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)

Peroxyacetic (PAA) and monoperoxydecanoic (MPDA) acids were assayed for induction of unscheduled DNA synthesis (UDS) by liquid scintillation counting of hot-acid-extractable DNA and by light microscope autoradiography. Both compounds were also assayed for induction of DNA repair synthesis by differential density labeling ultracentrifugation. Uniformly negative results were obtained for MPDA. Conflicting results were obtained for PAA using the UDS techniques. Negative results were consistently obtained, however, in three separate assays using two different PAA samples with the more definitive differential density DNA repair synthesis technique. Hydrogen peroxide, which is present as a contaminant in the PAA samples, was also assayed for induction of UDS by autoradiography and for induction of DNA repair synthesis by differential density labeling. Our results with this compound are in agreement with published data and were consistently positive using both techniques. We conclude that neither MPDA nor PAA induce DNA repair synthesis and suggest that the conflicting PAA results may be due to the presence of hydrogen peroxide in commercial samples of PAA.
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PMID:Unscheduled DNA synthesis and DNA repair studies of peroxyacetic and monoperoxydecanoic acids. 686 Apr 24

Adsorption behavior of poly(acrylic acid) (PAA) and poly(vinyl pyrrolidone) (PVP) on alumina from their binary mixtures in aqueous solution at pH 5.2 has been studied by measuring the adsorbed amount of polymers, dispersion stability, and ESR spectra. The adsorption of PAA alone shows a strong affinity with a large adsorbed amount for alumina surface, but that of PVP alone is very weak and small. In fixed initial concentrations of PAA the adsorption of PVP is considerably enhanced, probably due to the interaction of PVP with PAA adsorbed on alumina through hydrogen bonding. From ESR spectra of spin-labeled PAA and adsorbed PVP, it is found that in the co-adsorption of PAA and PVP, adsorbed PAA takes predominantly trains, while PVP is mainly adsorbed in loops or tails. The stability of alumina dispersion has also been discussed from the conformation of polymers adsorbed on alumina.
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PMID:Adsorption Characteristics of Poly(acrylic acid) and Poly(vinyl pyrrolidone) on Alumina from Their Mixtures in Aqueous Solution 905 51

Eighty bovine incisors were ground on 320-grit silicone carbide paper and cleaned with fluoride-free prophylaxis paste. The enamel surface conditions were: 1. no conditioning; 2. salicylic acid (10%, 10s); 3. benzoic acid (10%, 10s); 4. air polishing with sodium hydrogen carbonate/Prophy-Jet; 5. Prophy-Jet, followed by polyacrylic acid (PAA, 10%, 10 s); 6. PAA, followed by saliva contamination; 7. PAA; 8. phosphoric acid (37%, 10 s). Fuji Ortho II LC (GC) was used as a bracket adhesive in groups 1 t0 7, and in group 8 Concise orthodontic (3M). Stainless steel lingual buttons were placed by hand. Polymerisation with visible light was carried out 20 s from mesial, distal, incisal and gingival. After 24 h storage in tap water at room temperature the shear bond strengths were tested in accordance with ISO specification TC 106/SC/WG16. Mean values of the groups were compared using Student's t-test. Group 7 (PAA) attained the highest mean shear strength (in comparison with control group): 28 MPa. This was both significantly different from the control group (Concise, 33 MPa) and highly significant in comparison with the other groups (< 16 MPa). The shear bond strength of Fuji Ortho II LC on PAA conditioned enamel indicates the clinical applicability of this material.
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PMID:Light-cured glass ionomer cement as a bracket adhesive with different types of enamel conditioners. 920 Aug 93

The adsorption of poly(acrylic acid) (PAA) and poly(vinyl alcohol) (PVA) onto alumina has been studied as a function of pH, both individually and in the presence of each other. The adsorption density of PAA is found to decrease with an increase of pH while that of PVA shows the opposite trend. In a binary system containing PAA and PVA, the presence of PVA does not affect the adsorption of PAA onto alumina, but the addition of PAA diminishes the adsorption of PVA in the pH range investigated. The adsorption isotherm of PAA at acidic pH exhibits high-affinity Langmuirian behavior. The isotherms for PVA appear rounded and are of the low-affinity type. Once again the adsorption isotherms of PAA remain unaltered in the presence of PVA whereas those of PVA are significantly affected resulting in a lowering of the adsorption density consequent to PAA addition. A variation in the sequence of addition of PAA and PVA does not affect the adsorption behavior of either of the polymers. The electrokinetic behavior of alumina with PAA is hardly influenced by the addition of PVA. On the other hand, the electrophoretic mobility of alumina in the presence of PVA is significantly altered in the presence of PAA and closely resembles the trend observed with PAA alone. Desorption studies reveal that over 80% of PVA could be desorbed in the pH range 3-9 whereas in the case of PAA, the percent desorption increases from 20 to about 70% as the pH is increased from about 3 to 8. Solution conductivity tests confirm interaction of aluminum species and PAA in the bulk solution. FTIR spectroscopic data provide evidence in support of hydrogen bonding and chemical interaction in the case of the PAA-alumina system and hydrogen bonding with respect to the PVA-alumina interaction. Copyright 1999 Academic Press.
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PMID:Surface Chemical Studies on the Competitive Adsorption of Poly(acrylic acid) and Poly(vinyl alcohol) onto Alumina. 1039 72

The aim of this work was to develop a calcium phosphate cement (CPC) providing controlled release of the antibiotic gentamicin sulfate (GS) over at least 1 week. The CPC was made of beta-tricalcium phosphate [beta-TCP; beta-Ca(3)(PO(4))(2)], monocalcium phosphate monohydrate [MCPM; Ca(H(2)PO(4))(2). H(2)O] and water. Release of GS was controlled by admixture of poly(acrylic acid) (PAA). The effects on the GS release kinetics of the molecular weight of PAA, of the amount of admixed PAA, and of the pH of the release medium were investigated. A typical cement sample weighed 3.6 g and contained 100 mg of GS and between 0 and 150 mg of PAA. In the following, PAA content is expressed as the weight ratio, lambda, with respect to GS. At a low PAA content in the CPC (lambda < 0.7), GS was released over 1-2 days according to a square-root-of-time kinetics, but not all GS was released. The unreleased GS fraction increased from 0 to 58% with an increase of PAA content (up to lambda = 0.7). At high PAA content (lambda > 0.7), GS was released over a period of up to 8 days according to a combination of a square-root-of-time and a zero-order kinetics. The total GS fraction released increased again from 58 to 100% with an increase of the amount of PAA (up to lambda = 1.5). These observations were explained by molecular interaction between PAA and GS resulting in gel formation. The maximum fraction of GS released from the cement was indeed a function of the solubility of the PAA-GS (coacervate) complex in the release medium. Thus, GS release was controlled by two mechanisms: (1) diffusion of free GS molecules through the porous cement (square-root-of-time kinetics); and (2) dissociation of GS from the PAA-GS complex (zero-order kinetics). The first mechanism was predominant at low lambda, whereas the second mechanism became important at high lambda and later release times. As the solubility of the PAA-GS complex decreased with an increase in PAA molecular weight, the higher molecular weight PAA yielded more prolonged release periods of up to 8 days. Interestingly, the use of 450 kDa PAA at lambda = 1.00 provided an almost constant release profile over a period of 7 days. Gel formation between PAA and GS was explained in terms of hydrogen bonding of PAA carboxyl groups with GS amino groups. The molar ratio between carboxyl groups and amino groups in the gel was estimated to be approximately 1.9. In conclusion, admixture of PAA into calcium phosphate cement appeared to be a very elegant tool to control the release of the antibiotic over a period of 7 to 8 days.
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PMID:Control of gentamicin release from a calcium phosphate cement by admixed poly(acrylic acid). 1098 May 1

A novel mucoadhesive polymer was prepared by template polymerization of acrylic acid in the presence of chitosan for transmucosal drug delivery system (TMD). FT-IR results indicated that polymer complex was formed between poly(acrylic acid) (PAA) and chitosan through hydrogen bonding. Glass transition temperature (Tg) of chitosan and PAA in the PAA/chitosan polymer complexes was inner-shifted compared with Tg of chitosan and PAA itself. This may be due to the increased miscibility of PAA with chitosan through the hydrogen bonding. The crystallinity of chitosan in the PAA/chitosan polymer complexes was decreased with polymer complex formation with PAA. The dissolution rate of the PAA/chitosan polymer complex was dependent on pH and ratio of PAA/chitosan. The mucoadhesive force of PAA/chitosan polymer complex was similar to a commericial product, Carbopol 971P NF.
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PMID:A novel mucoadhesive polymer prepared by template polymerization of acrylic acid in the presence of chitosan. 1131 Oct 11

Polyelectrolyte multilayers of poly(acrylic acid) (PAA) and polyacrylamide (PAAm) were prepared via hydrogen-bonding interactions. These multilayers as assembled were stable at low pH but dissolved quickly in neutral pH water. We developed methods for stabilizing these multilayers to high pH through cross-linking by heating or UV-irradiation. Thermal treatment of the multilayers, which resulted in a partial imidization between carboxylic acid and amide groups, gave the multilayer good stability at high pH. In addition, we introduced photoreactive groups in the multilayer, which rendered the film insoluble after UV irradiation. Using these selective stabilization approaches, we have succeeded in micropatterning these films by ink-jet printing and photolithography to create subtractive patterns.
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PMID:Micropatterning of polymer thin films with pH-sensitive and cross-linkable hydrogen-bonded polyelectrolyte multilayers. 1187 48

To develop a new mucoadhesive drug carrier, poly(vinyl pyrrolidone) (PVP)/poly(acrylic acid) (PAA) interpolymer complexes were prepared by the template polymerization of acrylic acid using PVP as a template polymer. Fourier transform infrared results showed that the interpolymer complexes were formed by hydrogen bonds between the carboxyl groups of PAA and the carbonyl groups of PVP. The adhesive forces of the PVP/PAA interpolymer complexes were higher than that of commercial Carbopol 971. Moreover, the adhesive force and the release rate can be controlled by changing the mole ratios of PVP and PAA. The release rates of ketoprofen from the PVP/PAA interpolymer complexes showed pH-dependency, and were slower at lower pH. The release rate of ketoprofen from the complex seemed to be mainly controlled by the dissolution rate of the complex above a pK(a) of PAA (4.75) and by the diffusion rate below the pK(a). The prepared complex appears to be an adequate carrier for the mucoadhesive drug delivery system.
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PMID:Mucoadhesive drug carrier based on interpolymer complex of poly(vinyl pyrrolidone) and poly(acrylic acid) prepared by template polymerization. 1204 71

No efficient, reliable, and scale independent disinfection methods for toilet waste are available today for safe recycling of plant nutrients. Therefore, two chemical treatment methods, addition of urea or of PAA (a quaternary mixture of 15% peracetic acid, 15% hydrogen peroxide and 30% acetic acid), were evaluated for disinfection of faecal matter.Degradation of the added urea resulted in 30 g of ammonia nitrogen per kilogram of treated matter and a pH increase to approximately 9.3. This produced an efficient disinfection of E. coli, Enterococcus spp., and Salmonella spp. within 3 weeks (>6log(10) reduction) and a reduction of the chemical resistant Salmonella typhimurium 28b phage, corresponding to a decimal reduction within 7.5 days. No viable Ascaris suum eggs were found after 50 days of treatment. No reduction of spore forming Clostridia spp. was observed. Urea treatment proved to be efficient for disinfection of source separated faecal matter in a scale independent method used for safe recycling of nutrients found in the faecal matter.PAA reduced all of the above indicator organisms within 12 h after application. For this faecal material, with a dry matter content of approximately 10%, an addition of 0.5-1% of PAA (active substance, corresponding to 3.3-6.7% of the Proxitane 15 used) was required before no viable organisms were found in the material. However, this was not tested for the A. suum. No viable spore-forming bacteria or phages were detected. A high rate of bacteria regrowth occurred at 0.15% dosage and 5 days of treatment. PAA is an efficient alternative for disinfection of separated faeces if a rapid treatment is needed.
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PMID:The potential for disinfection of separated faecal matter by urea and by peracetic acid for hygienic nutrient recycling. 1269 34

Hydrogen-bonded multilayers comprised of polyacrylamide (PAAm) and a weak polyelectrolyte, such as poly(acrylic acid) (PAA) or poly(methacrylic acid) (PMA), were investigated for their surface-cell interactions. The assembled films were lightly cross-linked thermally or photochemically in order to render them stable in a physiological environment. Both PAA/PAAm and PMA/PAAm multilayers were found to exhibit a high resistance to the adhesion (cytophobicity) of mammalian fibroblasts, even with only a single bilayer coating. Protein adsorption to the multilayers, as revealed by surface plasmon resonance measurements, was greatly reduced for fibronectin and serum-containing medium. In situ swelling experiments indicate that the H-bonded multilayers are hydrogellike coatings capable of a high level of swelling in buffered solution. Utilizing the H-bonding nature of these multilayers, we were able to micropattern the films to create more complex cell-resistant/-adhesive surfaces. The long-term stability of the cell-resistant multilayers was found to be exceptionally good even under conditions (pH 7.4, buffered solution) where a high degree of swelling takes place. No degradation of the micropatterned films was observed over a period of a month, during which time the multilayer coatings remained highly resistant to cell-adhesion.
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PMID:New class of ultrathin, highly cell-adhesion-resistant polyelectrolyte multilayers with micropatterning capabilities. 1285 83

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