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Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.12710/27016
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dc.contributor.authorIapăscurtă, Victor-
dc.date.accessioned2024-04-18T10:27:55Z-
dc.date.available2024-04-18T10:27:55Z-
dc.date.issued2024-
dc.identifier.citationIAPĂSCURTĂ, Victor. Agent-based modeling: revolutionizing tissue engineering. In: Cells and Tissues Transplantation. Actualities and Perspectives: the materials of the nat. scientific conf. with internat. particip., the 2nd ed. Chisinau, March 29-30th 2024: [abstracts]. Chişinău: CEP Medicina, 2024, p. 9. ISBN 978-9975-82-366-1.en_US
dc.identifier.isbn978-9975-82-366-1-
dc.identifier.urihttp://repository.usmf.md/handle/20.500.12710/27016-
dc.description.abstracttissues to replace or repair damaged organs. Achieving success in tissue engineering requires a deep understanding of complex cellular behaviors and interactions. Traditional research methods, while valuable, may not fully capture the intricate dynamics within a living system. In recent years, agentbased modeling (ABM) has emerged as a powerful tool for simulating and understanding these complex processes. This paper explores the use of ABM in tissue engineering and its potential to revolutionize the field. Materials and methods. There are several ABM integrated development environments (IDE), to name a few: AnyLogic, Repast, MASON, Swarm, and others. Results. For the purpose of this research, the NetLogo IDE is used. It can provide valuable insights concerning such aspects of tissue engineering as (a) Understanding Cellular Behaviors through modeling individual cells as autonomous agents, each with its own set of rules and behaviors; (b) Simulating Tissue Development by providing a dynamic model that can account for factors such as cell density, extracellular matrix composition, and mechanical forces, allowing for a more realistic representation of tissue formation; (c) Predicting and Optimizing Scaffold Design via the aid in predicting and optimizing scaffold design; (d) Studying Disease Progression and Treatment, (e) Bridging the Gap Between Experimental and Clinical Applications by reducing costs, time, and the number of animal experiments required, while increasing the likelihood of successful clinical translation. Some of the applications elaborated by the author that can serve as leverage for future models are available at https://modelingcommons.org/account/models/2495 Conclusions. Agent-based modeling offers a novel and powerful approach to the field of tissue engineering. By simulating and understanding cellular behaviors, tissue development, scaffold design, disease progression, and treatment strategies, ABM has the potential to revolutionize the way we approach tissue engineering challenges. The predictive capabilities of ABM can accelerate research, streamline experimental design, and ultimately lead to more successful clinical applications. As computational tools and techniques continue to advance, the integration of ABM in tissue engineering will undoubtedly play a pivotal role in shaping the future of regenerative medicine.en_US
dc.language.isoenen_US
dc.publisherCEP Medicinaen_US
dc.relation.ispartofCells and tissues transplantation. Actualities and perspectives. The 2-nd edition. Chisinau, March 29-30th 2024en_US
dc.subjectagent-based modelingen_US
dc.subjecttissue engineeringen_US
dc.subjectsoftware applicationsen_US
dc.subjectcomplex processesen_US
dc.titleAgent-based modeling: revolutionizing tissue engineeringen_US
dc.typeOtheren_US
Appears in Collections:The Materials of the National Scientific Conference with International Participation, the 2nd edition, Chisinau, March 29-30th 2024: [Abstracts]

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