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United States Department of Agriculture

Agricultural Research Service

Title: Viscoelastic Properties of a Biological Hydrogel Produced from Soybean Oil

Authors
item Xu, Jingyuan
item Liu, Zengshe
item Erhan, Sevim

Submitted to: Journal of the American Oil Chemists' Society
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: December 30, 2007
Publication Date: March 1, 2008
Citation: Xu, J., Liu, Z., Erhan, S.Z. 2008. Viscoelastic properties of a biological hydrogel produced from soybean oil. Journal of the American Oil Chemists' Society. 85(3):285-290.

Interpretive Summary: Hydrogel has many biomedical and bioengineering applications such as drug delivery, wound care material, and tissue engineering, etc. Hydrogel produced from biological materials possess particular advantages because of their biodegradable and biocompatible behavior. The properties and functions of a newly developed hydrogel from vegetable oil were investigated. We found that this biomaterial hydrogel exhibited physical gel behavior. In addition, this hydrogel’s thermal association-deassociation-reassociation procedure was completely reversible. And its viscoelastic properties were quickly and partially recoverable after mechanical disruption. These behaviors make this hydrogel valuable in utilization of drug delivery and tissue engineering.

Technical Abstract: Hydrogels formed from biopolymers or natural sources have special advantages because of their biodegradable and biocompatible properties. The viscoelastic properties of a newly developed biological hydrogel made from modified vegetable oil, and epoxidized soybean oil (ESO) were investigated. The material named HPESO is a hydrolytic product of polymerized ESO (PESO). HPESO exhibited viscoelastic solid or gel behavior above 2% (wt.-%) at room temperature and viscous liquid behavior at 55 deg C. The thermal assembly-disassembly-reassembly function of the HPESO hydrogel was completely reversible. The viscoelastic properties of HPESO were strongly dependent on concentration. The analysis of modulus, concentration dependence, and stress relaxation measurement indicated that HPESO was a physical gel meaning the cross-linking between the molecules was the physical junction. HPESO hydrogel also showed fast initial partial recovery of its viscoelastic properties after being subject to a disruption mechanical shear. The function and behavior of the HPESO hydrogel suggest that this biomaterial is a candidate for applications in drug delivery and scaffolds of bioengineering and tissue engineering.

Last Modified: 8/22/2014