PEG–Lipid–PLGA Hybrid Particles for Targeted Delivery of Anti-Inflammatory Drugs

Ismail, Jana; Klepsch, Lea C.; Dahlke, Philipp; Tsarenko, Ekaterina; Vollrath, Antje; Pretzel, David; Jordan, Paul M.; Rezaei, Kourosh; Czaplewska, Justyna A.; Stumpf, Steffi; Beringer-Siemers, Baerbel; Nischang, Ivo; Hoeppener, Stephanie; Werz, Oliver; Schubert, Ulrich S.

doi:10.3390/pharmaceutics16020187

Pharmaceutics

2024

DOI: 10.3390/pharmaceutics16020187

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PEG–Lipid–PLGA Hybrid Particles for Targeted Delivery of Anti-Inflammatory Drugs

Jana Ismail,

Lea C. Klepsch,

Philipp Dahlke

et al.

Abstract: Hybrid nanoparticles (HNPs) were designed by combining a PLGA core with a lipid shell that incorporated PEG–Lipid conjugates with various functionalities (-RGD, -cRGD, -NH2, and -COOH) to create targeted drug delivery systems. Loaded with a neutral lipid orange dye, the HNPs were extensively characterized using various techniques and investigated for their uptake in human monocyte-derived macrophages (MDMs) using FC and CLSM. Moreover, the best-performing HNPs (i.e., HNP-COOH and HNP-RGD as well as HNP-RGD/COO… Show more

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Cited by 4 publications

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Enhancing diabetic wound healing through anti-bacterial and promoting angiogenesis using dual-functional slow-release microspheres-loaded dermal scaffolds

Hu,

Hou,

Yang

et al. 2024

Colloids and Surfaces B: Biointerfaces

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Enhancing diabetic wound healing through anti-bacterial and promoting angiogenesis using dual-functional slow-release microspheres-loaded dermal scaffolds

Hu,

Hou,

Yang

et al. 2024

Colloids and Surfaces B: Biointerfaces

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Unveiling the power of liquid chromatography in examining a library of degradable poly(2-oxazoline)s in nanomedicine applications

Tsarenko,

Göppert,

Dahlke

et al. 2024

J. Mater. Chem. B

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Emerging Trends in Hybrid Nanoparticles: Revolutionary Advances and Promising Biomedical Applications

Bhardwaj,

Khute,

Sahu

et al. 2024

CDM

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Modern nanostructures must fulfill a wide range of functions to be valuable, leading to the combination of various nano-objects into hierarchical assemblies. Hybrid Nanoparticles (HNPs), comprised of multiple types of nanoparticles, are emerging as nanoscale structures with versatile applications. HNPs offer enhanced medical benefits compared to basic combinations of distinct components. They address the limitations of traditional nanoparticle delivery systems, such as poor water solubility, nonspecific targeting, and suboptimal therapeutic outcomes. HNPs also facilitate the transition from anatomical to molecular imaging in lung cancer diagnosis, ensuring precision. In clinical settings, the selection of nanoplatforms with superior reproducibility, cost-effectiveness, easy preparation, and advanced functional and structural characteristics is paramount. This study aims toextensively examine hybrid nanoparticles, focusing on their classification, drug delivery mechanisms, properties of hybrid inorganic nanoparticles, advancements in hybrid nanoparticle technology, and their biomedical applications, particularly emphasizing the utilization of smart hybrid nanoparticles. PHNPs enable the delivery of numerous anticancer, anti-leishmanial, and antifungal drugs, enhancing cellular absorption, bioavailability, and targeted drug delivery while reducing toxic side effects.

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PEG–Lipid–PLGA Hybrid Particles for Targeted Delivery of Anti-Inflammatory Drugs

Cited by 4 publications

References 61 publications

Enhancing diabetic wound healing through anti-bacterial and promoting angiogenesis using dual-functional slow-release microspheres-loaded dermal scaffolds

Enhancing diabetic wound healing through anti-bacterial and promoting angiogenesis using dual-functional slow-release microspheres-loaded dermal scaffolds

Unveiling the power of liquid chromatography in examining a library of degradable poly(2-oxazoline)s in nanomedicine applications

Emerging Trends in Hybrid Nanoparticles: Revolutionary Advances and Promising Biomedical Applications

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