Structure and Physicochemical Properties of Collagen Gels Treated with Hyaluronic Acid

Structure and Physicochemical Properties of Collagen Gels Treated with Hyaluronic Acid

The parameters of the condensed state and structure of fibrillar collagen and the composition and structuring of calcium phosphates in collagen gel samples obtained from rat tail tendons were studied. After the acid extraction and gelation at 37°С, fibrillar collagen preserves the domain organizatio...

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Bibliographic Details
Published in:Russian journal of applied chemistry Vol. 95; no. 11; pp. 1701 - 1714
Main Authors: Gaidash, A. A., Krut’ko, V. K., Musskaya, O. N., Sycheva, O. A., Kul’bitskaya, L. V., Mel’nikova, G. B., Skrotskaya, K. V., Blinova, M. I., Kulak, A. I.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-11-2022
Springer Nature B.V
Subjects:
Amorphization
Calcium phosphates
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Collagen
Decarbonation
Dilatancy
Gelation
Gels
Hyaluronic acid
Hydroxyapatite
Industrial Chemistry/Chemical Engineering
Macromolecular Compounds and Polymeric Materials
Shear stress
Stresses
Tendons
hydroxyapatite
calcium pyrophosphates
collagen gels
fibrillar nodes
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Summary:The parameters of the condensed state and structure of fibrillar collagen and the composition and structuring of calcium phosphates in collagen gel samples obtained from rat tail tendons were studied. After the acid extraction and gelation at 37°С, fibrillar collagen preserves the domain organization and undergoes dispersion to the subfibrillar level and aggregation; the extrafibrillar space is filled with a viscous liquid. The dilatancy arises at 37–40°С at low and medium shear stresses and rates. In the course of acid extraction, fibrillar collagen undergoes amorphization, its primary peptide chains are hydrated and undergo heterogeneous strengthening/softening; the interchain spaces undergo contraction/expansion. Calcium phosphates originating from the initial tendons and medium 199 undergo structuring into hydroxyapatites in the course of gelation. These hydroxyapatites undergo decarbonation on introducing hyaluronic acid and become close to hydroxyapatite Са 10 (РО 4 ) 6 (ОН) 2 in the structure. The gels treated with hyaluronic acid form strong networks and fibrillar nodes of increased connection, shifting the dilatancy toward higher shear rates and stresses. Collagen fibers undergo aggregation to form thickened platelike structures tending to exfoliation. The water-filled interfibrillar spaces are expanded. Hyaluronic acid prevents the amorphization of fibrillar collagen, reduces the intermolecular contact strength, and suppresses the growth of hydroxyapatite structural precursors.
ISSN:1070-4272
1608-3296
DOI:10.1134/S1070427222110039