expiratory phase
- 网络呼气相
expiratory phase-
Study on Identification of Expiratory Phase X-ray Image
呼气相胸片的识别研究
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Flow volume loop showed remarkable decrease of PEF and formation of a plateau in the expiratory phase in the RP patients with airway involvement .
呼吸流速容量环显示呼气峰流速下降,呼气相平台形成。
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Application of High Resolution CT in the Expiratory Phase of the Lung
呼气相肺部高分辨力CT扫描的临床应用研究
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Influence of vagal inputs on phrenic discharges during the expiratory phase
家兔迷走神经传入活动对膈神经呼气相放电的影响
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Observations on phrenic discharges during expiratory phase in the rabbit
家兔膈神经呼气相电活动的观察
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Types of phrenic motoneurons and their contributions to phrenic discharges during expiratory phase in rabbits
家兔膈神经元的电活动类型及其在膈神经呼气相电活动中的作用
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Objective : To observe and evaluate the pulmonary density and volume in inspiratory and expiratory phase of COPD patients with ordinary CT scanners .
目的:评价慢性阻塞性肺部疾病(COPD)肺部密度和体积在普通CT双相扫描下的表现。
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According to the direction of added airflow during expiratory phase , the animal models were classified into three groups : Model A , the control group , without any added airflow ;
根据在呼气期增加气流的方向不同而分三种模式:模式一为对照组,呼气期不增加任何气流;
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The main clinical manifestations were paroxysmal wheezy cough and wheezes during expiratory phase of breathing , accompanied by liver damage ! and anemia ;
临床主要表现咳嗽、喘憋伴哮鸣音,可伴有肝损害和贫血;
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In the model with the uncinate process removed , the air flow velocity of the district around uncinate process was faster , the air flow velocity in expiratory phase was quicker .
钩突被去除后,该区域的气流速度增加,且呼气相的速度明显比吸气相大;
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Experiments to determine the effect of vagal afferent activity on phrenic discharges during the expiratory phase ( ED ) were carried out on 34 anesthetized rabbits .
作者用麻醉家兔34只,切断其神经、改变肺容积、吸入SO2以选择性阻断肺牵张感受器活动等方法,探查迷走神经传入活动对膈神经呼气相放电(ED)的作用。
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It is suggested that the curve fitting method would be appropriate for respiratory mechanics monitoring in dogs with histamine-induced lung injury during high frequency jet ventilation , and respiratory system compliance at expiratory phase provides a non-invasive and indirect assessment of lung compliance .
我们认为,高频喷射通气时应用曲线拟合法实时监测组胺致肺损伤犬的呼吸力学变化是可行的,监测呼气相呼吸系统顺应性可用作无创、间接测量肺顺应性。