AI Article Synopsis
- - Gold nanorods (AuNRs) are gaining attention in the biomedical field due to their unique properties that allow for advanced treatments using various stimuli like magnetic fields, pH, and light.
- - These nanorods are versatile for targeted therapy, imaging, and drug delivery, with the potential for enhanced control when using dual or multi-stimuli responses.
- - The review summarizes the improvements in therapeutic effectiveness and drug release control with AuNRs, discusses recent design strategies, and addresses current challenges and future prospects for clinical use.
Article Abstract
In recent years, the use of gold nanorods (AuNRs) has garnered considerable attention in biomedical applications due to their unique optical and physicochemical properties. They have been considered as potential tools for the advanced treatment of diseases by various stimuli such as magnetic fields, pH, temperature and light in the fields of targeted therapy, imaging and drug delivery. Their biocompatibility and tunable plasmonic properties make them a versatile platform for a range of biomedical applications. While endogenous stimuli have limited cargo delivery control at specific sites, exogenous stimuli are a more favored approach despite their circumscribed penetration depth for releasing the cargo at the specific target. Dual/multi-stimuli responsive AuNTs can be triggered by multiple stimuli for enhanced control and specificity in biomedical applications. This review provides to provide a summary of the biomedical applications of stimuli-responsive AuNRs, including their endogenous and exogenous properties, as well as their dual/multi-functionality and potential for clinical delivery. This review provides a comprehensive review on the improvement of therapeutic efficacy and the effective control of drug release with AuNRs, highlights AuNRs design strategies in recent years, discusses the advantages or challenges so far in the field of AuNRs. Finally, we have addressed the clinical translation bio-integrated nanoassemblies (CTBNs) in this field.
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| http://dx.doi.org/10.1016/j.biopha.2024.117493 | DOI Listing |
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