UMLS:C0267964 - FACTA Search

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Query: UMLS:C0267964 (PAA)
2,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The panel of ISOBM TD-4 Workshop antibodies was tested against a range of carbohydrate antigens consisting of (a) ovarian cyst mucins expressing A, B, H, Le(a), Le(x), Le(b), Le(y) and precursor (nonfucosylated) specificities, (b) ovine submaxillary mucin (OSM, expressing sialyl Tn) and desialylated OSM (expressing Tn) and (c) synthetic glycoconjugates (Le(a)-PAA and Le(x)-PAA). The assay used was an ELISA method using rabbit anti-mouse Ig as the second reagent. Thirty-five of the 51 antibodies were unreactive with this group of antigens and presumably react with MUC1 peptide or a carbohydrate specificity not represented. Two MAbs (127 and 128) detected Le(x) antigen and one MAb (157) reacted with A blood group. MAb 151 (and possibly 152) detected sialyl Tn epitopes. Three antibodies (139, 149 and 168) reacted with nonfucosylated structures (possibly LNT or LNneoT). A number of MAbs (137, 145, 162, 163 and 164) reacted widely with the panel of antigens; whether these are nonspecific reactions due to 'sticky' antibodies or caused by the presence of MUC1 peptide in the antigen preparations is uncertain.
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PMID:Analysis of the carbohydrate specificity of ISOBM TD-4 Workshop anti-MUC1 antibodies. 942 96

This study investigated the relationship of the washability of gels based on two mucoadhesive polymers (sodium carboxymethylcellulose [NaCMC] and polyacrylic acid [PAA]) and their mixtures to their physical properties such as consistency and hydration/dissolution. The mucoadhesive properties of the two polymers and the effect of mucus-polymer interaction on gel washability at the mucoadhesive interface were also investigated using mixtures of PAA and NaCMC gels with increasing mucin amounts. Release and wash-away properties of the gels were assessed by means of a simultaneous release and wash-away test, whereas the consistency and hydration/dissolution properties of the gels were investigated by rheological analysis (viscosity and dynamic viscoelastic tests) and liquid uptake measurements, respectively. The results showed that PAA was characterized by lower release and wash-away properties than those of NaCMC. Mixing of two gels at different ratios allowed modulation of the release and wash-away properties. A relationship between washability and hydration/dissolution properties was found. Gel consistency by itself did not always provide a complete explanation of the wash-away process. The two polymers investigated showed different rheological interaction properties with mucin. Depending on the extent of such interaction, gel-mucin mixture had hydration/dissolution and washability properties that were quite different with respect to the initial gel.
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PMID:Drug release and washability of mucoadhesive gels based on sodium carboxymethylcellulose and polyacrylic acid. 1002 13

The aim of this work was to evaluate how the addition of mucoadhesive polymers to aqueous solutions affects the ocular response of tropicamide (0.2%; w/v). The polymer solutions tested were carboxymethylcellulose sodium salt (CMC-Na; 1%; w/v), hyaluronic acid sodium salt (HA-Na; 0.1%; w/v) and polyacrylic acid (PAA; 0.2%; w/v). Polymeric solutions were compared to a nonviscous formulation (AS). In vitro mucoadhesion measurements were expressed as a percentage of the adhesion force mucin-mucin, considering this one as 100% mucoadhesion. The values ofmucoadhesion obtained were 172%, 127%, 103% and 87.6% for formulations with CMC, PAA, HA and AS, respectively. The mydriatic response of tropicamide was determined in adult male New Zealand rabbits, weighing 1.7-2 Kg, by pupil diameter measurements at different times after instillation. The area under the mydriatic response-time curve (AUC 0-6 hr) was interpreted as an indication of the bioavailability of tropicamide in each vehicle. The AUC 0-6 hr was related to the in vitro mucoadhesion for each formulation. Tropicamide solutions with CMC-Na and PAA resulted in mucoadhesion and AUC 0-6 hr values approximately 1.9 and 1.4 times higher than AS. Although the solution with HA-Na was less mucoadhesive than PAA, the hyaluronic acid solution resulted in a higher AUC mydriasis/time value. Formulations with HA-Na and PAA presented values of surface tension close to that observed in the lacrimal fluid, with the Imax (maximum pupil diameter) being higher than for CMC-Na and AS. Greater than 90% of the mydriatic effect disappeared 4.5 hr after instillation for PAA and AS. Nevertheless, the mydriatic effect remained up to 5.5 hr for HA-Na and CMC-Na. HA-Na solution enhanced the bioavailability oftropicamide, presenting a value of mucoadhesion similar to the reference mucin-mucin.
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PMID:Enhancement of the mydriatic response to tropicamide by bioadhesive polymers. 1111 33

The objective of this study was to evaluate the influence of the molecular mass and accordingly the polymer chain length on mucoadhesion and cohesion of thiolated polymers. Linear poly(acrylic acid)-cysteine (PAA-Cys) conjugates of 2-, 45-, 250- and 450 kDa (PAA(2)-Cys, PAA(45)-Cys, PAA(250)-Cys and PAA(450)-Cys) and polycarbophil-cysteine (PCP-Cys, 750-3000 kDa), all displaying on average 404.1+/-65.5 microMol thiol groups per gram polymer were compressed into tablets to perform disintegration tests, mucoadhesion studies and viscosity measurements. Moreover, the influence of free unbound cysteine on mucoadhesion was evaluated. Disintegration tests showed a stability of the tablets as following: PAA(2)-Cys<PAA(45)-Cys<PAA(250)-Cys<PAA(450)-Cys=PCP-Cys. According to tensile studies and tests on the rotating cylinder the following rank order in mucoadhesive properties could be established: PAA(2)-Cys<PAA(45)-Cys<PCP-Cys<PAA(250)-Cys<PAA(450)-Cys. Evidence for the formation of disulphide bonds between thiolated polymers and mucin could be provided by the addition of free cysteine resulting in strongly decreased mucoadhesion and by viscosity studies showing comparatively higher viscosity of conjugate/mucin mixtures than of unthiolated polymer/mucin mixtures. The results of the present study contribute to the development of new polymers displaying further improved mucoadhesive properties.
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PMID:Mucoadhesive and cohesive properties of poly(acrylic acid)-cysteine conjugates with regard to their molecular mass. 1255 77

The bacterial surfaces of enterococci are not uniform. This fact is confirmed by several studies and by our results when great differences between individual strains with regard to their cell surface hydrophobicity, binding of eight ECM (extracellular matrix) molecules immobilized on latex beads and four selected ECM molecules in microtiter plates were observed. The strains expressing high binding of ECM molecules (e.g., HJ 18, HJ 23, HJ 24, HJ 26, HJ 28, HJ 36, etc.) were found among Enterococcus faecalis and E. faecium by PAA (particle agglutination assay). On the other hand, weak ECM binders (e.g., HJ 21, HJ 32, HJ 34, HJ 38, HJ 39, HJ 42, HJ 43) were also found. A direct correlation was found between porcine mucin and fetuin binding ability of eight selected strains tested in microtiter plates and by PAA. Moreover, the influence of tunicamycin treatment was different because significant (P < 0.001) blocking effect of tunicamycin was observed with two selected strains (HJ 26 and HJ 36), whereas two strains (HJ 18 and HJ 22) were not significantly affected in their fetuin binding. The treatment of six enterococcal strains with proteolytic enzymes, pronase P, and trypsin, and with sodium metaperiodate also significantly (P < 0.001) decreased their fetuin binding. This suggests that both protein and carbohydrate moieties are involved in the binding of immobilized fetuin. However, the influence of these chemicals on the fetuin binding by individual strains was different.
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PMID:Binding of extracellular matrix molecules by enterococci. 1273 51

Pluronic-PAA, a thermogelling copolymer composed of side chains of poly(acrylic acid) (PAA) grafted onto a backbone of Pluronic copolymer, is of interest as a vehicle for the controlled release of compounds. An important feature of such a vehicle is its bioadhesive/mucoadhesive properties, which in the case of Pluronic-PAA are significant due to the presence of the PAA side chains. An atomic force microscopy (AFM) method has been developed and utilized to investigate the interactions between a Pluronic-PAA-modified microsphere and mucous substrates. The bioadhesive force was successfully measured, and trends were observed under conditions of varying pH and ionic strength. Pluronic-PAA exhibits significant mucoadhesion over a range of pH values, with mucoadhesion being optimal at pH 4-5 (adhesive force approximately 80 mN/cm(2)) and dropping sharply at higher pH, to a value of approximately 20 mN/cm(2) at pH 8. The mucoadhesive force decreased with increasing ionic strength, from a value of approximately 80 mN/cm(2) in 0.025 M NaCl to approximately 25 mN/cm(2) in 1.0 M NaCl. These results have been interpreted in terms of the effect of changing pH and ionic strength on electrostatic interactions and swelling of the polymer and mucin layers. Tensiometric force measurements indicated that hydrophobic interactions, as well as hydrogen bonding and electrostatic interactions, were significant in the mucoadhesion of Pluronic-PAA copolymers. Experiments with a range of Pluronic-PAA copolymers with varying PPO contents in the Pluronic segments showed that increasing the overall PPO content increased the hydrophobicity of the polymer solutions. This was reflected in the increases in the advancing contact angles with the mucin layer, indicating that hydrophobic interactions play a role in the adhesion of Pluronic-PAA to mucin.
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PMID:Adhesion of polyether-modified poly(acrylic acid) to mucin. 1549 Dec 11

A mucoadhesive microsphere was prepared by an interpolymer complexation and solvent evaporation method, using chitosan and poly(acrylic acid) (PAA), to prolong the gastric residence time of the delivery system. The Fourier transform infrared results showed that microspheres were formed by an electrostatic interaction between the carboxyl groups of the PAA and the amine groups of the chitosan. X-ray diffraction and differential scanning calorimetry analysis showed that the enrofloxacin in the chitosan-PAA microsphere was molecularly dispersed in an amorphous state. Scanning electron microscopy of the surface and the quantity of mucin attached to the microspheres indicated that chitosan-PAA microspheres had a higher affinity for mucin than those of chitosan alone. The swelling and dissolution of the chitosan-PAA microspheres were found to be dependent on the pH of the medium. The rate of enrofloxacin released from the chitosan-PAA microspheres was slower at higher pH; therefore, based on their mucoadhesive properties and morphology, the chitosan-PAA microspheres can be used as a mucoadhesive oral drug delivery system.
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PMID:Preparation of mucoadhesive chitosan-poly(acrylic acid) microspheres by interpolymer complexation and solvent evaporation method II. 1597 51

Both visible and infrared (IR) spectroscopic ellipsometry have been employed to study the structure of thin layers of bovine submaxillary mucin (BSM) adsorbed on poly(acrylic acid-block-methyl methacrylate) (PAA-b-PMMA) copolymer and poly(methyl methacrylate) (PMMA) surfaces at three pH values (3, 7, and 10). The adsorbed mucin layer on the copolymer surface had the greatest thickness (17 nm) when adsorbed from a mucin solution at a pH of 3. For the first time, IR ellipsometry was used to identify adhesive interactions and conformational changes in mucin/polymer double layers. After applying the regularized method of deconvolution in the analysis, the formation of hydrogen bonds between the carboxyl groups of the BSM and PAA-b-PMMA copolymer in double layers has been found. The IR ellipsometry data, in agreement with the visible ellipsometry analysis, indicate the pH dependence of adhesion of mucin to the copolymer surface. There is an increase in the amount of hydrogen-bonded carboxyl groups in mucin deposited at a pH of 3. There is no evidence that the amide groups of the mucin participate in this bonding. At the lower pH, the IR ellipsometry spectra after deconvolution reveal an increase in the proportion of beta-sheets in the BSM upon adsorption on the copolymer surface, indicating a more unfolded, aggregated structure. The IR ellipsometry data also indicated some changes in the conformational states of the side groups in the copolymer induced by entanglements and bonding interactions with the mucin macromolecules. Deconvolution provides an unprecedented level of information from the IR ellipsometry spectra and yields important insights.
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PMID:Spectroscopic ellipsometry of mucin layers on an amphiphilic diblock copolymer surface. 1967 85

The adhesion of Staphylococcus epidermidis, Escherichia coli, and Candida albicans on mucin coatings was evaluated to explore the feasibility of using the coating to increase the infection resistance of biomaterials. Coatings of bovine submaxillary mucin (BSM) were deposited on a base layer consisting of a poly(acrylic acid-b-methyl methacrylate) (PAA-b-PMMA) diblock copolymer. This bi-layer system exploits the mucoadhesive interactions of the PAA block to aid the adhesion of mucin to the substratum, whereas the PMMA block prevents dissolution of the coating in aqueous environments. The thickness of the mucin coating was adjusted by varying the pH of the solution from which it was deposited. Thin mucin coatings decreased the numbers of bacteria but increased the numbers of C. albicans adhering to the copolymer and control surfaces. Increasing the mucin film thickness resulted in a further lowering of the density of adhering S. epidermidis cells, but it did not affect the density of E. coli. In contrast, the density of C. albicans increased with an increase in mucin thickness.
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PMID:Adhesion of microorganisms to bovine submaxillary mucin coatings: effect of coating deposition conditions. 2018 31

This study aimed at elucidating an optimal synergistic polymer composite for achieving a desirable molecular bioadhesivity and Matrix Erosion of a bioactive-loaded Intravaginal Bioadhesive Polymeric Device (IBPD) employing Molecular Mechanic Simulations and Artificial Neural Networks (ANN). Fifteen lead caplet-shaped devices were formulated by direct compression with the model bioactives zidovudine and polystyrene sulfonate. The Matrix Erosion was analyzed in simulated vaginal fluid to assess the critical integrity. Blueprinting the molecular mechanics of bioadhesion between vaginal epithelial glycoprotein (EGP), mucin (MUC) and the IBPD were performed on HyperChem 8.0.8 software (MM+ and AMBER force fields) for the quantification and characterization of correlative molecular interactions during molecular bioadhesion. Results proved that the IBPD bioadhesivity was pivoted on the conformation, orientation, and poly(acrylic acid) (PAA) composition that interacted with EGP and MUC present on the vaginal epithelium due to heterogeneous surface residue distributions (free energy= -46.33 kcalmol(-1)). ANN sensitivity testing as a connectionist model enabled strategic polymer selection for developing an IBPD with an optimally prolonged Matrix Erosion and superior molecular bioadhesivity (ME = 1.21-7.68%; BHN = 2.687-4.981 N/mm(2)). Molecular modeling aptly supported the EGP-MUC-PAA molecular interaction at the vaginal epithelium confirming the role of PAA in bioadhesion of the IBPD once inserted into the posterior fornix of the vagina.
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PMID:Optimization of a polymer composite employing molecular mechanic simulations and artificial neural networks for a novel intravaginal bioadhesive drug delivery device. 2123 2

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