1.Servo Controlled Modes of Ventilation.
Chul Hong KIM ; Jae Young KWON
The Korean Journal of Critical Care Medicine 2002;17(1):1-4
No abstract available.
Ventilation*
2.Nosocomial pneumonia in patients with artificial ventilations
Journal of Preventive Medicine 2002;12(4):47-50
Nosocomial pneumonia is associated with increases in health care costs, morbidity and mortality. Data from our study in Bach Mai Hospital in 90 patients admitted to intensive care units from 1999 to 2001 indicate that, approximately 86% of patients got nosocomial infections. Gram(-) organisms were predominant (76%) with P.aeruginosa 57.3%; S.aureus 10.7%; Enterobacter 7.7%; Acinetobacter 6.8%. Almost these gram(-) becterial isolates were sensitive to imipenem (95.7%) and amikacin (87.8%).
Pneumonia
;
Ventilation
3.An In-vitro Evaluation of Intratracheal Pulmonary Ventilation Physics.
Korean Journal of Anesthesiology 1994;27(1):66-74
No abstract available.
Pulmonary Ventilation*
4.Pulmonary Ventilation and Circulation.
Korean Journal of Anesthesiology 1985;18(4):357-369
No abstract available.
Pulmonary Ventilation*
5.Special Committee Report of AsMA: Cabin Air Quality.
Korean Journal of Aerospace and Environmental Medicine 1997;7(1):17-21
Thibeault C. Special Committee Report : Cabin Air Quality Aviat Space Environ Med 1997 ;68 : 80-2. Cabin Air Quality has generated considerable public and workers' concern and controversy in the last few years. To clarify the situation, AsMA requested the Passenger Health Subcommittee of the Air Transport Medicine Committee to review the situation and prepare a position statement. After identifying the various sources of confusion, we review the scientifically accepted facts In the different elements involved in Cabin Air Quality : pressurization, ventilation, contaminants, humidity and temperature. At the same time, we identify areas that need more research and make recommendations accordingly.
Humidity
;
Ventilation
6.Concentrations of welding fume by local exhaust ventilation.
Sung Ki PARK ; Kyeong Dong CHUNG ; Doo Hie KIM
Korean Journal of Occupational and Environmental Medicine 1993;5(1):163-170
No abstract available.
Ventilation*
;
Welding*
7.Intratracheal Pulmonary Ventilation (ITPV).
The Korean Journal of Critical Care Medicine 1997;12(2):137-142
No abstract available.
Pulmonary Ventilation*
8.Pulmonary ventilation in infiltrative pulmonary tuberculosis
Journal of Medical and Pharmaceutical Information 2004;0(9):25-27
In this clinical trial, 60 patients who suffered from AFB positive infiltrative pulmonary tuberculosis and being cured in consolidative chemotherapy in specialized hospitals, the age from 20 to 59 years old, not sexes distinguish. Kinds of ventilation: 93.33% of patients suffered from restrictive ventilation and the rate of mix ventilation was 6.67%, no participant was obstructive ventilation. Mean values of VC was 53.93%5.97; of Tiffeneau index 80.756.63%
Tuberculosis, Pulmonary
;
Pulmonary Ventilation
;
Tuberculosis
;
Ventilation
9.Associated Ventilation with Mechanical Aids in Newborn Infants.
Eue Cho YANG ; Chong Ku YUN ; Jung Hwan CHOI
Journal of the Korean Pediatric Society 1985;28(5):435-447
No abstract available.
Humans
;
Infant, Newborn*
;
Ventilation*
10.Research into the capacity to adapt of the body to training process in athletes based on pulmonary ventilation functions
Journal of Vietnamese Medicine 2004;304(11):133-143
The study carried out pulmonary ventilation functions of 81 professional wrestlers, swimmers, and athletics in Hai Phong by using auto Spiroanalyser - ST 250 from FUKUDA SANGYO of Japan to measure objects in standing position after 15 – 30 minutes of pause. Pulmonary ventilation functions such as VC, FVC and FEV 1% T of wrestles, swimmers and athletics were considerable higher than those of controls. Their PEF, MVV and FV were much higher than those of controls. There was a fast increase of VC, FVC, FEV 1, PEF, MVV and FV after 12 months of training compared with the control group
pulmonary ventilation function
Result Analysis
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