OSAHS患者自然睡眠期呼吸模式对上气道流场的影响
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国家自然科学基金项目(11272360),广东省自然科学基金项目(2014A030313793),广东省部产学研结合项目(2009B090300406)


Effects of breathing patterns on flow field in upper airway of an OSAHS patient during natural sleep
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    摘要:

    目的 分析阻塞性睡眠呼吸暂停低通气综合征(obstructive sleep apnea hypopnea syndrome, OSAHS)患者自然睡眠时平静呼吸和呼吸暂停期不同压力边界条件和呼吸模式对气道内气体的流动和生理状态的影响。 方法 创建OSAHS患者仰卧位自然睡眠状态,并采集CT数据建立三维上气道有限元模型。临床测量患者睡眠期喉腔压力作为边界条件,考虑鼻吸鼻呼、鼻吸口呼、口吸鼻呼、口吸口呼4种典型呼吸模式进行流体力学仿真。 结果 睡眠期OSAHS患者的呼吸气流呈非稳定、有涡、双向流动,压力边界以及呼吸模式对气体流动的影响明显。用口呼吸与用鼻呼吸相比,气体的最大流速有所升高,压降主要集中在口腔,吸气时升高约30%,呼气时升高1倍。结论 采用OSAHS患者自然睡眠期CT数据建模并以临床喉腔压力作为边界条件进行有限元仿真具有意义,研究结果 有助于了解OSAHS患者真实自然睡眠状态下的上气道流场特性。

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    Objective To study the effects of different pressure boundary conditions and breathing patterns on the airflow of upper airway and related physiological status of the obstructive sleep apnea hypopnea syndrome (OSAHS) patient at sleep stage with eupnea and apnea, respectively. Methods The CT scan data of an OSAHS patient during natural sleep in supine position were acquired and used to reconstruct a three-dimensional finite element model of upper airway. Meanwhile the pressure changes in laryngeal cavity of the OSAHS patient were clinically measured and then used as the boundary conditions, and four typical breathing patterns (nasal inhaling and nasal exhaling, nasal inhaling and oral exhaling, oral inhaling and nasal exhaling, oral inhaling and oral exhaling) were considered for computational fluid simulation. Results The airflow of the OSAHS patient during sleep was an unstable, whorled and bidirectional flow, which was significantly affected by pressure boundary conditions and breathing patterns. Compared with nasal breathing, the maximum velocity of airflow by mouth breathing was increased, resulting in an increase of pressure drop in oral cavity, with was about 30% in inspiration and 100% in expiration. Conclusions It is significant to use CT data of an OSAHS patient during natural sleep for model reconstruction and the clinically measured pressure in laryngeal cavity as boundary conditions for finite element simulations, and the results will contribute to understand the characteristics of flow field in upper airway of the OSAHS patient during real natural sleep.

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陈柳洁,张湘民,肖潭. OSAHS患者自然睡眠期呼吸模式对上气道流场的影响[J].医用生物力学,2016,31(6):540-547

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  • 收稿日期:2015-09-07
  • 最后修改日期:2015-10-31
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  • 在线发布日期: 2017-01-09
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