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Conventional drug delivery systems often lack the ability to adapt to the individual needs of patients. Feedback-regulated systems, an emerging field, aim to address this by incorporating responsive mechanisms that adjust drug release based on real-time physiological or disease- specific feedback signals, thereby addressing this issue. These systems hold immense potential for personalized and precise therapy, offering several advantages: Enhanced therapeutic efficacy: By adjusting drug release based on individual needs, feedback-regulated systems can potentially achieve optimal therapeutic levels while minimizing side effects. Reduced dosing frequency Continuous monitoring and adaptation can allow for less frequent dosing, improving patient adherence and reducing the risk of missed doses, thereby improving treatment compliance. Improved safety: The ability to respond to changes in a patient's condition can help prevent overdosing or underdosing, leading to safer treatment regimens and better patient outcomes.Despite the promise, challenges remain in developing robust and reliable feedback mechanisms, ensuring biocompatibility and safety, and navigating regulatory hurdles, which must be addressed to fully realize the potential of feedback-regulated drug delivery systems. Nevertheless, ongoing research suggests that feedback-regulated drug delivery systems have the potential to revolutionize personalized medicine, offering tailored and effective treatments for a wide range of diseases. This could significantly improve patient outcomes.

Copyright © 2025 Thorat Dhanraj Sunil . This is an open access article distributed under the Creative Commons Attribution License.