B. Parma scite author profile

Dermatan sulphate (DS) obtained from bovine and pig mucosa and pig skin, and charge-enriched fractions of a selected DS preparation, were characterized in terms of charge density, M(r) and disaccharide composition of chondroitin ABC lyase digests, and by 13C-n.m.r. spectroscopy. Besides the major IdoA-GalNAc4SO3 sequences, all DS preparations contain about 10% disulphated disaccharide sequences (mostly IdoA2SO3-GalNAc4SO3, with minor amounts of IdoA-GalNAc4,6SO3). DS fragments (prepared by radical-catalysed depolymerization of DS and retaining the internal structure of the parent polysaccharide) as well as Smith degraded fragments [SD-DS, obtained by controlled degradation of periodate-oxidized and borohydride-reduced DS (RO-DS)] with the general structure GalNAc4SO3(IdoA2SO3-GalNAc4SO3)n-R (where R is the remnant of a glycol-split uronic acid, and n = 2-3 and 3-4) were characterized by one- and two-dimensional 1H-n.m.r., 13C-n.m.r. and disaccharide composition analysis. In accordance with previous findings [Maimone and Tollefsen (1990) J. Biol. Chem. 265, 18263-18271], only fragments with n > or = 3 significantly enhance the heparin cofactor II-mediated inhibition of thrombin. In natural DS preparations and their fractions, this activity (as well as the antithrombotic activity in an animal model) appears to require IdoA2SO3-containing sequences. The heparin cofactor II activity of DS, RO-DS and SD-DS fragments decreases with decreasing M(r). However, RO-DS fragments are more active than DS fragments of similar M(r), probably because of the extra flexibility endowed by glycol-split IdoA residues.

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Films of self-assembled purely helical type I collagen molecules

Falini

Fermani

Foresti

et al. 2004

J. Mater. Chem.

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The structural, morphological and chemical-physical characterization of films constituted of self-assembled non-helical region free type I collagen molecules has been investigated. The results indicate the presence of information at the molecular level which allow collagen I molecules to self-assemble. In the fiber formation process the collagen molecules re-establish the greater part of the native intermolecular cross-links. The films, obtained by air drying the fiber suspension, are water insoluble and characterized by a high mechanical performance. The mechanical and thermal properties of the films increase strongly as a function of the collagen fiber orientation induced in the films by uniaxial stretching.

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Biomarkers and Coagulation Tests for Assessing the Biosimilarity of a Generic Low‐Molecular‐Weight Heparin: Results of a Study in Healthy Subjects With Enoxaparin

Kuczka

Harder

Picard-Willems

et al. 2008

The Journal of Clinical Pharma

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Low-molecular-weight heparins (LMWHs) differ considerably in their influence on clotting tests and release of tissue factor pathway inhibitor (TFPI). Biosimilarity therefore becomes an issue when generic forms of LMWHs are developed. So far, no bioequivalence study with a generic LMWH has been reported. A generic enoxaparin (test) was compared with the originator (reference) in 20 volunteers after single-dose subcutaneous administration (40 mg enoxaparin sodium, 4000 IU/mL anti-factor Xa (anti-FXa; activity). Target variables were anti-FXa and anti-FIIa activity, activated partial thromboplastin time (aPTT), prothrombinase-induced clotting time (PiCT), and TFPI over 24 hours. The statistical evaluation of the anti-FXa activity profile demonstrated bioequivalence of test and reference with confidence intervals of area under the plasma concentration-time curve (AUC0-tlast) (93%-99%) and Amax (88%-95%). Confidence intervals of AUC(0-tlast) (89%-102%) and Amax (90%-103%) of anti-FIIa activity also fulfill bioequivalence criteria. The 90% confidence interval for the maximum concentration of TFPI ranged from 90% to 113%. The claim of similarity was also supported by aPTT and PiCT profiles. Bioequivalence with the originator enoxaparin could be demonstrated by ex vivo inhibition of FXa and FIIa activity, by coagulation tests (aPTT and PiCT), and by in vivo release of TFPI. Whether such data also prove biosimilarity of the generic enoxaparin needs to be determined.

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Adhesion and Proliferation of Human Dermal Fibroblasts on Collagen Matrix

Croce

Silvestri²,

Guerra³

et al. 2004

J Biomater Appl

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The purpose of this study was to evaluate adhesion and growth of human dermal fibroblasts on a 0.150 mm-thick matrix of reconstituted collagen isolated from horse tendon. Collagen was extracted and polymerized according to the standard procedures (Opocrin, Corlo, Modena, Italy). By light microscopy, the bottom surface of the matrix appeared linear and compact, whereas the superficial one was indented and less homogeneous. By scanning electron microscopy, the collagen fibrils had different diameters and the great majority of them was oriented parallel to the surface of the gel. By transmission electron microscopy, collagen fibrils showed the typical banding. Human dermal fibroblasts were seeded on the collagen matrix, previously equilibrated in growth medium. Fibroblast proliferation stopped in the second week and was always significantly lower than that of the same cell strain seeded on plastic and cultured in parallel. By light microscopy, after six days culture, cells formed a confluent multilayer on the surface of the gel. By scanning and transmission electron microscopy, fibroblasts appeared flat and adherent to the matrix. Contacts of cells among themselves and with the collagen fibrils were observed. Fibroblasts never moved into the collagen gel. In conclusion, human dermal fibroblasts can be grown in a three-dimensional matrix made by horse tendon that, on the other hand, seems to condition their proliferation rate.

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B. Parma

Biologically inspired growth of hydroxyapatite nanocrystals inside self-assembled collagen fibers

Structure and contribution to the heparin cofactor II-mediated inhibition of thrombin of naturally oversulphated sequences of dermatan sulphate

Films of self-assembled purely helical type I collagen molecules

Biomarkers and Coagulation Tests for Assessing the Biosimilarity of a Generic Low‐Molecular‐Weight Heparin: Results of a Study in Healthy Subjects With Enoxaparin

Adhesion and Proliferation of Human Dermal Fibroblasts on Collagen Matrix

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