Browsing by Author "Geyik, Öykü Gönül"

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    Citation - WoS: 16
    Citation - Scopus: 40
    Current Evaluation and Recommendations for the Use of Artificial Intelligence Tools in Education
    (Walter De Gruyter Gmbh, 2023) Sagin, Ferhan Girgin; Özkaya, Ali Burak; Tengiz, Funda; Geyik, Öykü Gönül; Geyik, Caner
    This paper discusses the integration of artificial intelligence (AI) tools in education, delineating their potential to transform pedagogical practices alongside the challenges they present. Generative AI models like ChatGPT, had a disruptive impact on teaching and learning, due to their ability to create text, images, and sound, revolutionizing educational content creation and modification. However, nowadays the educational community is polarized, with some embracing AI for its accessibility and efficiency thus advocating it as an indispensable tool, while others cautioning against risks to academic integrity and intellectual development. This document is designed to raise awareness about AI tools and provide some examples of how they can be used to improve education and learning. From an educator's perspective, AI is an asset for curriculum development, course material preparation, instructional design and student assessment, while reducing bias and workload. For students, AI tools offer personalized learning experiences, timely feedback, and support in various academic activities. The Turkish Biochemical Society (TBS) Academy recommends educators to embrace and utilize AI tools to enhance educational processes, and engage in peer learning for better adaptation while maintaining a critical perspective on their utility and limitations. The transfer of AI knowledge and methods to the teaching experiences should complement and not replace the educator's creativity and critical thinking. The paper advocates for an informed embrace of AI, AI fluency among educators and students, ethical application of AI in academic settings, and continuous engagement with the evolving AI technologies, ensuring that AI tools are used to augment critical thinking and contribute positively to education and society.
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    Article
    ?-Hydroxybutyrate Does Not Influence Viability and Clonogenicity of A549 Lung Cancer Cells
    (2023) Özkaya, Ali Burak; Malcanlı, Semanur; Geyik, Öykü Gönül
    Background/Purpose: The metabolic shift from catabolism of carbohydrates to lipids results in production of ketone bodies leading to a state called ketosis. Ketosis via ketone supplement or ketogenic diet has been proposed as a non-toxic therapeutic option for a broad range of malignancies. Although the clinical impact of ketogenic diet is well-documented, the effect of ketone bodies on cancer cell biology is not clear for some cancers including non-small-cell lung cancer (NSCLC). In this study, we aimed to demonstrate the effects of the most prominent ketone body, ?-hydroxybutyrate, on a NSCLC cell line, A549. Methods: A549 cell line was utilized as the in vitro model in this study. The effects of different ?-hydroxybutyrate concentrations on cell viability were measured via sulphorodamine-B (SRB) viability assay. Long term effects of ketosis were evaluated via colony formation assay. Finally, the effect of ?-hydroxybutyrate on cell migration was determined via scratch assay. Results: Our results suggest that introduction of ?-hydroxybutyrate in physiologically relevant concentrations into the cell culture media does not influence cell viability, clonogenicity or migration. Conclusion: ?-hydroxybutyrate has been previously demonstrated to induce, inhibit or does not influence the viability of different cell lines but there is no report regarding its effects on NSCLC cells. Here we report that physiologically relevant concentrations of ?-hydroxybutyrate have no effect on viability, clonogenicity and migration of A549 cells.
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    Article
    Prolonged Β-Hydroxybutyrate Ketosis Enhances Ponatinib Response of K562 Chronic Myeloid Leukaemia Cells
    (Dokuz Eylul Univ inst Health Sciences, 2025) Özkaya, Ali Burak; Geyik, Öykü Gönül; Malcanlı, Senanur
    Purpose: Ketosis is a metabolic state characterized by production of ketone bodies, including acetoacetate, β-hydroxybutyrate (BHB), and acetone, in response to reduced blood glucose levels. BHB stands out as the principal ketone body in nutritional ketosis which has diverse therapeutic implications for metabolic, nondegenerative and neoplastic disorders. In current study we investigated the impact of ketosis on chronic myeloid leukaemia (CML) cell viability and drug response. Materials and Methods: We investigated the impact of BHB-mediated ketosis on the viability of K562 cells, an in vitro model of CML, and explored the influence of BHB on the sensitivity of these cells to ponatinib, a multi-targeted tyrosine kinase inhibitor used in CML treatment. We used MTT assay to measure cell viability and Hoechst/PI assay to measure cell death. Results: Our findings reveal that BHB concentrations ranging from 1 mM to 5 mM, which fall within the physiological range of ketosis, elicit a minimal yet concentration-dependent reduction in cell viability. We also observed that while a 24-hour pre-treatment with BHB did not enhance the response of K562 cells to ponatinib, prolonged ketosis (4 days) improved response of cells to the drug by decreasing final cell viability from 25.15% to 13.12%. The primary mode of viability inhibition by ponatinib was cell death which was further intensified by exposure to prolonged ketosis. Conclusion: Ketosis induced by ketogenic diet of ketone body supplementation is considered as safe and effective adjuvant cancer therapy options and here, we report its potential effectiveness in the context of CML.