Title :
Capillary breakup extensional properties of whole human saliva
Author :
Turcanu, Mihaela ; Tascon, Lucia Frau ; Balan, Corneliu ; Gallegos, Crispulo
Author_Institution :
Hydraulics Dept., Politeh. Univ. of Bucharest, Bucharest, Romania
Abstract :
Saliva studies are of great interest in the area of biorheology. This human body fluid plays an essential role in dysphagia since it is directly related to the swallowing process and to the rheology of food bolus. The aim of this work was to discuss the capillary breakup extensional properties of acidic and mechanically stimulated human saliva, and to point out the effect of saliva centrifugation on the elasticity of xanthan based solutions. Extensional rheology of alpha-amylase substitute solution was also studied and compared to whole human saliva through CaBER experiments (Capillary Break-up Extensional Rheometer). Results provided a general view about the complexity of this biofluid and highlighted the usefulness of CaBER device in achieving fast results concerning the elongational properties of human saliva.
Keywords :
biochemistry; biomechanics; elasticity; elongation; molecular biophysics; rheology; acidic human saliva; alpha-amylase substitute solution; biofluid complexity; biorheology; capillary break-up extensional rheometer; dysphagia; elasticity; elongational properties; food bolus rheology; mechanically stimulated human saliva; swallowing process; xanthan based solutions; Cavity resonators; Elasticity; Mouth; Powders; Rheology; Temperature measurement; CaBER; dysphagia; elongational viscosity; human saliva;
Conference_Titel :
Advanced Topics in Electrical Engineering (ATEE), 2015 9th International Symposium on
Conference_Location :
Bucharest
DOI :
10.1109/ATEE.2015.7133778
