A Review of Liposomes as a Drug Delivery System: Current Status of Approved Products, Regulatory Environments, and Future Perspectives

Liu, Peng; Chen, Guiliang; Zhang, Jingchen

doi:10.3390/molecules27041372

Cited by 398 publications

(259 citation statements)

References 130 publications

(145 reference statements)

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“…The size of a typical phospholipid bilayer is of 4.5 nm, similar to that of the liposome-like structure composed of ODA and DPPC in magnetoliposomes [ 36 ]. Considering that FRET only occurs at a donor–acceptor distances below 10 nm and that proflavine molecules were located at the flower-shaped structures surface, while the hydrophobic dye Nile Red was located within the bilayer of the liposome-like structures, this donor–acceptor distance supports the formation of a bilayer around the flower-shaped NPs and, consequently, the synthesis of magnetoliposomes [ 15 , 21 ].…”

Section: Resultsmentioning

confidence: 99%

Magnetoliposomes Containing Multicore Nanoparticles and a New Antitumor Thienopyridine Compound with Potential Application in Chemo/Thermotherapy

et al. 2022

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Multicore magnetic nanoparticles of manganese ferrite were prepared using carboxymethyl dextran as an agglutinating compound or by an innovative method using melamine as a cross-coupling agent. The nanoparticles prepared using melamine exhibited a flower-shape structure, a saturation magnetization of 6.16 emu/g and good capabilities for magnetic hyperthermia, with a specific absorption rate (SAR) of 0.14 W/g. Magnetoliposome-like structures containing the multicore nanoparticles were prepared, and their bilayer structure was confirmed by FRET (Förster Resonance Energy Transfer) assays. The nanosystems exhibited sizes in the range of 250–400 nm and a low polydispersity index. A new antitumor thienopyridine derivative, 7-[4-(pyridin-2-yl)-1H-1,2,3-triazol-1-yl]thieno[3,2-b]pyridine, active against HeLa (cervical carcinoma), MCF-7 (breast adenocarcinoma), NCI-H460 (non-small-cell lung carcinoma) and HepG2 (hepatocellular carcinoma) cell lines, was loaded in these nanocarriers, obtaining a high encapsulation efficiency of 98 ± 2.6%. The results indicate that the new magnetoliposomes can be suitable for dual cancer therapy (combined magnetic hyperthermia and chemotherapy).

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Section: Resultsmentioning

confidence: 99%

Magnetoliposomes Containing Multicore Nanoparticles and a New Antitumor Thienopyridine Compound with Potential Application in Chemo/Thermotherapy

et al. 2022

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“…Liposomes are versatile drug delivery systems, developed for various routes of administration, that have the advantage of protecting the active substance enclosed in the vesicles, prolonging its half-life in the bloodstream and enhancing bioavailability. Several liposomal products have been authorized over the course of the last two decades by the European Medicines Agency (EMA) and the Food and Drug Administration (FDA) [ 28 ]. The distribution reported in Figure 4 shows that the vast majority of nanomedicines is tested in the therapeutic area of cancer, followed by eye disease, blood and lymphatic disease, virus disease, and respiratory tract disease therapeutic areas.…”

Section: Resultsmentioning

confidence: 99%

Critical Analysis and Quality Assessment of Nanomedicines and Nanocarriers in Clinical Trials: Three Years of Activity at the Clinical Trials Office

et al. 2022

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Investigational medicinal products submitted over the course of 3 years and authorized at the Clinical Trials Office of the Italian Medicines Agency as part of a request for authorization of clinical trials were scrutinized to identify those encompassing nanomedicines. The quality assessment reports performed on the documentation submitted were analyzed, classifying and discussing the most frequently detected issues. The identification of nanomedicines retrieved and the information on their quality profiles are shared to increase the transparency and availability of information, providing feedback that can support sponsors in optimizing the quality part of the documentation and of the information submitted. Results confirm that nanomedicines tested as investigational medicinal products in clinical trials are developed and authorized in agreement with the highest standards of quality, meeting safety profiles according to the strong regulatory requirements in the European Union. Some key points are highlighted and indicate that the regulatory approach to innovation in a clinical trial setting could potentially be renewed to ride the wave of innovation, particularly in the nanotechnology field, capitalizing on lessons learned and still ensuring a strong and effective framework.

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“…Nano-phytomedicines represent a category of drug formulations that result from a combination of nanotechnology and herbal medicine [25]. They are modern formulations that are meant to overcome the disadvantages of vegetal medicinal products or the extracts that are obtained on their basis, which present promising in vivo and in vitro biological activities, but show at the same time significant limitations, such as poor absorption, low bioavailability, low solubility, and rapid clearance [25][26][27]. Nanotechnology has proven to be an effective tool that can be used to effectively eradicate these limitations [25,26].…”

Section: Introductionmentioning

confidence: 99%

“…Nanotechnology has proven to be an effective tool that can be used to effectively eradicate these limitations [25,26]. Liposomes are artificial vesicles of small size and spherical shape, obtained from cholesterol and non-toxic phospholipids [27,28]. Such preparations exist in the case of R. officinalis and are used to achieve more efficacy in overcoming the limitations of its phytoformulations (related to bioavailability and solubility) and to enhance its therapeutical activities [29,30].…”

Section: Introductionmentioning

confidence: 99%

Antiproliferative and Antimicrobial Effects of Rosmarinus officinalis L. Loaded Liposomes

et al. 2022

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Rosmarinus officinalis L. is a species that is widely known for its culinary and medicinal uses. The purpose of the present study consisted of the evaluation of the antiproliferative and antimicrobial effects of R. officinalis-loaded liposomes (L-R). Characterization of the liposomes was performed by establishing specific parameters. The load of the obtained liposomes was analyzed using an LC-MS method, and antiproliferative assays evaluated the cell viability on a liver adenocarcinoma cell line and on a human hepatic stellate cell line. Antimicrobial assays were performed by agar–well diffusion and by broth microdilution assays. The obtained liposomes showed high encapsulation efficiency, suitable particle size, and good stability. High amounts of caffeic (81.07 ± 0.76), chlorogenic (14.10 ± 0.12), carnosic (20.03 ± 0.16), rosmarinic (39.81 ± 0.35), and ellagic (880.02 ± 0.14) acids were found in their composition, together with other polyphenols. Viability and apoptosis assays showed an intense effect on the cancerous cell line and a totally different pattern on the normal cells, indicating a selective toxicity towards the cancerous ones and an anti-proliferative mechanism. Antimicrobial potential was noticed against all tested bacteria, with a better efficacy towards Gram-positive species. These results further confirm the biological activities of R. officinalis leaf extract, and proposes and characterizes novel delivery systems for their encapsulation, enhancing the biological activities of polyphenols, and overcoming their limitations.

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A Review of Liposomes as a Drug Delivery System: Current Status of Approved Products, Regulatory Environments, and Future Perspectives

Cited by 398 publications

References 130 publications

Magnetoliposomes Containing Multicore Nanoparticles and a New Antitumor Thienopyridine Compound with Potential Application in Chemo/Thermotherapy

Magnetoliposomes Containing Multicore Nanoparticles and a New Antitumor Thienopyridine Compound with Potential Application in Chemo/Thermotherapy

Critical Analysis and Quality Assessment of Nanomedicines and Nanocarriers in Clinical Trials: Three Years of Activity at the Clinical Trials Office

Antiproliferative and Antimicrobial Effects of Rosmarinus officinalis L. Loaded Liposomes

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