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Towards feedback-controlled nanomedicines for smart, adaptive delivery

Towards feedback-controlled nanomedicines for smart, adaptive delivery
Towards feedback-controlled nanomedicines for smart, adaptive delivery
Nanomedicines for controlled drug release provide temporal and spatial regulation of drug bioavailability in the body. The timing of drug release is usually engineered either for slow gradual release over an extended period of time or for rapid release triggered by a specific change in its physicochemical environment. However, between these two extremes, there is the desirable possibility of adaptive nanomedicines that dynamically modulate drug release in tune with its changing environment. Adaptation and response through communication with its environment is a fundamental trait of living systems; therefore, the design of biomimetic nanomedicines through the approaches of bottom-up synthetic biology provides a viable route to this goal. This could enable drug delivery systems to optimize release in synchronicity with the body’s natural biological rhythms and the personalized physiological characteristics of the patient, e.g. their metabolic rate. Living systems achieve this responsiveness through feedback-controlled biochemical processes that regulate their functional outputs. Towards this goal of adaptive drug delivery systems, we review the general benefits of nanomedicine formulations, provide existing examples of experimental nanomedicines that encapsulate the metabolic function of enzymes, and give relevant examples of feedback-controlled chemical systems. These are the underpinning concepts that hold promise to be combined to form novel adaptive release systems. Furthermore, we motivate the advantages of adaptive release through chronobiological examples. By providing a brief review of these topics and an assessment of the state of the art, we aim to provide a useful resource to accelerate developments in this field.
1535-3702
283-293
Jones, Stephen J.
5757fb8c-847f-48ac-a749-e12be9e913b1
Taylor, Annette F.
08028a29-428d-4732-b6b1-f7a93389b386
Beales, Paul A.
920bef12-e354-4ff6-a528-9cab2227f32e
Jones, Stephen J.
5757fb8c-847f-48ac-a749-e12be9e913b1
Taylor, Annette F.
08028a29-428d-4732-b6b1-f7a93389b386
Beales, Paul A.
920bef12-e354-4ff6-a528-9cab2227f32e

Jones, Stephen J., Taylor, Annette F. and Beales, Paul A. (2018) Towards feedback-controlled nanomedicines for smart, adaptive delivery. Experimental Biology and Medicine, 244 (4), 283-293. (doi:10.1177/1535370218800456).

Record type: Article

Abstract

Nanomedicines for controlled drug release provide temporal and spatial regulation of drug bioavailability in the body. The timing of drug release is usually engineered either for slow gradual release over an extended period of time or for rapid release triggered by a specific change in its physicochemical environment. However, between these two extremes, there is the desirable possibility of adaptive nanomedicines that dynamically modulate drug release in tune with its changing environment. Adaptation and response through communication with its environment is a fundamental trait of living systems; therefore, the design of biomimetic nanomedicines through the approaches of bottom-up synthetic biology provides a viable route to this goal. This could enable drug delivery systems to optimize release in synchronicity with the body’s natural biological rhythms and the personalized physiological characteristics of the patient, e.g. their metabolic rate. Living systems achieve this responsiveness through feedback-controlled biochemical processes that regulate their functional outputs. Towards this goal of adaptive drug delivery systems, we review the general benefits of nanomedicine formulations, provide existing examples of experimental nanomedicines that encapsulate the metabolic function of enzymes, and give relevant examples of feedback-controlled chemical systems. These are the underpinning concepts that hold promise to be combined to form novel adaptive release systems. Furthermore, we motivate the advantages of adaptive release through chronobiological examples. By providing a brief review of these topics and an assessment of the state of the art, we aim to provide a useful resource to accelerate developments in this field.

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e-pub ahead of print date: 11 September 2018
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Identifiers

Local EPrints ID: 499293
URI: http://eprints.soton.ac.uk/id/eprint/499293
DOI: doi:10.1177/1535370218800456
ISSN: 1535-3702
PURE UUID: 37d96bd8-28cb-424f-821b-3b5f5a2d7a9e
ORCID for Annette F. Taylor: ORCID iD orcid.org/0000-0003-0071-8306

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Date deposited: 14 Mar 2025 17:33
Last modified: 15 Mar 2025 03:14

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Contributors

Author: Stephen J. Jones
Author: Annette F. Taylor ORCID iD
Author: Paul A. Beales

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