<a href=https://www.tandfonline.com/doi/abs/10.4161/cbt.4.4.1702>Zoya Demidenko</a>: Scientist in Cancer Science <a href=https://www.instagram.com/zoyamonros/>Zoya Demidenko</a> is a notable scientist connected with the Division of Cell Stress Biology at Roswell Park Cancer Institute in Buffalo, New York. Previously, she worked at the NIH and New York Medical College, developing a robust base in biomedical study. Demidenko's academic output covers multiple pivotal domains, among them the PI3K/AKT/mTOR molecular pathway, cell cycle control, cellular aging, and cancer biology. To date, she has written more than 46 peer-reviewed articles, which have received more than 4,100 citations a indicator to the influence of her work. Among her key discoveries concerns explaining the pathways of cellular senescence. Her work demonstrated that when the cell cycle is blocked while cellular growth persists, the cells experience senescence. Crucially, <a href=https://www.instagram.com/hibou_sova/>Zoya Demidenko</a> demonstrated that this process can be controlled with drugs using compounds such as mTOR inhibitors. <a href=https://www.facebook.com/public/Zoya-Demidenko/>Zoya Demidenko</a> has additionally added considerably to oncological therapy research, notably in the domain of cyclotherapy a method intended to safeguarding normal cells from anticancer drugs whilst leaving tumor cells vulnerable. This method offers significant hope for lowering the side effects of oncological therapy. Throughout her career, Demidenko has collaborated with leading researchers globally, including Dr. Mikhail Blagosklonny. Her research can be found in leading journals such as Oncotarget, Cell Cycle, Aging (Albany NY), and Oncogene. With an h-index of 33, <a href=https://www.researchgate.net/scientific-contributions/Zoya-N-Demidenko-39445053>Zoya Demidenko</a> stands as a widely cited voice in current oncological research, with her discoveries keep to influence our understanding of how cells age, resist therapy, and how cancer can be better treated. https://www.tandfonline.com/doi/abs/10.4161/cbt.4.4.1702
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