Lauren Eichaker1,2, Chengyu Li3, Nakesha King4, Victoria Pepper5, Cameron Best2,6, Ekene Onwuka4, Eric Heuer2, Kai Zhao3, Jonathan Grischkan1, Christopher Breuer2,7, Jed Johnson8, Tendy Chiang1,2. 1. Department of Otolaryngology-Head and Neck Surgery, Nationwide Children's Hospital, Columbus, Ohio. 2. Tissue Engineering and Surgical Research, Research Institute at Nationwide Children's Hospital, Columbus, Ohio. 3. Department of Otolaryngology-Head and Neck Surgery. 4. Department of General Surgery, Ohio State University, Columbus, Ohio. 5. Department of Pediatric Surgery, Loma Linda Children's Hospital, Loma Linda, California. 6. Biomedical Sciences Graduate Program, Ohio State University College of Medicine, Columbus, Ohio. 7. Department of Pediatric Surgery, Nationwide Children's Hospital, Columbus, Ohio. 8. Nanofiber Solutions Inc., Hilliard, Ohio, U.S.A.
Abstract
OBJECTIVES/HYPOTHESIS: Current techniques for airway characterization include endoscopic or radiographic measurements that produce static, two-dimensional descriptions. As pathology can be multilevel, irregularly shaped, and dynamic, minimal luminal area (MLA) may not provide the most comprehensive description or diagnostic metric. Our aim was to examine the utilization of computational fluid dynamics (CFD) for the purpose of defining airway stenosis using an ovine model of tissue-engineered tracheal graft (TETG) implantation. STUDY DESIGN: Animal research model. METHODS: TETGs were implanted into sheep, and MLA was quantified with imaging and endoscopic measurements. Graft stenosis was managed with endoscopic dilation and stenting when indicated. Geometries of the TETG were reconstructed from three-dimensional fluoroscopic images. CFD simulations were used to calculate peak flow velocity (PFV) and peak wall shear stress (PWSS). These metrics were compared to values derived from a quantitative respiratory symptom score. RESULTS: Elevated PFV and PWSS derived from CFD modeling correlated with increased respiratory symptoms. Immediate pre- and postimplantation CFD metrics were similar, and implanted sheep were asymptomatic. Respiratory symptoms improved with stenting, which maintained graft architecture similar to dilation procedures. With stenting, baseline PFV (0.33 m/s) and PWSS (0.006 Pa) were sustained for the remainder of the study. MLA measurements collected via bronchoscopy were also correlated with respiratory symptoms. PFV and PWSS found via CFD were correlated (R2 = 0.92 and 0.99, respectively) with respiratory symptoms compared to MLA (R2 = 0.61). CONCLUSIONS: CFD is valid for informed interventions based on multilevel, complex airflow and airway characteristics. Furthermore, CFD may be used to evaluate TETG functionality. LEVEL OF EVIDENCE: NA. Laryngoscope, E272-E279, 2018.
OBJECTIVES/HYPOTHESIS: Current techniques for airway characterization include endoscopic or radiographic measurements that produce static, two-dimensional descriptions. As pathology can be multilevel, irregularly shaped, and dynamic, minimal luminal area (MLA) may not provide the most comprehensive description or diagnostic metric. Our aim was to examine the utilization of computational fluid dynamics (CFD) for the purpose of defining airway stenosis using an ovine model of tissue-engineered tracheal graft (TETG) implantation. STUDY DESIGN: Animal research model. METHODS:TETGs were implanted into sheep, and MLA was quantified with imaging and endoscopic measurements. Graft stenosis was managed with endoscopic dilation and stenting when indicated. Geometries of the TETG were reconstructed from three-dimensional fluoroscopic images. CFD simulations were used to calculate peak flow velocity (PFV) and peak wall shear stress (PWSS). These metrics were compared to values derived from a quantitative respiratory symptom score. RESULTS: Elevated PFV and PWSS derived from CFD modeling correlated with increased respiratory symptoms. Immediate pre- and postimplantation CFD metrics were similar, and implanted sheep were asymptomatic. Respiratory symptoms improved with stenting, which maintained graft architecture similar to dilation procedures. With stenting, baseline PFV (0.33 m/s) and PWSS (0.006 Pa) were sustained for the remainder of the study. MLA measurements collected via bronchoscopy were also correlated with respiratory symptoms. PFV and PWSS found via CFD were correlated (R2 = 0.92 and 0.99, respectively) with respiratory symptoms compared to MLA (R2 = 0.61). CONCLUSIONS:CFD is valid for informed interventions based on multilevel, complex airflow and airway characteristics. Furthermore, CFD may be used to evaluate TETG functionality. LEVEL OF EVIDENCE: NA. Laryngoscope, E272-E279, 2018.
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