鼻窦粘液清除模型:内衬活性表面的产液腔内的薄膜流

Nikhil Desai, Eric Lauga
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引用次数: 0

摘要

副鼻窦是人类头骨内围绕鼻子的一组中空空间。鼻窦的内衬是一种上皮细胞,其中含有产生粘液的细胞和被称为纤毛的细小毛状活动附属物。纤毛不断跳动,将鼻窦内的粘液扫出鼻腔,从而保持鼻窦内粘液层的清洁。这一过程被称为 "粘液纤毛清除",对健康的鼻腔环境至关重要,而粘液清除的中断会导致慢性鼻窦炎等疾病,尤其是在上颌窦中,因为上颌窦是副鼻窦中最大的一个。我们在此介绍人体上颌窦内粘液纤毛清除的连续数学模型。通过分析和计算相结合的方法,我们研究了内衬活性表面的流体生成腔内的薄流体膜的流动情况:流体在腔内由腔壁正常通量持续生成,然后在纤毛诱导的有效切向流的作用下,逆重力被扫出。我们的研究表明,只有当纤毛清除率超过临界值时,空腔表面才会形成稳定的粘液层,而临界值本身又取决于粘液的产生率。然后,我们利用比例分析,强调了重力滞留和纤毛驱动的粘液排出之间的竞争,从而使我们的计算结果合理化。我们讨论了研究结果的生物学意义,并指出健康鼻窦的粘液生成和清除率测量结果符合我们预测的粘液层稳态发展机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modelling mucus clearance in sinuses: thin-film flow inside a fluid-producing cavity lined with an active surface
The paranasal sinuses are a group of hollow spaces within the human skull, surrounding the nose. They are lined with an epithelium that contains mucus-producing cells and tiny hairlike active appendages called cilia. The cilia beat constantly to sweep mucus out of the sinus into the nasal cavity, thus maintaining a clean mucus layer within the sinuses. This process, called mucociliary clearance, is essential for a healthy nasal environment and disruption in mucus clearance leads to diseases such as chronic rhinosinusitis, specifically in the maxillary sinuses, which are the largest of the paranasal sinuses. We present here a continuum mathematical model of mucociliary clearance inside the human maxillary sinus. Using a combination of analysis and computations, we study the flow of a thin fluid film inside a fluid-producing cavity lined with an active surface: fluid is continuously produced by a wall-normal flux in the cavity and then is swept out, against gravity, due to an effective tangential flow induced by the cilia. We show that a steady layer of mucus develops over the cavity surface only when the rate of ciliary clearance exceeds a threshold, which itself depends on the rate of mucus production. We then use a scaling analysis, which highlights the competition between gravitational retention and cilia-driven drainage of mucus, to rationalise our computational results. We discuss the biological relevance of our findings, noting that measurements of mucus production and clearance rates in healthy sinuses fall within our predicted regime of steady-state mucus layer development.
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