctoral research focuses on computational studies of molecular adsorption and interactions.

Research Focus

Ameliaā€™s research primarily revolves around the use of Density Functional Theory (DFT) to study molecular interactions with metal surfaces. Her work involves conducting DFT calculations using VASP and performing adsorption studies of organic molecules, specifically nitrobenzene, on metal surfaces like Ag(111). Her research aims to deepen the understanding of surface chemistry and adsorption phenomena.

Professional Journey

Ameliaā€™s professional journey includes roles as a Research Assistant and Teaching Assistant at the University of Iowa. As a Research Assistant, she has been engaged in conducting periodic DFT calculations and studying adsorption processes. Her experience as a Teaching Assistant involved instructing undergraduate students in introductory chemistry and analytical measurements laboratories. Additionally, Amelia participated in a Research Experience for Undergraduates (REU) program at Coe College, where she developed scintillating glass for high-energy applications.

Honors & Awards

Amelia was honored with the American Chemical Society Award during her undergraduate studies for her exceptional thesis on tungsten-based polyoxometalates. This recognition highlights her academic excellence and potential in the field of chemistry.

Publications Noted & Contributions

Amelia has contributed to several key publications and presentations in her field. Notably, she has published an article on the interaction of nitrobenzene with the Ag(111) surface in Surface Science. Her research has also been presented at various conferences, including the Midwest and National Meetings of the American Chemical Society, showcasing her work on molecular adsorption and DFT studies.

Books and Book Chapters

Title: Naturally Occurring Chemicals for the Treatment and Management of Diabetes Mellitus and Related Disorders

  • Year: 2024
  • DOI: 10.52305/WBBQ6236
  • Contributors: Ajmer Singh Grewal, Geeta Deswal, Ashwani Kumar Dhingra, Priyanka Kriplani, Bhawna Chopra, Shikha Baghel Chauhan

Journal Articles

Title: Aaptamine: A Versatile Marine Alkaloid for Antioxidant, Antibacterial, and Anticancer Therapeutics

  • Journal: Chemistry
  • Date: August 3, 2024
  • DOI: 10.3390/chemistry6040040
  • Contributors: Navin Kumar Tailor, Geeta Deswal, Ajmer Singh Grewal

Title: Benefits of Medicinal Plants in Boosting Immunity against Viral Infections Including COVID-19

Title: Novel Cinnamic Acid Derivatives as Potential Anticancer Agents: Synthesis, In Vitro Cytotoxicity and Molecular Docking Studies

  • Journal: Biointerface Research in Applied Chemistry
  • Year: 2023
  • DOI: 10.33263/BRIAC132.150
  • EID: 2-s2.0-85127986213
  • Contributors: Kaur, P., Grewal, A.S., Pandita, D., Lather, V.

Title: Role of Medicinal Plants in the Management of Inflammatory Disorders: An Overview

  • Journal: Recent Advances in Inflammation & Allergy Drug Discovery
  • Year: 2023
  • DOI: 10.2174/2772270817666230227140659
  • WOSUID: WOS:001042798300004
  • Contributors: Garg, Madhukar; Sharma, Abhinav; Bansal, Shivam; Grover, Rupanshi; Sharma, Tanya; Kumari, Sapna; Goyal, Anju; Bhatia, Shiveena; Vaid, Lavish; Deswal, Geeta et al.

Research Timeline

Ameliaā€™s research timeline includes her initial work in the REU program in 2019, followed by her continued research and doctoral studies starting in 2020. Her current research involves ongoing studies of adsorption phenomena and DFT calculations. Key milestones include her presentations and publications from 2022 to 2024, reflecting the progression and impact of her research.

Collaborations and Projects

Ameliaā€™s research is collaborative, involving work with Dr. Sara Mason and Dr. Scott Shaw at the University of Iowa. Her projects include the study of molecular adsorption using computational methods and the development of educational materials for teaching collaborative science. Her collaborative efforts extend to presenting and publishing research findings in partnership with other chemists and educators.

Strengths of the Best Researcher Award

  1. Significant Research Contributions: Prof. Ajmer Singh Grewal’s extensive publication record demonstrates a deep and impactful contribution to drug discovery and medicinal chemistry. His research on naturally occurring chemicals and medicinal plants is highly relevant and influential.
  2. Diverse Research Topics: The breadth of his work, ranging from diabetes management to anticancer agents and antioxidant therapeutics, highlights his versatility and comprehensive approach to medicinal chemistry.
  3. High Citation Metrics: With 1,703 citations across 1,451 documents and an h-index of 19, Prof. Grewal’s work is well-recognized and respected in the scientific community, indicating significant influence and impact.
  4. Collaboration with Renowned Researchers: His collaborations with prominent researchers, such as Geeta Deswal and Ashwani Kumar Dhingra, enhance the quality and reach of his research, contributing to its high visibility and credibility.
  5. Recognition and Awards: The Best Researcher Award is a testament to Prof. Grewalā€™s contributions to the field. It acknowledges his excellence in research and his role in advancing drug discovery.

Areas for Improvement

  1. Research Focus Narrowing: While the diversity of research topics is a strength, narrowing the focus to a few key areas could lead to more in-depth studies and potentially more groundbreaking discoveries.
  2. Public Engagement: Increasing public engagement through popular science articles or community outreach can help translate his research into broader societal benefits and enhance public understanding of his work.
  3. Interdisciplinary Research: Expanding into interdisciplinary research areas, such as combining drug discovery with biotechnology or artificial intelligence, could provide new insights and opportunities for innovation.
  4. Collaborative Efforts: Although collaborations are strong, fostering new partnerships with institutions or researchers in different regions or fields could provide fresh perspectives and broaden the scope of research.
  5. Funding and Resources: Securing additional funding and resources could enhance research capabilities, allowing for more extensive studies and the development of new technologies or methodologies.

Conclusion

Prof. Ajmer Singh Grewal’s recognition with the Best Researcher Award reflects his outstanding contributions to the field of drug discovery and medicinal chemistry. His research spans a wide range of topics and has significantly impacted the scientific community, as evidenced by his high citation metrics and collaborative efforts. While there are areas for improvement, such as narrowing research focus and enhancing public engagement, Prof. Grewalā€™s accomplishments highlight his leadership and influence in advancing medicinal chemistry. His future work, potentially incorporating interdisciplinary approaches and expanded collaborations, promises to further elevate his impact on the field.