Numerical Simulation of the Effect of Geometric Parameters on Silicone Airway Stent Migration Publisher



Farahani MM¹ ; Bakhtiyari A² ; Beshkoofe S² ; Kajbafzadeh A³ ; Kiani A⁴ ; Eskandari AH⁵ ; Baniassadi M² ; Baghani M² Show Affiliations
Source: Frontiers in Mechanical Engineering Published:2023

Abstract

Recently, endotracheal stenting has become critical in treating respiratory diseases. Due to the COVID-19 pandemic in recent years, many patients had stenosis because of long-term intubation, and silicone stents can be used to treat tracheal stenosis in these patients. Standard airway stents are silicone tubes that provide immediate relief but are prone to migration. In this work, we design different silicone stents and analyze them in the trachea to evaluate silicone airway stents’ performance to overcome undesired migration. A finite-element model of the trachea was employed to evaluate anti-migration forces in each stent. The geometry of the trachea is brought from a computerized tomography scan of the chest of a 68-year-old healthy man. The results are shown based on the least migration of stents based on anti-migration forces. Also, the conditions of stent placement have been considered based on two different assumed friction factors, and the importance of choosing the type of silicone for stent construction has been analyzed. The results show that increasing the diameter of the stent reduces the displacement and migration of it in the trachea. Furthermore, the 23 mm stent with a 45° angle revealed the best implementation against compression under the impact of respiratory pressure differences. Copyright © 2023 Farahani, Bakhtiyari, Beshkoofe, Kajbafzadeh, Kiani, Eskandari, Baniassadi and Baghani.