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)

It has been demonstrated that activated factor XIII may catalyze the formation of covalent cross-links between fibrin and collagen. This is shown by the disappearance of the gamma-gamma dimer band in PAA-SDS gel electrophoresis when fibrinogen is clotted in presence of collagen, factor XIII and Ca ions, and by the binding of labeled fibrinogen. This reaction may explain the outstanding physiological importance of factor XIII.
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PMID:Factor XIII, fibrin and collagen. 26 35

A new class of biomaterials, called "bioartificial polymeric materials", was prepared blending a segmented polyurethane (PU) with fibrinogen (FBNG); and poly(acrylic acid) (PAA), poly(acrylamide) (PAAM), poly(vinyl alcohol) (PVAL), with collagen (CLG), respectively. The PU-FBNG material was processed through a spraying, phase-inversion technique to fabricate porous tubular conduits. FBNG was subsequently converted into covalently cross-linked fibrin (FBN) through the action of thrombin (Th), fibrin-stabilizing factor (FSF), and calcium ions. Differential scanning calorimetry (DSC) showed the cross-linked blend was more stable than native cross-linked FBN. Tensile behaviors of the PU-FBN materials closely matched those of a natural artery on varying the ratio PU/FBN. Implantation experiments in the rat model showed a mature internal capsule and good tissue organization of PU-FBN (50%) grafts in the regenerated arterial wall. However, 50% of FBN did not assure adequate mechanical resistance, and aneurysmal changes were seen in some grafts. DSC of CLG-based materials, processed by casting, showed that the synthetic component offered definite advantage compared to the CLG denaturation temperature, particularly noticeable for CLG-PAA and CLG-PVAL blends. Material advantages and drawbacks are discussed.
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PMID:Bioartificial polymeric materials obtained from blends of synthetic polymers with fibrin and collagen. 186 55

Differences in an infection of the muscle caused by larval T. pseudospiralis (from days 10-40 p.i.) and that caused by capsule-forming Trichinella larvae were disclosed with histochemical techniques. These were: An intense reaction of the modified sarcoplasm for neutral mucosubstances, and intense staining of spherical centres of re-differentiation in the sarcoplasm for tyrosine, activity of the acid phosphatase, a negative reaction for SS groups of proteins at the site of location of the parasite owing to the absence of a collagen-like substance deposited by capsule-forming Trichinella species. Alkaline phosphatase activity weak in a sarcoplasm infected with larval T. pseudospiralis, but intense in capsule-forming species suggesting a different, larval metabolism. The capsule of T. nativa which is produced later than that of T. spiralis and T.nelsoni, differs from these also histochemically in that it contains neutral polysaccharides on the surface of the outer capsule layer which stains for non-sulphonated, acid mucosubstances (hyaluronic acid). Inspection with the electron microscope disclosed a vacuolate substance containing glycoprotein, phospholipids, and displaying acid phosphatase activity. The substance was present in the vicinity of larvae of T. nativa occupying the space between the cuticle and the sarcoplasm. A slight, morphological difference between T. nelsoni and T. spiralis was observed in the more elongate shape of the capsule at days 30 and 40 p.o. Histochemical differences were in an oxidative reaction with aldehyde fuchsin (PAA AF, KMnO4 A F) showing an increased hypertrophy of the connective tissue surrounding muscle fibres infected with T. nelsoni.
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PMID:Histochemical differentiation of four species of the genus Trichinella from days 10-40 of their development in muscles of experimentally infected mice. 671 43

In order to overcome the biological deficiencies of synthetic polymers and to enhance the mechanical characteristics of natural polymers, two synthetic polymers, poly(vinyl alcohol) (PVA) and poly(acrylic acid) (PAA) were blended, in different ratios, with two biological polymers, collagen (C) and hyaluronic acid (HA). These blends were used to prepare films, sponges and hydrogels which were loaded with growth hormone (GH) to investigate their potential use as drug delivery systems. The GH release was monitored in vitro using a specific enzyme-linked immunosorbent assay. The results show that GH can be released from HA/PAA sponges and from HA/PVA and C/PVA hydrogels. The initial GH concentration used for sample loading affected the total quantity of GH released but not the pattern of release. The rate and quantity of GH released was significantly dependent on the HA or C content of the polymers.
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PMID:Blends of synthetic and natural polymers as drug delivery systems for growth hormone. 749 22

We report on a case of lethal short-limbed skeletal dysplasia with extremely short ribs, median cleft upper lip and palate, malrotation of intestine, lung hypoplasia with bilateral segmentation defect, atrial septum defect, union of distal urethra and vagina, and complex brain malformations. Based on radiological criteria and the pattern of associated abnormalities a short rib syndrome without polydactyly (Type Beemer) was diagnosed. Morphologically, the growth plate showed a reduced proliferation zone and an enlarged zone of hypertrophic cartilage. In addition, islands of persistent hypertrophic cartilage were present even in the metaphysis. In monolayer cell cultures supplemented with 10% fetal calf serum proliferation was normal in articular chondrocytes, reduced in costal chondrocytes, and elevated in osteoblasts from the patient. Clonal growth of costal and articular chondrocytes in methylcellulose could be stimulated normally by insulin-like growth factor-I (IGF-I), IGF-II, and human growth hormone (hGH). However, the response to transforming growth factor beta 1 (TGF-beta 1) was markedly elevated in articular chondrocytes of the patient compared to those of 3 fetal controls. Quantitative collagen synthesis in both osteoblasts and chondrocytes from the patient did not differ significantly from that of controls. Osteoblasts synthesized predominantly collagen I and minor amounts of collagen III, chondrocytes synthesized primarily collagen II. All collagen chains including CNBr-peptides of collagen II showed normal migration in PAA gel electrophoresis.
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PMID:Proliferation and collagen biosynthesis of osteoblasts and chondrocytes in short rib syndrome type beemer. 832 25

Interactions between poly(acrylic acid) labeled with pyrene (PAA-Py) and succinylated calfskin collagen (type I) (SCSC) were studied by fluorescence spectroscopy. PAA-Py exhibits a strong emission from pyrene monomer (intensity, I(M)) when it exists in an extended conformation. It exhibits another broad emission from pyrene excimer (intensity, I(E)) when it adopts a collapsed globule conformation. At pH 3, a value that is lower than the isoelectric point of SCSC, the ratio I(E)/I(M) value decreased cooperatively with increasing concentration of SCSC at constant PAA-Py concentration, under salt-free condition. On the other hand, this effect was not observed in the presence of 0.1 M NaCl. At pH 7, a value higher than the isoelectric point of SCSC, the ratio I(E)/I(M) was not affected by the presence of SCSC in the absence and presence of salt. From electrophoretic light scattering experiments, it was found that at pH 3 PAA-Py was negatively charged, while SCSC had a positive charge. Thus it is strongly suggested that the two polymers interact by electrostatic attraction at low pH where they are oppositely charged, and that PAA-Py adopts an extended conformation in the complex formed with SCSC. Similar interactions are believed to occur between dentinal collagen and the polycarboxylate component of glass-ionomer cements.
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PMID:Interaction of water-soluble collagen with poly(acrylic acid). 1065 24

In tissue engineering, degradable or non-degradable polymer matrices can act as cell-carrier-scaffolds. Cell adhesion and growth on these scaffolds can be promoted by immobilizing extracellular matrix proteins. Therefore, in this study, polymer poly(ethylene terephthalate) (PET) films were surface modified by graft polymerization of acrylic acid, to subsequently allow collagen (types I and III) immobilization and human smooth muscle cell expansion. The surfaces of PET were activated by plasma, followed by acrylic acid graft polymerization, resulting in covalently bound brushes, containing an average of either 0.22+/-0.1 or 5.93+/-0.87 microg/cm2 of poly(acrylic acid) (PAA). Subsequent electrostatic adsorption of collagen gave a surface concentration of 4.96 and 17.2 microg/cm2, respectively, as determined using radiolabelled 125I collagen. Both PET films grafted with 0.22 microg/cm2 of PAA with or without adsorbed collagen were apt for smooth muscle cell adhesion and proliferation. However, films grafted with 5.93 microg/cm2 were not. PAA-grafted PET films, onto which serum proteins of the culture medium adsorbed spontaneously, proved to be better matrices than films on which collagen has been immobilized. It, therefore, can be speculated that other serum proteins are more important than collagen for the human smooth muscle cell adhesion and growth on surface-modified polymer matrices.
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PMID:Acrylic acid grafting and collagen immobilization on poly(ethylene terephthalate) surfaces for adherence and growth of human bladder smooth muscle cells. 1210 86

In order to promote regeneration after spinal cord injury, growth factors have been applied in vivo to rescue ailing neurons and provide a path finding signal for regenerating neurites. We previously demonstrated that soluble growth factor concentration gradients can guide axons over long distances, but this model is inherently limited to in vitro applications. To translate the use of growth factor gradients to an implantible device for in vivo studies, we developed a photochemical method to bind nerve growth factor (NGF) to microporous poly(2-hydroxyethylmethacrylate) (PHEMA) gels and tested bioactivity in vitro. A cell adhesive photoreactive poly(allylamine) (PAA) was synthesized and characterized. This photoreactive PAA was applied to the surface of the PHEMA gels to provide both a cell adhesive layer and a photoreactive handle for further NGF immobilization. Using a direct ELISA technique, the amount of NGF immobilized on the surface of PHEMA after UV exposure was determined to be 5.65 +/- 0.82 ng/cm2 or 3.4% of the originally applied NGF. A cell-based assay was performed to determine the bioactivity of the immobilized NGF. Using pheochromocytoma (PC-12) cells, 30 +/- 7% of the cell population responded to bound NGF, a response statistically similar to that of cells cultured on collagen in the presence of 40 ng/ml soluble NGF of 39 +/- 12%. These results demonstrate that PHEMA with photochemically bound NGF is bioactive. This photochemical technique may be useful to spatially control the amount of NGF bound to PHEMA using light and thus build a stable concentration gradient.
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PMID:Chemically-bound nerve growth factor for neural tissue engineering applications. 1274 76

Gelatin-polyacrylic acid (gel-PAA) matrices were obtained by slow diffusion of polyacrylic acid into gelatin gels. The matrices were submitted to uniaxial stretching, which induces a preferential orientation of the collagen molecules, and used as biomimetic substrates for the nucleation of hydroxyapatite from simulated body fluid (SBF). The relative amount of hydroxyapatite deposited from 1.5SBF increases as a function of polyelectrolyte content in the matrices, up to about 30 wt%. In the absence of PAA, the inorganic phase is laid down on the surface of the gelatin matrices as hemispherical aggregates. At variance, hydroxyapatite deposition in the gel-PAA composite matrices at relatively low PAA content occurs preferentially in the spaces between the layers on the surface of the matrices and displays a tablet-like morphology. At high polyelectrolyte concentration, an almost uniform layer of hydroxyapatite covers the whole surface of the matrices. The preferential orientation of the (002) hydroxyapatite reflection indicates a close relationship between the inorganic crystals and the collagen molecules.
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PMID:In vitro mineralization of gelatin-polyacrylic acid complex matrices. 1514 60

The design of bioartificial liver assist device requires an effective attachment of primary hepatocytes on polymeric biomaterials. A better understanding of this cell-surface interaction would aid the optimal choice of biomaterials. In this study, the adhesion contact dynamics of primary hepatocytes on poly(ethylene terephthalate) (PET) surface with grafted poly(acrylic acid) (PAA) and coated collagen is probed with confocal reflectance interference contrast microscopy (C-RICM) in conjunction with phase contrast microscopy. An increase of acrylic acid density from 0 to 12 nmole/cm2 raises both the root-mean-square surface roughness and amount of adsorbed collagen of PET surface. C-RICM demonstrates that hepatocytes form tight adhesion contacts upon seeding on both plain PET and PAA-grafted PET (both with collagen coating) despite the insignificant two-dimensional cell spreading. At two hours after cell seeding, the normalized contact area and adhesion energy of hepatocytes on 12 nmole/cm2 PAA-grafted-PET (with collagen coating) is 27% and 114% higher, respectively, than that on collagen coated plain PET. Interestingly, the growth kinetics of adhesion patch for hepatocyte on PAA-grafted PET with collagen coating is best fitted by R proportional to t0.5 and is significantly different from that on collagen coated plain PET, which is best fitted by R proportional to t0.25. Overall, this study demonstrates the modulation of biophysical response of adherent hepatocytes through the control of the biomaterial surface properties.
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PMID:Adhesion contact dynamics of primary hepatocytes on poly(ethylene terephthalate) surface. 1535

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