聚合物微针阵列临床应用全景综述。

IF 3 4区医学 Q3 ENGINEERING, BIOMEDICAL

Biomedical Microdevices Pub Date : 2024-09-23 DOI:10.1007/s10544-024-00724-z

Tien Dat Nguyen, Thi-Hiep Nguyen, Van Toi Vo, Thanh-Qua Nguyen

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引用次数: 0

摘要

透皮给药（TDD）能够防止药物在胃肠道降解并避免肝脏代谢，因此近年来大大推动了医疗实践的发展。在现有的各种方法中，微针阵列（MNAs）技术是一种令人着迷的给药工具，它能无痛、微创地穿透角质层，给药抗菌、抗真菌和抗病毒药物，从而提高了透皮给药的效果。聚合物 MNA 具有生物降解性、生物相容性和低毒性，在众多可用材料中得到广泛应用。因此，本综述从了解角质层和开发 MNA 技术入手，对聚合物 MNA 进行了全面讨论。此外，还适当概述了聚合 MNA 在临床应用中的工程概念、基本考虑因素、挑战和未来前景，为聚合 MNA 及其在广泛临床应用中的潜力提供了全面而独特的概述。

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Panoramic review on polymeric microneedle arrays for clinical applications

Transdermal drug delivery (TDD) has significantly advanced medical practice in recent years due to its ability to prevent the degradation of substances in the gastrointestinal tract and avoid hepatic metabolism. Among different available approaches, microneedle arrays (MNAs) technology represents a fascinating delivery tool for enhancing TDD by penetrating the stratum corneum painless and minimally invasive for delivering antibacterial, antifungal, and antiviral medications. Polymeric MNAs are extensively utilized among many available materials due to their biodegradability, biocompatibility, and low toxicity. Therefore, this review provides a comprehensive discussion of polymeric MNAs, starting with understanding stratum corneum and developing MNA technology. Furthermore, the engineering concepts, fundamental considerations, challenges, and future perspectives of polymeric MNAs in clinical applications are properly outlined, offering a comprehensive and unique overview of polymeric MNAs and their potential for a broad spectrum of clinical applications.

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来源期刊

Biomedical Microdevices 工程技术-工程：生物医学

CiteScore

6.90

自引率

3.60%

发文量

审稿时长

6 months

期刊介绍： Biomedical Microdevices: BioMEMS and Biomedical Nanotechnology is an interdisciplinary periodical devoted to all aspects of research in the medical diagnostic and therapeutic applications of Micro-Electro-Mechanical Systems (BioMEMS) and nanotechnology for medicine and biology. General subjects of interest include the design, characterization, testing, modeling and clinical validation of microfabricated systems, and their integration on-chip and in larger functional units. The specific interests of the Journal include systems for neural stimulation and recording, bioseparation technologies such as nanofilters and electrophoretic equipment, miniaturized analytic and DNA identification systems, biosensors, and micro/nanotechnologies for cell and tissue research, tissue engineering, cell transplantation, and the controlled release of drugs and biological molecules. Contributions reporting on fundamental and applied investigations of the material science, biochemistry, and physics of biomedical microdevices and nanotechnology are encouraged. A non-exhaustive list of fields of interest includes: nanoparticle synthesis, characterization, and validation of therapeutic or imaging efficacy in animal models; biocompatibility; biochemical modification of microfabricated devices, with reference to non-specific protein adsorption, and the active immobilization and patterning of proteins on micro/nanofabricated surfaces; the dynamics of fluids in micro-and-nano-fabricated channels; the electromechanical and structural response of micro/nanofabricated systems; the interactions of microdevices with cells and tissues, including biocompatibility and biodegradation studies; variations in the characteristics of the systems as a function of the micro/nanofabrication parameters.