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Collaborative Research: Integrated experimental and computational investigations of exogenous surfactant distribution in conducting zone lung airways

合作研究：肺气道传导区外源性表面活性剂分布的综合实验和计算研究

基本信息

批准号：
1904204
负责人：
Mehdi Raessi
金额：
$ 23万
依托单位：
University of Massachusetts, Dartmouth
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2019
资助国家：
美国
起止时间：
2019-08-01 至 2024-07-31
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=1904204&HistoricalAwards=false
关键词：
Collaborative Research Integrated experimental computational

项目摘要

Our lungs contain a branching network of airways. Lung stability and normal breathing is maintained by a natural substance called surfactant. The lungs of most premature babies are underdeveloped and lack surfactant, making breathing very difficult for the newborn. These babies often receive a treatment that involves instilling a surfactant solution into their windpipe. Airflow from a ventilator is then used to direct the solution into the lung airways. The success of this treatment heavily depends on the uniformity of distribution of surfactant in airways. However, evidence from x-ray imaging shows non-uniform surfactant distribution, leading to a poor response to the treatment. Improving this treatment and its effectiveness has proved difficult due to inaccessibility of airways. This project will address this unresolved issue by using a combined experimental and simulation approach. We will design realistic models of human lung airways, use them to study surfactant delivery to the lungs, and determine delivery conditions that lead to a uniform surfactant distribution, thereby making the treatment more effective. In addition to providing training opportunities to students and promoting diversity through outreach programs, our project will also make a transformative impact through developing new tools and elucidating fluid flow in lung airways. The overarching goal of this project is to understand fluid dynamics of surfactant delivery and distribution in conducting zone airways. Using a set of design rules, we generate 3D computational models of airway tree and fabricate them using additive manufacturing. We will then use complementary experimental and computational studies to quantitatively elucidate how fluid type (Newtonian and non-Newtonian surfactants), airflow type (constant vs cyclic), and gravitational orientation of the airway tree affect surfactant deposition and distribution in airways. We will achieve this goal through two specific aims: (i) Quantitatively study surfactant distribution in lung airway tree under constant airflow; and (ii) Cyclic airflow and pre-existing surfactant film effects on surfactant distribution. This work will make a transformative impact on fundamental understanding of fluid dynamics of multi-phase flow in lung airways and lead to design of strategies to enhance surfactant replacement therapy.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

我们的肺包含一个分支网络的气道。肺的稳定和正常呼吸是由一种叫做表面活性剂的天然物质维持的。大多数早产儿的肺部发育不全，缺乏表面活性剂，导致新生儿呼吸非常困难。这些婴儿经常接受治疗，包括将表面活性剂溶液滴入他们的气管。然后使用来自呼吸机的气流将溶液引导到肺气道中。这种治疗的成功在很大程度上取决于表面活性剂在气道中分布的均匀性。然而，来自X射线成像的证据显示不均匀的表面活性剂分布，导致对治疗的不良反应。由于无法进入气道，因此很难改进这种治疗方法及其有效性。该项目将通过使用实验和模拟相结合的方法来解决这个悬而未决的问题。我们将设计人类肺气道的真实模型，使用它们来研究表面活性剂向肺部的输送，并确定导致均匀表面活性剂分布的输送条件，从而使治疗更有效。除了为学生提供培训机会并通过外展计划促进多样性外，我们的项目还将通过开发新工具和阐明肺气道中的流体流动来产生变革性影响。该项目的首要目标是了解传导区气道中表面活性剂输送和分布的流体动力学。使用一组设计规则，我们生成气道树的3D计算模型，并使用增材制造来制造它们。然后，我们将使用互补的实验和计算研究，以定量地阐明如何流体类型（牛顿和非牛顿表面活性剂），气流类型（恒定与循环），以及重力方向的气道树影响表面活性剂的沉积和分布在气道。我们将通过两个具体目标实现这一目标：（i）定量研究恒定气流下肺气道树中的表面活性剂分布;（ii）循环气流和预先存在的表面活性剂膜对表面活性剂分布的影响。这项工作将对肺气道中多相流的流体动力学的基本理解产生变革性影响，并导致设计策略以增强表面活性剂替代疗法。该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。