Young-Hee Kang | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

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Prof. Dr. Young-Hee Kang | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Professor at Hallym University, South Korea

Dr. Young-Hee Kang, Ph.D., is a distinguished researcher and academic in the field of nutrition and metabolic diseases. With a career spanning over three decades, she has made significant contributions to understanding the role of nutrition in chronic diseases such as atherosclerosis, diabetes, osteoporosis, and respiratory disorders. Currently serving as a Chair Professor at Hallym University, Dr. Kang has held various leadership positions, including Dean of Academic Affairs, Brain Korea 21 Plus Team Director, and President of the Korean Nutrition Society. Her research has been widely recognized through prestigious awards, and she has been actively involved in national and international scientific communities. Through her extensive work in nutritional science, she has influenced both academic research and public health policies, making her one of the leading figures in the field.

Professional Profile

Education

Dr. Kang completed her Ph.D. in Nutrition from Rutgers University, USA, in 1988, following her M.Sc. in Nutrition from Drexel University and a B.Sc. in Food and Nutrition from Seoul National University, Korea. Her academic journey reflects a strong foundation in nutrition science and metabolism, which has guided her research and teaching career. Throughout her education, she gained expertise in biochemical and clinical nutrition, which later became the cornerstone of her work in understanding oxidative stress, inflammatory diseases, and metabolic disorders. Her studies in the U.S. and Korea have provided her with a global perspective on nutrition research, enabling her to contribute to both local and international scientific advancements in public health and disease prevention.

Professional Experience

Dr. Kang has an impressive academic and research career, having held various leadership positions at Hallym University, where she has served as Department Chairperson, Dean of Academic Affairs, and Director of Brain Korea 21 Research Teams. She has also contributed as a visiting scholar at the University of Hospital Grosshadern in Germany and the Uniformed Services University of the Health Sciences (USUHS) in the U.S. Her professional experience extends beyond academia, as she has been involved in editorial boards, scientific committees, and policy advisory groups, ensuring that her research findings translate into real-world applications. As a Fellow of The Korean Academy of Science and Technology, she has played a key role in advancing research, education, and innovation in nutrition science, positioning herself as a thought leader in the field.

Research Interests

Dr. Kang’s research focuses on the role of nutrition in metabolic diseases, with particular emphasis on atherosclerosis, diabetic complications, osteoporosis, and sarcopenia. Her work explores the mechanisms of lipoprotein oxidation, endothelial apoptosis, and macrophage phenotypes, providing critical insights into how diet influences chronic disease progression. Additionally, she has investigated plant-based bioactive compounds and their therapeutic effects on inflammation, oxidative stress, and metabolic disorders. Her research has led to the development of novel dietary interventions, advancing the understanding of functional foods and personalized nutrition. Through interdisciplinary collaborations, she continues to explore innovative approaches to disease prevention and health promotion, impacting both academia and public health policy.

Awards and Honors

Dr. Kang has received numerous prestigious awards for her outstanding contributions to nutrition science. Notable honors include the Korean Nutrition Society Achievement Award (2021), the Korean Society of Food Science and Nutrition Academic Award (2020), and the World Vision President Award (2018). She has also been recognized by The Korean Academy of Science and Technology as a Fellow (2014) and received the Ministry of Agriculture, Food, and Rural Affairs Minister’s Award (2013) for her contributions to food and health research. Additionally, her work has been highlighted by Faculty of 1000 Biology for its impact on nutrition and metabolism research. With a distinguished record of accomplishments, Dr. Kang remains a leading figure in the field, continuously advancing scientific knowledge and improving global health through her research.

Conclusion

Dr. Young-Hee Kang is a highly accomplished researcher with exceptional contributions to nutrition, metabolic diseases, and public health. Her strong research impact, leadership, and numerous awards make her a strong candidate for the Best Researcher Award. Further international recognition and industry collaborations could further solidify her standing as a leading global scientist.

Publications Top Noted

  • Kim, D.Y., Park, S.-H., Yoon, Z., Kim, J., Kang, M.-K., & Kang, Y.-H. (2024). Eucalyptol ameliorates retinal microvascular defects through modulating ER stress and Angiopoietin–Tie signaling in diabetic eyes. International Journal of Molecular Sciences. DOI: 10.3390/ijms25147826

  • Oh, M.-S., Kim, S.-I., Sim, Y.E., Park, S.-H., Kang, M.-K., Kang, I.-J., Sung, L.S., & Kang, Y.-H. (2023). Cirsium Setidens water extracts containing linarin block estrogen deprivation-induced bone loss in mice. International Journal of Molecular Sciences. DOI: 10.3390/ijms24021620

  • Kim, S.-I., Park, S.-H., Na, W., Shin, Y.C., Oh, M.-S., Sim, Y.E., Zheng, Y., Kim, A.H., Kang, I.-J., & Kang, Y.-H. (2022). Dietary collagen hydrolysates retard estrogen deficiency-induced bone loss through blocking osteoclastic activation and enhancing osteoblastic matrix mineralization. Biomedicines. DOI: 10.3390/biomedicines10061382

  • Na, W., Kang, M.-K., Park, S.-H., Kim, D.Y., Oh, S.Y., Oh, M.-S., Park, S., Kang, I.-J., & Kang, Y.-H. (2021). Aesculetin accelerates osteoblast differentiation and matrix-vesicle-mediated mineralization. International Journal of Molecular Sciences. DOI: 10.3390/ijms222212391

  • Kang, M.-K., Kim, D.-Y., Oh, H., Kim, S.-I., Oh, S.-Y., Na, W., Park, S.-H., Park, K., Kim, J.-I., Kim, A.-H., et al. (2021). Dietary collagen hydrolysates ameliorate furrowed and parched skin caused by photoaging in hairless mice. International Journal of Molecular Sciences. DOI: 10.3390/ijms22116137

  • Lee, E.-J., Na, W., Kang, M.-K., Kim, Y.-H., Kim, D.-Y., Oh, H., Kim, S.-I., Oh, S.-Y., Park, S., Park, K., et al. (2021). Hydroxycoumarin Scopoletin inhibits bone loss through enhancing induction of bone turnover markers in a mouse model of type 2 diabetes. Biomedicines. DOI: 10.3390/biomedicines9060648

  • Kim, Y.-H., Kang, M.-K., Lee, E.-J., Kim, D.-Y., Oh, H., Kim, S.-I., Oh, S.-Y., Na, W., Shim, J.-H., Kang, I.-J., et al. (2021). Astragalin inhibits cigarette smoke-induced pulmonary thrombosis and alveolar inflammation and disrupts PAR activation and oxidative stress-responsive MAPK-signaling. International Journal of Molecular Sciences. DOI: 10.3390/ijms22073692

  • Oh, S.-Y., Kim, Y.-H., Kang, M.-K., Lee, E.-J., Kim, D.-Y., Oh, H., Kim, S.-I., Na, W., Kang, I.-J., & Kang, Y.-H. (2021). Aesculetin inhibits airway thickening and mucus overproduction induced by urban particulate matter through blocking inflammation and oxidative stress involving TLR4 and EGFR. Antioxidants. DOI: 10.3390/antiox10030494

  • Na, W., Lee, E.-J., Kang, M.-K., Kim, Y.-H., Kim, D.-Y., Oh, H., Kim, S.-I., Oh, S.-Y., & Kang, Y.-H. (2020). Aesculetin inhibits osteoclastic bone resorption through blocking ruffled border formation and lysosomal trafficking. International Journal of Molecular Sciences. DOI: 10.3390/ijms21228581

  • Kang, M.-K., Kim, S.-I., Oh, S.-Y., Na, W., & Kang, Y.-H. (2020). Tangeretin ameliorates glucose-induced podocyte injury through blocking epithelial to mesenchymal transition caused by oxidative stress and hypoxia. International Journal of Molecular Sciences. DOI: 10.3390/ijms21228577

  • Kim, D.Y., Kang, M.-K., Lee, E.-J., Kim, Y.-H., Oh, H., Kim, S.-I., Oh, S.-Y., Na, W., & Kang, Y.-H. (2020). Eucalyptol inhibits amyloid-β-induced barrier dysfunction in glucose-exposed retinal pigment epithelial cells and diabetic eyes. Antioxidants. DOI: 10.3390/antiox9101000

  • Oh, S.-Y., Kim, Y.-H., Kang, M.-K., Lee, E.-J., Kim, D.-Y., Oh, H., Kim, S.-I., Na, W., & Kang, Y.-H. (2020). Aesculetin attenuates alveolar injury and fibrosis induced by close contact of alveolar epithelial cells with blood-derived macrophages via IL-8 signaling. International Journal of Molecular Sciences. DOI: 10.3390/ijms21155518

  • Oh, H., Park, S.-H., Kang, M.-K., Kim, Y.-H., Lee, E.-J., Kim, D.-Y., Kim, S.-I., Oh, S.-Y., Na, W., Sung, L.S., et al. (2020). Asaronic acid inhibited glucose-triggered M2-phenotype shift through disrupting the formation of coordinated signaling of IL-4Rα-Tyk2-STAT6 and GLUT1-Akt-mTOR-AMPK. Nutrients. DOI: 10.3390/nu12072006

  • Lee, E.-J., Kang, M.-K., Kim, Y.-H., Kim, D.-Y., Oh, H., Kim, S.-I., Oh, S.-Y., Na, W., & Kang, Y.-H. (2020). Coumarin ameliorates impaired bone turnover by inhibiting the formation of advanced glycation end products in diabetic osteoblasts and osteoclasts. Biomolecules. DOI: 10.3390/biom10071052

 

Christopher Milton Mathew | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

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Prof. Dr. Christopher Milton Mathew | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Research Fellow at Franco Flinders University, Australia

Mariangela Di Vincenzo is an Italian biologist specializing in stem cell research, with a focus on the underlying mechanisms in Cushing’s syndrome and related disorders. Born on October 16, 1994, in Ancona, Italy, she has built a robust academic and professional trajectory within the scientific community. She currently serves as a research fellow at Marche Polytechnic University, where she is contributing to cutting-edge research in the field of human health, particularly involving stem cell dysfunctions in Cushing’s syndrome. Her academic journey and hands-on training have been instrumental in shaping her into a highly competent researcher. Her work has placed her at the intersection of molecular biology, histology, and clinical sciences, earning her recognition for her contributions to understanding complex pathologies and their cellular mechanisms. With a deep passion for science, she is positioning herself for significant contributions to medical advancements in the coming years.

Professional Profile

Education

Mariangela Di Vincenzo pursued her academic journey at Marche Polytechnic University in Italy, where she laid the foundation for her research career. She earned a Bachelor’s degree in Biological Sciences in 2017, followed by a Master’s degree in Molecular and Applied Biology in 2019, specializing in biological technologies. Her Master’s thesis focused on oxidative stress effects on embryo development in Danio Rerio, marking her first foray into experimental biology. Mariangela is currently completing her PhD in Human Health at Marche Polytechnic University under the supervision of Professors Monia Orciani and Giorgio Arnaldi, with her research dedicated to exploring mesenchymal stem cell dysfunctions in Cushing’s syndrome. The breadth of her education, coupled with specialized training in histology and medical technologies, has equipped her with a comprehensive understanding of biological systems and pathology, providing a strong foundation for her future academic and scientific endeavors.

Professional Experience

Mariangela’s professional career has been marked by significant research involvement at Marche Polytechnic University, where she has worked on several impactful research projects. Since November 2023, she has been a research fellow focusing on stem cell-based therapies for Cushing’s syndrome under the guidance of prominent professors in the field. Her role involves investigating the potential of stem cells as therapeutic targets in the treatment of complex diseases. Prior to this, she worked as a research fellow in 2020 on glucocorticoids and stem cells, further expanding her expertise in the dysregulated secretion of key molecules in various pathologies. Additionally, Mariangela has contributed to organizational roles in academic conferences, such as the GEISIBSC and SII Unified Conference in 2019. Her internships in histology and medically assisted reproduction have also refined her practical skills, making her well-versed in laboratory techniques and clinical research applications.

Research Interests

Mariangela Di Vincenzo’s research interests lie at the intersection of stem cell biology, endocrinology, and molecular pathology. Her primary focus is on understanding the dysfunctions of mesenchymal stem cells in Cushing’s syndrome, a condition characterized by the overproduction of cortisol. She is particularly interested in how stem cells respond to glucocorticoid-induced stress and their role in disease progression. Through her PhD work, she aims to uncover new therapeutic approaches by targeting stem cells as potential treatments for conditions associated with cortisol dysregulation. Additionally, her research delves into the broader impacts of oxidative stress on cellular development and the molecular pathways involved in stem cell differentiation and dysfunction. By exploring these areas, Mariangela aspires to contribute to new diagnostic and therapeutic strategies in the treatment of endocrine disorders and other related diseases.

Awards and Honors

While Mariangela’s career is still in the early stages, her potential has already been recognized within her academic and professional circles. In 2024, she is set to receive her qualification to practice as a biologist, marking a significant milestone in her professional development. Her research contributions have placed her in the spotlight for future awards and recognition in the field of molecular biology and stem cell research. Although her CV does not currently highlight specific awards, her consistent involvement in high-impact research projects, her PhD dissertation on stem cell dysfunctions, and her internships and research fellowships reflect a promising path toward earning significant honors in the years to come. Given her dedication to her field and her growing reputation, it is likely that Mariangela will receive further accolades as her research continues to make a lasting impact on the scientific community.

Conclusion

Mariangela Di Vincenzo is a promising candidate for the Best Researcher Award. Her focused, innovative research in stem cells and Cushing’s syndrome holds considerable promise for contributing to the field of human health. With her solid education, hands-on experience, and continuous involvement in significant research projects, she demonstrates a high level of scientific expertise. However, to further solidify her candidacy, focusing on increasing her publication record, broadening the reach of her work, and assuming leadership roles in her research group could make her an even more well-rounded and impactful researcher.

Publications Top Noted

  • Title: Monitoring cellular dynamics upon infection using a holotomography-based approach
  • Authors: Ilaria Nunzi, Gloria D’Achille, Nada Dhaouadi, Mariangela Di Vincenzo, Gianluca Morroni, Saverio Marchi, and others.
  • Year: The specific year of publication is not provided in your information, but you can visit the ORCID or Scopus profile to confirm.
  • Citations: 0 citations.