Author/Authors :
Hazwani, M.N. University Technical Melaka - Faculty of Mechanical Engineering - Department of Thermal-fluid, Malaysia , Muttaqin, A. University Technical Melaka - Faculty of Mechanical Engineering - Department of Thermal-fluid, Malaysia , Mitan, Nona Merry M. University Technical Melaka - Faculty of Mechanical Engineering - Department of Thermal-fluid, Malaysia , Kahar, O. University Technology Malaysia - Faculty of Mechanical Engineering - Department of Thermal-fluid, Malaysia , Abdul Kadir, Mohammed Rafiq Universiti Teknologi Malaysia - Faculty of Health Science and Biomedical Engineering, Malaysia , Abdullah, Wan Ahmad Hospital Universiti Sains Malaysia - Department of Radiology, Malaysia , Haron, Juhara Hospital Universiti Sains Malaysia - Department of Radiology, Malaysia
Abstract :
Functional endoscopic sinus surgery (FESS) is a surgery to remove uncinate process in order to restore sufficient sinus ventilation and drainage in nasal. However, there were a few cases with side effects such as facial pain, reduction in sense of smell and sinusitis reoccurrence of infection. In this study, the effect of uncinate process removal is investigated. Images of the model were done through computational technique and then the flow was simulated to predict the effect of the removal. Inhalation processes with resting breathing condition were modeled. The results show that smooth flow was observed at nasal area which indicates successful surgical process. However for post FESS model the result shows that the possibilities of sinusitis reoccurrence of infection were high. Finally, velocity profile in the olfactory area show non-favorable flow condition for effective smell senses.
Keywords :
Nasal , Paranasal Sinuses , FESS , Flow behavior , 3D actual model
