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Title: :  Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics
PaperId: :  26742
Published in:   International Journal Of Advance Research And Innovative Ideas In Education
Publisher:   IJARIIE
e-ISSN:   2395-4396
Volume/Issue:    Volume 11 Issue 3 2025
DUI:    16.0415/IJARIIE-26742
Licence: :   IJARIIE is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Author NameAuthor Institute
Pavan GowdaBangalore University

Abstract

machine learning
polymer composition, particle size, drug loading, pH sensitivity
The optimization of drug release kinetics from nanoparticles is crucial for the success of nanomedicine, particularly in precision-targeted therapies for infectious diseases, cancer, and chronic inflammatory conditions. The release profiles of nanoparticle-based drug delivery systems significantly influence therapeutic efficacy, systemic toxicity, and patient compliance. Traditional methods for tuning release profiles are often resource-intensive and fail to capture the complexity of the underlying factors. Recently, deep neural networks (DNNs) have emerged as powerful tools for modeling drug release kinetics by leveraging large experimental datasets to capture nonlinear relationships between variables such as polymer composition, particle size, drug loading, pH sensitivity, and more. DNNs provide predictive insights into drug release behaviour, even in cases where mechanistic understanding is incomplete. These models can be used to inversely predict optimal nanoparticle design parameters for achieving desired release profiles, thus accelerating the development of nanoparticle-based therapies. By combining DNNs with mechanistic models, hybrid frameworks are created that offer enhanced predictive accuracy and regulatory acceptance. Furthermore, advances in high-throughput screening and explainable AI techniques enable the generation of high-quality datasets and provide insights into the factors driving drug release. This integrated approach has the potential to streamline the design process for nanoparticle drug delivery systems, enhancing their efficacy and minimizing experimental costs.

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IJARIIE Pavan Gowda. "Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics" International Journal Of Advance Research And Innovative Ideas In Education Volume 11 Issue 3 2025 Page 2230-2232
MLA Pavan Gowda. "Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics." International Journal Of Advance Research And Innovative Ideas In Education 11.3(2025) : 2230-2232.
APA Pavan Gowda. (2025). Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics. International Journal Of Advance Research And Innovative Ideas In Education, 11(3), 2230-2232.
Chicago Pavan Gowda. "Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics." International Journal Of Advance Research And Innovative Ideas In Education 11, no. 3 (2025) : 2230-2232.
Oxford Pavan Gowda. 'Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics', International Journal Of Advance Research And Innovative Ideas In Education, vol. 11, no. 3, 2025, p. 2230-2232. Available from IJARIIE, https://ijariie.com/AdminUploadPdf/Deep_Neural_Networks_for_Enhancing_Nanoparticle_Drug_Release_Kinetics_ijariie26742.pdf (Accessed : ).
Harvard Pavan Gowda. (2025) 'Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics', International Journal Of Advance Research And Innovative Ideas In Education, 11(3), pp. 2230-2232IJARIIE [Online]. Available at: https://ijariie.com/AdminUploadPdf/Deep_Neural_Networks_for_Enhancing_Nanoparticle_Drug_Release_Kinetics_ijariie26742.pdf (Accessed : )
IEEE Pavan Gowda, "Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics," International Journal Of Advance Research And Innovative Ideas In Education, vol. 11, no. 3, pp. 2230-2232, May-Jun 2025. [Online]. Available: https://ijariie.com/AdminUploadPdf/Deep_Neural_Networks_for_Enhancing_Nanoparticle_Drug_Release_Kinetics_ijariie26742.pdf [Accessed : ].
Turabian Pavan Gowda. "Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics." International Journal Of Advance Research And Innovative Ideas In Education [Online]. volume 11 number 3 ().
Vancouver Pavan Gowda. Deep Neural Networks for Enhancing Nanoparticle Drug Release Kinetics. International Journal Of Advance Research And Innovative Ideas In Education [Internet]. 2025 [Cited : ]; 11(3) : 2230-2232. Available from: https://ijariie.com/AdminUploadPdf/Deep_Neural_Networks_for_Enhancing_Nanoparticle_Drug_Release_Kinetics_ijariie26742.pdf
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