Guar gum (GG) and Guar gum/borax (GGb) hydrogels are studied by means of rheology, Low Field Nuclear Magnetic Resonance (LF NMR) and model drug release tests. These three approaches are used to estimate the mesh size (ξ) of the polymeric network. A comparison with similar Scleroglucan systems is carried out. In the case of GGb, the rheological and Low Field NMR estimations of ξ lead to comparable results, while the drug release approach seems to underestimate ξ. Such discrepancy is attributed to the viscous effect of some polymeric chains that, although bound to the network to one end, can freely fluctuate among meshes. The viscous drag exerted by these chains slows down drug diffusion through the polymeric network. A proof for this hypothesis is given by the case of Scleroglucan gel, where the viscous contribution is not so significant and a good agreement between the rheological and release test approaches was found. © BME-PT.
Guar gum/borax hydrogel: Rheological, low field NMR and release characterizations / Coviello, Tommasina; Matricardi, Pietro; Alhaique, Franco; Rossella, Farra; G., Tesei; S., Fiorentino; F., Asaro; G., Milcovich; Mario, Grassi. - In: EXPRESS POLYMER LETTERS. - ISSN 1788-618X. - STAMPA. - 7:9(2013), pp. 733-746. [10.3144/expresspolymlett.2013.71]
Guar gum/borax hydrogel: Rheological, low field NMR and release characterizations
COVIELLO, Tommasina;MATRICARDI, PIETRO;ALHAIQUE, Franco;
2013
Abstract
Guar gum (GG) and Guar gum/borax (GGb) hydrogels are studied by means of rheology, Low Field Nuclear Magnetic Resonance (LF NMR) and model drug release tests. These three approaches are used to estimate the mesh size (ξ) of the polymeric network. A comparison with similar Scleroglucan systems is carried out. In the case of GGb, the rheological and Low Field NMR estimations of ξ lead to comparable results, while the drug release approach seems to underestimate ξ. Such discrepancy is attributed to the viscous effect of some polymeric chains that, although bound to the network to one end, can freely fluctuate among meshes. The viscous drag exerted by these chains slows down drug diffusion through the polymeric network. A proof for this hypothesis is given by the case of Scleroglucan gel, where the viscous contribution is not so significant and a good agreement between the rheological and release test approaches was found. © BME-PT.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
