Exploring Analytical Methods for Glucose-Sensitive Membranes in Closed-Loop Insulin Delivery Using Akbar Ganji's Approach
| Autor: | Saranya, K., Suguna, M., Salahuddin |
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| Rok vydání: | 2024 |
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| Druh dokumentu: | Working Paper |
| Popis: | The research explores a novel mathematical model for closed loop insulin delivery systems, featuring a glucose sensitive membrane. It employs a sophisticated framework of nonlinear reaction diffusion equations and enzyme kinetics. Central to the study is the development of analytical solutions for the glucose, gluconic acid, and oxygen concentrations, which are meticulously validated against simulation outcomes. This validation underscores the model's accuracy in capturing the complex dynamics inherent in such systems. Additionally, the study leverages Akbar and Ganji's methodology to provide approximate solutions, enabling a comprehensive comparison with analytical results and offering deeper insights into the system's behavior under varying parameters. By integrating both analytical and approximate approaches, the research not only enhances our understanding of biochemical processes but also lays the groundwork for refining closed-loop insulin delivery technology. The findings promise to significantly improve the precision and efficacy of insulin administration, crucial for managing glucose levels in diabetic patients more effectively. Furthermore, the study's implications extend beyond insulin delivery, potentially informing the development of advanced biomedical systems where precise control and understanding of biochemical interactions are paramount. Ultimately, this work represents a significant contribution to both theoretical biochemistry and practical medical applications, setting a foundation for the next generation of closed-loop insulin delivery systems designed to better meet the complex metabolic needs of patients with diabetes. Comment: 27 pages, 23 figures |
| Databáze: | arXiv |
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