Recent Progress in Implantable Drug Delivery Systems

In recent years, tremendous effort is devoted to developing platforms, such as implantable drug delivery systems (IDDSs), with temporally and spatially controlled drug release capabilities and improved adherence. IDDSs have multiple advantages: i) the timing and location of drug delivery can be cont...

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Veröffentlicht in:	Advanced materials (Weinheim) 2024-06, Vol.36 (23), p.e2312530-n/a
Hauptverfasser:	He, Guang‐Qin, Li, Haimei, Liu, Junyi, Hu, Yu‐Lin, Liu, Yi, Wang, Zhong Lin, Jiang, Peng
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals controlled release drug delivery Drug Delivery Systems Drug Implants - chemistry Drug Liberation Electricity Humans implantable Magnetism response mechanism Side effects Stimuli stimulus‐responsive
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creator	He, Guang‐Qin Li, Haimei Liu, Junyi Hu, Yu‐Lin Liu, Yi Wang, Zhong Lin Jiang, Peng
description	In recent years, tremendous effort is devoted to developing platforms, such as implantable drug delivery systems (IDDSs), with temporally and spatially controlled drug release capabilities and improved adherence. IDDSs have multiple advantages: i) the timing and location of drug delivery can be controlled by patients using specific stimuli (light, sound, electricity, magnetism, etc.). Some intelligent “closed‐loop” IDDS can even realize self‐management without human participation. ii) IDDSs enable continuous and stable delivery of drugs over a long period (months to years) and iii) to administer drugs directly to the lesion, thereby helping reduce dosage and side effects. iv) IDDSs enable personalized drug delivery according to patient needs. The high demand for such systems has prompted scientists to make efforts to develop intelligent IDDS. In this review, several common stimulus‐responsive mechanisms including endogenous (e.g., pH, reactive oxygen species, proteins, etc.) and exogenous stimuli (e.g., light, sound, electricity, magnetism, etc.), are given in detail. Besides, several types of IDDS reported in recent years are reviewed, including various stimulus‐responsive systems based on the above mechanisms, radio frequency‐controlled IDDS, “closed‐loop” IDDS, self‐powered IDDS, etc. Finally, the advantages and disadvantages of various IDDS, bottleneck problems, and possible solutions are analyzed to provide directions for subsequent research. This review details the recent progress of implantable drug delivery systems (IDDSs) with spatiotemporally‐controlled drug release capabilities. The stimulus‐responsive mechanisms, including endogenous (e.g., pH, reactive oxygen species, etc.) and exogenous stimuli (e.g., light, electricity, magnetism, etc.) are reviewed. The advantages and disadvantages of various IDDSs, bottleneck problems, and possible solutions are discussed.
doi_str_mv	10.1002/adma.202312530
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IDDSs have multiple advantages: i) the timing and location of drug delivery can be controlled by patients using specific stimuli (light, sound, electricity, magnetism, etc.). Some intelligent “closed‐loop” IDDS can even realize self‐management without human participation. ii) IDDSs enable continuous and stable delivery of drugs over a long period (months to years) and iii) to administer drugs directly to the lesion, thereby helping reduce dosage and side effects. iv) IDDSs enable personalized drug delivery according to patient needs. The high demand for such systems has prompted scientists to make efforts to develop intelligent IDDS. In this review, several common stimulus‐responsive mechanisms including endogenous (e.g., pH, reactive oxygen species, proteins, etc.) and exogenous stimuli (e.g., light, sound, electricity, magnetism, etc.), are given in detail. Besides, several types of IDDS reported in recent years are reviewed, including various stimulus‐responsive systems based on the above mechanisms, radio frequency‐controlled IDDS, “closed‐loop” IDDS, self‐powered IDDS, etc. Finally, the advantages and disadvantages of various IDDS, bottleneck problems, and possible solutions are analyzed to provide directions for subsequent research. This review details the recent progress of implantable drug delivery systems (IDDSs) with spatiotemporally‐controlled drug release capabilities. The stimulus‐responsive mechanisms, including endogenous (e.g., pH, reactive oxygen species, etc.) and exogenous stimuli (e.g., light, electricity, magnetism, etc.) are reviewed. 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Besides, several types of IDDS reported in recent years are reviewed, including various stimulus‐responsive systems based on the above mechanisms, radio frequency‐controlled IDDS, “closed‐loop” IDDS, self‐powered IDDS, etc. Finally, the advantages and disadvantages of various IDDS, bottleneck problems, and possible solutions are analyzed to provide directions for subsequent research. This review details the recent progress of implantable drug delivery systems (IDDSs) with spatiotemporally‐controlled drug release capabilities. The stimulus‐responsive mechanisms, including endogenous (e.g., pH, reactive oxygen species, etc.) and exogenous stimuli (e.g., light, electricity, magnetism, etc.) are reviewed. 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subjects	Animals controlled release drug delivery Drug Delivery Systems Drug Implants - chemistry Drug Liberation Electricity Humans implantable Magnetism response mechanism Side effects Stimuli stimulus‐responsive
title	Recent Progress in Implantable Drug Delivery Systems
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