Publication detail

An alternative DSC approach to study hydration of hyaluronan

PRŮŠOVÁ, A. ŠMEJKALOVÁ, D. CHYTIL, M. VELEBNÝ, V. KUČERÍK, J.

Original Title

An alternative DSC approach to study hydration of hyaluronan

Type

journal article in Web of Science

Language

English

Original Abstract

Differential scanning calorimetry (DSC) was used to determine the number of water molecules in the hydration shell of hyaluronan of different molecular weights and counterions. First, traditional experiments including freezing/thawing of free water in semi-diluted solutions were carried out leading to the determination of melting enthalpy of freezable water. Non-freezing water was determined using extrapolation to zero enthalpy. For sodium hyaluronan within the molecular weight range between 100 and 740 kDa the hydration shell was determined as 0.74 g g(-1) HYA. A larger hydration shell containing 0.84 and 0.82 g g(-1) HYA was determined for hyaluronan of 1390 kDa in its sodium and protonized form, respectively. Second, melting enthalpy of freezing water was further studied applying water vaporation experiments. Resulted plot of enthalpy vs concentration indicated an additional heat volution process which occurs at specific concentration and decreases the measured evaporation enthalpy. The heat evolution was attributed to the mutual approaching of hyaluronan molecular chains, their mutual interactions and formation of the ordered hyaluronan structure which starts immediately when the hydration water is desorbed from the hyaluronan surface. The concentration at which the process occurred was related to "non-evaporable water" which was determined as 0.31-0.38 g g(-1) for sodium hyaluronan and 0.84 g g(-1) for its protonized form. The second approach provides additional information enabling a deeper insight into the problem of hyaluronan hydration.

Keywords

Hyaluronan; Hydration; DSC; Water evaporation

Authors

PRŮŠOVÁ, A.; ŠMEJKALOVÁ, D.; CHYTIL, M.; VELEBNÝ, V.; KUČERÍK, J.

RIV year

2010

Released

5. 9. 2010

Publisher

Elsevier

Location

Oxford, England

ISBN

0144-8617

Periodical

Carbohydrate Polymers

Year of study

82

Number

2

State

United Kingdom of Great Britain and Northern Ireland

Pages from

498

Pages to

503

Pages count

6

BibTex

@article{BUT49836,
  author="Alena {Průšová} and Daniela {Šmejkalová} and Martin {Chytil} and Vladimír {Velebný} and Jiří {Kučerík}",
  title="An alternative DSC approach to study hydration of hyaluronan",
  journal="Carbohydrate Polymers",
  year="2010",
  volume="82",
  number="2",
  pages="498--503",
  issn="0144-8617"
}