Adhesive liposomes loaded onto an injectable, self-healing and antibacterial hydrogel for promoting bone reconstruction

Liu, Lili; Xiang, Yi; Wang, Zhen; Yang, Xiaonan; Yu, Xiaohua; Lü, Yong; Deng, Lianfu; Cui, Wenguo

doi:10.1038/s41427-019-0185-z

Cited by 68 publications

(49 citation statements)

References 51 publications

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“…The system could be used for the treatment of bone cavity damage and reduces the risk of postoperative infections. The presence of silver ions in the adhesive liposome PEG gel system showed effective inhibition of S. aureus and E. coli pathogens [73].…”

Section: -Liposomes-hydrogel Systemmentioning

confidence: 99%

Nanomedicine Fight against Antibacterial Resistance: An Overview of the Recent Pharmaceutical Innovations

et al. 2020

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Based on the recent reports of World Health Organization, increased antibiotic resistance prevalence among bacteria represents the greatest challenge to human health. In addition, the poor solubility, stability, and side effects that lead to inefficiency of the current antibacterial therapy prompted the researchers to explore new innovative strategies to overcome such resilient microbes. Hence, novel antibiotic delivery systems are in high demand. Nanotechnology has attracted considerable interest due to their favored physicochemical properties, drug targeting efficiency, enhanced uptake, and biodistribution. The present review focuses on the recent applications of organic (liposomes, lipid-based nanoparticles, polymeric micelles, and polymeric nanoparticles), and inorganic (silver, silica, magnetic, zinc oxide (ZnO), cobalt, selenium, and cadmium) nanosystems in the domain of antibacterial delivery. We provide a concise description of the characteristics of each system that render it suitable as an antibacterial delivery agent. We also highlight the recent promising innovations used to overcome antibacterial resistance, including the use of lipid polymer nanoparticles, nonlamellar liquid crystalline nanoparticles, anti-microbial oligonucleotides, smart responsive materials, cationic peptides, and natural compounds. We further discuss the applications of antimicrobial photodynamic therapy, combination drug therapy, nano antibiotic strategy, and phage therapy, and their impact on evading antibacterial resistance. Finally, we report on the formulations that made their way towards clinical application.

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Section: -Liposomes-hydrogel Systemmentioning

confidence: 99%

Nanomedicine Fight against Antibacterial Resistance: An Overview of the Recent Pharmaceutical Innovations

et al. 2020

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“…This system showed good potential for the repair of the local damaged bone cavity. [ 126 ] However, the A‐LIP released by A‐LIPPEG markedly increased the relative fluorescence intensity (100 ± 20%) as an indicator of osteocalcin (OCN) expression (green), whereas LIP‐PEG and control groups exhibited very weaker fluorescence intensity (46 ± 8%, and 4 ± 1%, respectively), indicating high potential of A‐LIPPEG for enhancement of the osteogenic differentiation of BMSCs (Figure 9F). The assessment of bone healing by micro‐CT scans demonstrated that mineralization and the healing of the fracture in the A‐LIP‐PEG treatment group were greater than the control and LIP‐PEG groups (Figure 9G).…”

Section: Multiple Therapies For Ih‐mediated Tissue Regenerationmentioning

confidence: 99%

Combination Therapy of Killing Diseases by Injectable Hydrogels: From Concept to Medical Applications

Poustchi

Amani

Ahmadian³

et al. 2020

Adv Healthcare Materials

114

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The complexity of hard-to-treat diseases strongly undermines the therapeutic potential of available treatment options. Therefore, a paradigm shift from monotherapy toward combination therapy has been observed in clinical research to improve the efficiency of available treatment options. The advantages of combination therapy include the possibility of synchronous alteration of different biological pathways, reducing the required effective therapeutic dose, reducing drug resistance, and lowering the overall costs of treatment. The tunable physical properties, excellent biocompatibility, facile preparation, and ease of administration with minimal invasiveness of injectable hydrogels (IHs) have made them excellent candidates to solve the clinical and pharmacological limitations of present systems for multitherapy by direct delivery of therapeutic payloads and improving therapeutic responses through the formation of depots containing drugs, genes, cells, or a combination of them in the body after a single injection. In this review, currently available methods for the design and fabrication of IHs are systematically discussed in the first section. Next, as a step toward establishing IHs for future multimodal synergistic therapies, recent advances in cancer combination therapy, wound healing, and tissue engineering are addressed in detail in the following sections. Finally, opportunities and challenges associated with IHs for multitherapy are listed and further discussed.

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“…Staphylococcus aureus bacteria as a mouse model of skin infection Release of carboxyl-modified gold nanoparticles onto mouse skin [ 210] Adhesive cationic liposomes containing lecithin, cholesterol, and octadecylamine Ag + loaded thiolated polyethylene hydrogels Liposomes (A-LIP) loaded with bone morphogenetic protein 2 Local bone remodeling of osteoporotic fractures in rats [ 211] Polymersomes of the triblock copolymer PNAM-b-PChA-b-PNAM PVA hydrogel matrix C2C12 mouse myoblast cell line Release of the small cytotoxic depsipeptide drug thiocoraline [ 272] Polymersomes of the triblock copolymer PMOXA-b-PDMS-b-PMOXA…”

Section: Polyacrylamide Gelsmentioning

confidence: 99%

“…[210] This preparation sustained nanoparticle release within 24 h, without producing any toxic effect on the mouse skin within a 7-day treatment. Another recent demonstration of antibacterial applications is provided by the recent example of Liu et al, [211] who loaded octadecylamine grafted liposomes into Ag + loaded thiolated polyethylene hydrogels, obtaining an interesting system, which combines good self-healing with excellent antibacterial properties (tested on S. aureus and Escherichia coli) thanks to the presence of Ag + .…”

Section: Hydrogel-based Formulationsmentioning

confidence: 99%

Mastering the Tools: Natural versus Artificial Vesicles in Nanomedicine

Leggio

Arrabito

Ferrara

et al. 2020

Adv Healthcare Materials

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Naturally occurring extracellular vesicles and artificially made vesicles represent important tools in nanomedicine for the efficient delivery of biomolecules and drugs. Since its first appearance in the literature 50 years ago, the research on vesicles is progressing at a fast pace, with the main goal of developing carriers able to protect cargoes from degradation, as well as to deliver them in a time‐ and space‐controlled fashion. While natural occurring vesicles have the advantage of being fully compatible with their host, artificial vesicles can be easily synthetized and functionalized according to the target to reach. Research is striving to merge the advantages of natural and artificial vesicles, in order to provide a new generation of highly performing vesicles, which would improve the therapeutic index of transported molecules. This progress report summarizes current manufacturing techniques used to produce both natural and artificial vesicles, exploring the promises and pitfalls of the different production processes. Finally, pros and cons of natural versus artificial vesicles are discussed and compared, with special regard toward the current applications of both kinds of vesicles in the healthcare field.

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Adhesive liposomes loaded onto an injectable, self-healing and antibacterial hydrogel for promoting bone reconstruction

Cited by 68 publications

References 51 publications

Nanomedicine Fight against Antibacterial Resistance: An Overview of the Recent Pharmaceutical Innovations

Nanomedicine Fight against Antibacterial Resistance: An Overview of the Recent Pharmaceutical Innovations

Combination Therapy of Killing Diseases by Injectable Hydrogels: From Concept to Medical Applications

Mastering the Tools: Natural versus Artificial Vesicles in Nanomedicine

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