An in vitro study of mucoadhesion and biocompatibility of polymer coated liposomes on HT29-MTX mucus-producing cells

Adamczak, M.; Hagesæther, Ellen; Smistad, Gro; Hiorth, Marianne

doi:10.1016/j.ijpharm.2015.12.030

Cited by 48 publications

(40 citation statements)

References 36 publications

(40 reference statements)

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“…Chen et al evaluated the mucoadhesion of probiotic alginate microcapsules by counting Lactobacillus reuteri strain released from the capsules adhering to the HT29‐MTX after 1 h of incubation . In another study, mucoadhesion of fluorescently labeled, noncoated and polymer‐coated liposomes was measured after 2 h of incubation with HT29‐MTX cell monolayer . The amount of liposomes adhering to the mucus was determined by measuring the fluorescence intensity both directly on the cell monolayer and indirectly from the supernatant solution after incubation.…”

Section: Cellular Methodsmentioning

confidence: 99%

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Innovative Methods and Applications in Mucoadhesion Research

Mackie

Goycoolea

Menchicchi

et al. 2017

Macromolecular Bioscience

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The present review is aimed at elucidating relatively new aspects of mucoadhesion/mucus interaction and related phenomena that emerged from a Mucoadhesion workshop held in Munster on 2-3 September 2015 as a satellite event of the ICCC 13th-EUCHIS 12th. After a brief outline of the new issues, the focus is on mucus description, purification, and mucus/mucin characterization, all steps that are pivotal to the understanding of mucus related phenomena and the choice of the correct mucosal model for in vitro and ex vivo experiments, alternative bio/mucomimetic materials are also presented. Then a selection of preparative techniques and testing methods are described (at molecular as well as micro and macroscale) that may support the pharmaceutical development of mucus interactive systems and assist formulators in the scale-up and industrialization steps. Recent applications of mucoadhesive systems (including medical devices) intended for different routes of administration (oral, gastrointestinal, vaginal, nasal, ocular, and intravesical) and for the treatment of difficult to treat pathologies or the alleviation of symptoms are described.

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Section: Cellular Methodsmentioning

confidence: 99%

“…Different studies have revealed positively charged materials such as chitosan and positively charged lipids to exert the highest mucoadhesive/bioadhesive properties in the oral cavity . However, toxicity studies have shown that positively charged formulations seem to be more toxic than their negative counterparts .…”

Section: Application Specific Requirementmentioning

confidence: 99%

Innovative Methods and Applications in Mucoadhesion Research

Mackie

Goycoolea

Menchicchi

et al. 2017

Macromolecular Bioscience

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“…In order to answer these challenges, protein-based structures (e.g., hydrogels) are being developed at macro-(≥1,000 µm) and microscale (0.1-1,000 µm) and used to encapsulate, protect, and release bioactive compounds to a specific target. The design of a structure, namely its size, is highly important once it was observed that micro-and nanoscale structures are favorable for encapsulation properties Permeability enhancer High permeability in contact with cells High water-holding capacity Verheul and Roefs, 1998;Cooksey et al, 1999;Sobral et al, 2001;Rhim et al, 2007;Neethirajan and Jayas, 2011;Adamczak et al, 2016 Viscosity Low effect on viscosity Promote the development of semi-solid behavior Akkermans et al, 2007;Bokkhim et al, 2013;Muschiolik and Dickinson, 2017 Solubility Improved solubility, targetability, and adhesion to tissues…”

Section: Macro-and Microscale Structuresmentioning

confidence: 99%

Protein-Based Structures for Food Applications: From Macro to Nanoscale

Martins

Bourbon

Pinheiro

et al. 2018

Front. Sustain. Food Syst.

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Novel food structures' development through handling of macroscopic and microscopic properties of bio-based materials (e.g., size, shape, and texture) is receiving a lot of attention since it allows controlling or changing structures' functionality. Proteins are among the most abundant and employed biomaterials in food technology. They are excellent candidates for creating novel food structures due to their nutritional value, biodegradability, biocompatibility, generally recognized as safe (GRAS) status and molecular characteristics. Additionally, the exploitation of proteins' gelation and aggregation properties can be used to encapsulate bioactive compounds inside their network and produce consistent delivery systems at macro-, micro-, and nanoscale. Consequently, bioactive compounds which are exposed to harsh storage and processing conditions and digestion environment may be protected and their bioavailability could be enhanced. In this review, a range of functional and structural properties of proteins which can be explored to develop macro-, micro-, and nanostructures with numerous promising food applications was discussed. Also, this review points out the relevance of scale on these structures' properties, allowing appropriate tailoring of protein-based systems such as hydrogels and micro-or nanocapsules to be used as bioactive compounds delivery systems. Finally, the behavior of these systems in the gastrointestinal tract (GIT) and the impact on bioactive compound bioavailability are thoroughly discussed.

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“…Mucoadhesive buccal patches offered benefits compared with conventional methods (10). Due to the short residence time of oral gels in oral cavity, buccal patches have advantages of increased residence time and drug release (5).…”

Section: Introductionmentioning

confidence: 99%

Development and inï¿½vitro evaluation of mucoadhesive patches of methotrexate for targeted delivery in oral cancer

Jin

Dong

et al. 2017

Oncol Lett

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Abstract. The present study focused on the development of a mucoadhesive patch of methotrexate (MTX) for targeted delivery in oral cancer. Initially, MTX-loaded liposomes were prepared using the thin film hydration method, and had a mean diameter of 105.7-137.4 nm and percentage entrapment efficiency of 54.6±3.5. These liposomes were cast in optimized mucoadhesive film. The film was characterized by its release pattern, thickness, weight and percentage swelling index and the sustained release profile of the optimized film was evaluated. The developed liposomes and liposomes cast in the film formulation were evaluated for cytotoxicity in HSC-3 cells using an MTT assay, and a significant decrease in the half maximal inhibitory concentration of MTX was identified with the MTX-entrapped liposomal film, M-LP-F7. The results of the mitochondria-dependent intrinsic pathway demonstrated that there was significant mitochondrial membrane potential disruption with M-LP-F7 compared with the plain drug. M-LP-F7 increased the rate of apoptosis in HSC-3 cells by almost 3-fold. Elevated levels of reactive oxygen species provided evidence that M-LP-F7 exerts a pro-oxidant effect in HSC-3 cells.

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An in vitro study of mucoadhesion and biocompatibility of polymer coated liposomes on HT29-MTX mucus-producing cells

Cited by 48 publications

References 36 publications

Innovative Methods and Applications in Mucoadhesion Research

Innovative Methods and Applications in Mucoadhesion Research

Protein-Based Structures for Food Applications: From Macro to Nanoscale

Development and inï¿½vitro evaluation of mucoadhesive patches of methotrexate for targeted delivery in oral cancer

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