Inspiratory capacity

  • 网络吸气容量
Inspiratory capacityInspiratory capacity
  1. Group B , control group . Results : Compared with group B the maximal inspiratory capacity in group A increased significantly ( P 0.05 ) on first day , and ( P0.05 ) during 2nd-6th day , especially in three days .

    结果:呼吸训练组最大吸气量在呼吸训练后第1天与对照组有显著差异(P0.05),第2天至第6天有极显著差异(P0.01);

  2. The device has the following characteristics : inspiratory capacity , low power consumption .

    该设备具有如下特点:吸气量大、功耗低。

  3. The clinical implication of inspiratory capacity in patients with chronic obstructive pulmonary disease

    深吸气量测定在慢性阻塞性肺疾病患者中的临床意义

  4. A study in the relationship between the inspiratory capacity ( IC ) and exercise capacity in stable COPD

    深吸气量与稳定期慢性阻塞性肺病患者运动耐力的相关性研究

  5. Objective To observe the influence of tiotropium on inspiratory capacity ( IC ) in patients with stable COPD and investigate the value of IC in evaluating therapeutic effect of bronchodilators .

    目的观察噻托溴胺对稳定期慢性阻塞性肺疾病(COPD)患者深吸气量的影响,探讨深吸气量(IC)对评价支气管扩张剂疗效评估的价值。

  6. Methods Vital capacity ( VC ) and its component expiratory capacity ( ERV ) and inspiratory capacity ( IC ) were detected in 37 stable patients with COPD and the data were analyzed statistically .

    方法测定37例缓解期COPD患者的VC及其组成补呼气容积(ERV)和深吸气量(IC),并对所得数据进行统计学处理。

  7. Result : After breathing helium-oxygen mixture , vital capacity increased 19.2 % compared with breathing air ( P0.05 ), and expiratory capacity increased 87.3 % ( P0.05 ), while inspiratory capacity decreased 7.39 % ( P0.05 ) .

    结果:呼吸氦氧混合气后,肺活量较呼吸空气时增加了19.2%(P0.05),补呼气容积增加了87.3%(P0.05),深吸气量减低了7.39(P0.05)。

  8. Methods A mini-type collector powered by battery was used to emulate the inspiratory capacity of human body and the measurement of the air ion was carried out simultaneously with the minitype collector and an ambient air ion meter .

    方法模拟人体的吸气量,以电池为电源,用微型收集器与环境空气离子测量仪同步测试实验环境。

  9. ABSTRACT : Objective To study the relationship of inspiratory capacity ( IC ) with body mass index ( BMI ), fat free mass index ( FFMI ), and fat mass index ( FMI ) in adults with normal lung function .

    摘要:目的研究肺功能正常成年人体重指数(BMI)、去脂体重指数(FFMI)和脂肪体重指数(FMI)与深吸气量(IC)的关系。

  10. Methods : Vital capacity ( VC ) and its component expiratory capacity ( ERV ) and inspiratory capacity ( IC ) were detected in non-smoking healthy volunteers before and after breathing helium-oxygen mixture and the changes were compared .

    方法测定非吸烟健康志愿者呼吸氦氧混合气体前后肺活量及其组成补呼气容积和深吸气量并比较它们的变化。

  11. Objective : To discuss the difference of vital capacity ( VC ), expiratory reserve volume ( ERV ) and inspiratory capacity ( IC ) in chronic obstructive pulmonary disease ( COPD ) patients and the normal subjects after breathing helium-oxygen mixtures ( heliox ) .

    目的探讨慢性阻塞性肺病(COPD)患者呼吸氦氧混合气(He-O2)后肺活量(VC)及其组成补呼气容积(ERV)和深吸气量(IC)的变化与健康人的差异。

  12. Common form of the pressure switch , volume switch , time switch and flow switch , that is , to achieve the preset inspiratory pressure , capacity , time or flow rate is converted to breath .

    常见的方式有压力切换、容量切换、时间切换和流速切换,即吸气达到预置的压力、容量、时间或流速则转为呼气。

  13. Measurement of Maximal Inspiratory Flow and Forced Inspiratory Capacity and Its Clinical Application

    最大吸气流量和用力深吸气量的测定与临床应用