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World J Gastroenterol. Mar 7, 2007; 13(9): 1347-1351
Published online Mar 7, 2007. doi: 10.3748/wjg.v13.i9.1347
The oesophageal zero-stress state and mucosal folding from a GIOME perspective
Donghua Liao, Jingbo Zhao, Jian Yang, Hans Gregersen
Donghua Liao, Jingbo Zhao, Jian Yang, Hans Gregersen, Centre of Excellence in Visceral Biomechanics and Pain, Aalborg Hospital, Aalborg DK-9100, Denmark
Hans Gregersen, Center of Sensory-Motor Interaction, Aalborg University, Aalborg DK-9220, Denmark
Hans Gregersen, Department of mechanical Engineering, ITT, Dublin, Ireland, and Haukeland University Hospital, Bergen, Norway
Author contributions: All authors contributed equally to the work.
Correspondence to: Donghua Liao, Aalborg Hospital Science and Innovation Centre, Sdr. Skovvej 15, Aalborg DK-9000, Denmark. dl@rn.dk
Telephone: +45-99326907 Fax: +45-99326801
Received: December 9, 2006
Revised: December 29, 2006
Accepted: February 7, 2007
Published online: March 7, 2007
Abstract

The oesophagus is a cylindrical organ with a collapsed lumen and mucosal folds. The mucosal folding may serve to advance the function of the oesophagus, i.e. the folds have a major influence on the flow of air and bolus through the oesophagus. Experimental studies have demonstrated oesophageal mucosal folds in the no-load state. This indicates that mucosal buckling must be considered in the analysis of the mechanical reference state since the material stiffness drops dramatically after tissue collapse. Most previous work on the oesophageal zero-stress state and mucosal folding has been experimental. However, numerical analysis offers a promising alternative approach, with the additional ability to predict the mucosal buckling behaviour and to calculate the regional stress and strain in complex structures. A numerical model used for describing the mechanical behaviour of the mucosal-folded, three-layered, two-dimensional oesophageal model is reviewed. GIOME models can be used in the future to predict the tissue function physiologically and pathologically.

Keywords: Oesophagus; Finite element analysis; Zero-stress state; Buckling