Surface coatings of materials by polysaccharide polymers are an acknowledged strategy to modulate interfacial biocompatibility. Polysaccharides from various algal species represent an attractive source of structurally diverse compounds that have found application in the biomedical field. Furcellaran obtained from the red algae Furcellaria lumbricalis is a potential candidate for biomedical applications due to its gelation properties and mechanical strength. In the present study, immobilization of furcellaran onto polyethylene terephthalate surfaces by a multistep approach was studied. In this approach, N-allylmethylamine was grafted onto a functionalized polyethylene terephthalate (PET) surface via air plasma treatment. Furcellaran, as a bioactive agent, was anchored on such substrates. Surface characteristics were measured by means of contact angle measurements, X-ray photoelectron spectroscopy (XPS) and scanning electron microscopy (SEM). Subsequently, samples were subjected to selected cell interaction assays, such as antibacterial activity, anticoagulant activity, fibroblasts and stem cell cytocompatibility, to investigate the Furcellaran potential in biomedical applications. Based on these results, furcellaran-coated PET films showed significantly improved embryonic stem cell (ESC) proliferation compared to the initial untreated material.
The study investigates the use of fiber carriers, based on biopolymeric gums as potential candidates for cosmetic and dermatological applications, in particular for skin regeneration. Gum arabic (GA), xanthan gum (XA), and gum karaya (GK) were used as the main gum materials for the fibers, which were prepared by centrifugal spinning from an aqueous solution. These solutions of different mass gum ratios were blended with poly (ethylene oxide) (PEO) for better spinnability. Finally, vitamins E and C were added to selected solutions of gums. The resulting fibers were extensively investigated. The morphology and structure of all fibers were investigated by scanning electron microscopy and Fourier transformed infrared spectroscopy. Most importantly, they were characterized by the release of vitamin E loaded in the fibers using UV-VIS spectroscopy. The presentation will show that the newly prepared fibers from GA and PEO represent a very promising material for cosmetic and dermatologic applications.
- MeSH
- arabská guma chemie MeSH
- guma karaya * chemie MeSH
- kůže MeSH
- polyethylenglykoly MeSH
- regenerace MeSH
- vitaminy * MeSH
- Publikační typ
- časopisecké články MeSH
Pickering emulsions have been known to be promising candidates for encapsulating and delivering a wide range of bioactive compounds with antioxidant potentials. In this work, we formulated and characterized zein (ZN)/chitosan (CS) stabilized Pickering emulsion. The prepared emulsions were firstly characterized by droplet size after preparation and after storage for one month at room temperature as well as after the addition of prebiotic gum Arabic (GA). Rheological measurements were further carried out to see the behavior and stability of these emulsions after storage. Thereafter, vit-D3 was encapsulated, and the antioxidant activity of the emulsions system were evaluated. The results showed that no significant change in the mean droplet diameter of the emulsions was observed after storage for a month. This claim was further confirmed by their rheological measurements particularly, the emulsions prepared with ZN/CS ratio of 1:2 having 50% oil contents exhibited significant stability. GA addition caused a gradual increase in the droplet size up to some level, after which it led to complete destabilization of the emulsion. Finally, to protect and deliver, vit-D3 was successfully loaded in these emulsions. No significant difference in the DPPH radical scavenging activity of the vit-D3 encapsulated emulsions was observed, showing their capability as delivery vehicles irrespective of their composition.
The assembly of bio-based macromolecules of gum kondagogu/sodium alginate (KO/SA) was fabricated using glycerol as a plasticiser and their optimum blending ratio was identified based on their physical and chemical, structural, mechanical, barrier, and morphological properties. The attenuated total reflection-Fourier transform infrared spectroscopy (ATR-FTIR) analysis show that both biomacromolecules are well organised due to the hydrogen bond interaction between molecular chains involving the hydroxyl, carbonyl, and acetyl groups. Structural identification was performed by recording X-ray diffraction (XRD) spectra. Field emission scanning electron microscopy (FESEM) was used to identify the distinction between the surface of the films of biopolymers, and their conjugates, where the addition of SA increased the surface homogeneity and smoothness. The water contact angle of the blend films reached up to 81°, although the value for pure biomacromolecule films was very low. The blend films also exhibited high tensile strength (up to 24 MPa) compared to the pure biopolymer films. Investigation of film-forming ability, mechanical strength, permeability, transparency, and biodegradability of the developed KO/SA bio-macromolecular association may be established as green and sustainable food packaging films.
- MeSH
- algináty chemie MeSH
- Bixaceae chemie MeSH
- membrány umělé * MeSH
- obaly potravin * MeSH
- rostlinné gumy chemie MeSH
- Publikační typ
- časopisecké články MeSH
Minimization of drug side effects is a hallmark of advanced targeted therapy. Herein we describe the synthesis of polysaccharide-based nanocapsules prepared from furcellaran and chitosan via layer-by-layer deposition using electrostatic interaction. Using doxorubicin as a model drug, prepared nanocapsules showed excellent drug loading properties and release influence by pH and stability. Targeted delivery of doxorubicin was achieved by nanocapsule surface modification using homing peptide (seq SMSIARLC). The synthesized nanocapsules possess excellent compatibility to eukaryotic organisms. In the case of nonmalignant cells (PNT1A and HEK-293), toxicity tests revealed the absences of DNA fragmentation, apoptosis, necrosis, and also disruption of erythrocyte membranes. In contrast, results from treatment of malignant cell lines (MDA-MB-231 and PC3) indicate good anticancer effects of synthesized bionanomaterial. Internalization studies revealed the nanocapsule's ability to enter the malignant cell lines by endocytosis and triggering the apoptosis. The occurrence of apoptosis is mostly connected to the presence of ROS and inability of DNA damage reparation. Additionally, the obtained results strongly indicate that peptide modification increases the speed of nanocapsule internalization into malignant cell lines while simultaneously nonmalignant cell lines are untouched by nanocapsules highlighting the strong selectivity of the peptide.
- MeSH
- algináty chemie MeSH
- antigeny CD31 metabolismus MeSH
- chitosan chemie MeSH
- doxorubicin aplikace a dávkování farmakokinetika MeSH
- HEK293 buňky MeSH
- hemolýza účinky léků MeSH
- koncentrace vodíkových iontů MeSH
- léky s prodlouženým účinkem * MeSH
- lidé středního věku MeSH
- lidé MeSH
- nádorové buněčné linie MeSH
- nanokapsle aplikace a dávkování chemie toxicita MeSH
- peptidy chemie metabolismus MeSH
- polyelektrolyty chemie MeSH
- rostlinné gumy chemie MeSH
- systémy cílené aplikace léků metody MeSH
- testy toxicity MeSH
- uvolňování léčiv MeSH
- Check Tag
- lidé středního věku MeSH
- lidé MeSH
- ženské pohlaví MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
Cílem této práce bylo vyvinout léčivé žvýkací gumy (MCG) obsahující 10 mg lysozyme-hydrochloridu (LH) a 20 mg kyseliny askorbové (AsA) získané lisováním se stlačitelným základem pro žvýkací gumy Health in Gum®(HiG®) PWD 01. Vzhledem k nízkému obsahu aktivních složek bylo nezbytné zvolit způsob jejich zapracování do tohoto základu a zhodnotit jejich distribuční homogenitu v dávkových jednotkách. Směsi pro lisování byly připraveny dvěma způsoby: prvním bylo jednoduché smíchání všech složek; druhý zahrnoval krok vlhké granulace třísložkové směsi – LH, sukralosa a chuťové přísady. Byly studovány tokové vlastnosti LH, AsA, LH granulátu a lisovacích směsí. MCG byly hodnoceny podle Ph.Eur. 9.0 kapitoly 2.9.5, 2.9.6 a 2.9.40. AsA a HiG® byly charakterizovány jako volně tekoucí, zatímco LH vykazoval nedostatečné tokové vlastnosti. Ve srovnání se směsí pro přímé lisování, krok granulace umožnil podstatně zlepšit tokové vlastnosti konečné lisovací směsi. Na rozdíl od žvýkacích gum připravených přímým lisováním, MCG připravené vlhkou granulací splňovaly požadavky Ph.Eur. 9.0 kapitoly 2.9.40. Vhodnost metody přípravy MCG zahrnující krok vlhké granulace byla také potvrzena výsledky hmotnostní a obsahové stejnoměrnosti.
The aim of this work was to develop medicated chewing gums (MCGs) containing 10 mg of lysozyme hydrochloride (LH) and 20 mg of ascorbic acid (AsA) obtained by the compression method with Health in Gum® (HiG®) PWD 01 as a compressible gum base. Because of a low content of active ingredients, it was essential to choose the way of adding them to the tableting mass and evaluate their distribution homogeneity in the dosage units. The blends for compression were prepared by two methods: the first one was simple mixing of all components; the second one included the step of wet granulation of a three-component mixture – LH, sucralose and a taste additive. Flow properties of LH, AsA, HiG®, LH granules and blends for compression were studied. MCGs were evaluated according to Ph.Eur. 9.0 Chapters 2.9.5, 2.9.6 and 2.9.40. AsA and HiG® were characterized as free flowing, while LH had insufficient flow properties. Compared with a simple mixed blend, the granulation step allowed significantly improving flow properties of the final blend for compression. Unlike MCGs compressed from the simple mixed blend, MCGs prepared through the granulation step met Ph.Eur. 9.0 Chapter 2.9.40 requirements. The propriety of MCG preparation method involving the step of wet granulation also has been confirmed by mass and drug content uniformity tests.
- Klíčová slova
- lysozymhydrochlorid, léčivé žvýkací gumy, hmotnostní stejnoměrnost, obsahová stejnoměrnost, stejnoměrnost dávkových jednotek,
- MeSH
- kyselina askorbová MeSH
- lékové formy * MeSH
- lidé MeSH
- muramidasa MeSH
- žvýkačka MeSH
- Check Tag
- lidé MeSH
Graphene oxide (GO) and multi-walled carbon nanotubes (MWCNTs) were added to furcellaran films (FUR). Silver nanoparticles (AgNPs) were prepared by reducing AgNO3 using a FUR matrix as the stabilising agent. The structure and surface morphology of nanocomposite films were obtained using FTIR, SEM and XRD. The molecular weights of furcellaran chains were estimated using HPSEC-MALLS-RI. Characterisation of the films was undertaken to analyse their physical, mechanical and structural properties. SEM analysis revealed that GO, MWCNTs and AgNPs were evenly distributed throughout the FUR surface. FUR + AgNP films showed antimicrobial activity against bacteria and fungi. P. aeruginosa, E. faecalis and S. aureus were the most affected with effective growth inhibition using the disc diffusion method. In the study, the effect of nanofillers on the structural, thermal, mechanical and antimicrobial properties of furcellaran films as potential materials for food packaging is presented.
- MeSH
- algináty chemie MeSH
- antibakteriální látky chemie farmakologie MeSH
- Bacteria účinky léků MeSH
- biopolymery chemie MeSH
- grafit chemie MeSH
- kovové nanočástice chemie MeSH
- nanokompozity chemie MeSH
- nanotrubičky uhlíkové chemie MeSH
- rostlinné gumy chemie MeSH
- stříbro chemie MeSH
- Publikační typ
- časopisecké články MeSH
Over the last few years, the electrospinning technique has attracted significant attention for the production of novel nanofibrous materials. At the same time, the use of graphene oxide and the natural products extracted from plants and/or trees have become very popular in various fields of science. In this work, a new method for the production of nanofibers based on a combination of Gum Arabic (GA), as a natural tree gum exudate, PVA, as an environmentally-friendly stabilizer, and graphene oxide (GO) has been developed and characterized. SEM analysis showed fundamental differences on the surface of bare nanofibers with and without GO, and also significantly smaller fiber diameters in the case of the presence of GO (fibers <100 nm present). Raman spectroscopy confirmed and TGA analysis approximated the content of GO in the nanofibers. Adsorption of methylene blue on the produced nanofibrous membrane was about 50% higher in the presence of GO, which opens the possibility to use GO/GA/PVA fibers in several applications, for example for the removal of dyes.
- MeSH
- adsorpce MeSH
- arabská guma chemie MeSH
- chemické látky znečišťující vodu izolace a purifikace MeSH
- elektrochemické techniky MeSH
- grafit chemie MeSH
- kinetika MeSH
- lidé MeSH
- methylenová modř izolace a purifikace MeSH
- nanovlákna chemie ultrastruktura MeSH
- polyvinyly chemie MeSH
- velikost částic MeSH
- Check Tag
- lidé MeSH
- Publikační typ
- časopisecké články MeSH
