Taherian Shahab, Rahai Hamid, Gomez Bernardo, Waddington Thomas, Mazdisnian Farhad
Center for Energy and Environmental Research and Services, California State University Long Beach, 1250 Bellflower Boulevard Long Beach, California 90840, USA.
Mount Nittany Medical Center, Pulmonary Division, 3901 South Atherton St. Suite 2, State College, PA 16801, USA.
Clin Biomech (Bristol). 2017 Dec;50:145-153. doi: 10.1016/j.clinbiomech.2017.10.018. Epub 2017 Nov 5.
Excessive dynamic airway collapse, which is often caused by the collapse of the posterior membrane wall during exhalation, is often misdiagnosed with other diseases; stents can provide support for the collapsing airways. The standard pulmonary function tests do not necessarily show change in functional breathing condition for evaluation of these type of diseases.
Flow characteristics through a patient's airways with excessive dynamic airway collapse have been numerically investigated. A stent was placed to support the collapsing airway and to improve breathing conditions. Computed tomography images of the patient's pre- and post-stenting were used for generating 3-Dimensional models of the airways, and were imported into a computational fluid dynamics software for simulation of realistic air flow behavior. Unsteady simulations of the inspiratory phase and expiratory phase were performed with patient-specific boundary conditions for pre- and post-intervention cases to investigate the effect of stent placement on flow characteristic and possible improvements.
Results of post-stent condition show reduced pressure, velocity magnitude and wall shear stress during expiration. The variation in wall shear stress, velocity magnitude and pressure drop is negligible during inspiration.
Although Spirometry tests do not show significant improvements, computational fluid dynamics results show significant improvements in pre- and post-treatment results, suggesting improvement in breathing condition.
过度动态气道塌陷通常由呼气时后膜壁塌陷引起,常被误诊为其他疾病;支架可为塌陷气道提供支撑。标准肺功能测试不一定能显示出这些类型疾病评估中功能呼吸状况的变化。
对具有过度动态气道塌陷的患者气道内的气流特性进行了数值研究。放置一个支架以支撑塌陷气道并改善呼吸状况。利用患者支架置入前后的计算机断层扫描图像生成气道三维模型,并导入计算流体动力学软件以模拟实际气流行为。针对干预前后的病例,采用患者特定的边界条件对吸气相和呼气相进行非定常模拟,以研究支架置入对气流特性的影响以及可能的改善情况。
支架置入后的结果显示,呼气期间压力、速度大小和壁面剪应力降低。吸气期间壁面剪应力、速度大小和压降的变化可忽略不计。
尽管肺活量测定测试未显示出显著改善,但计算流体动力学结果显示治疗前后有显著改善,表明呼吸状况有所改善。
