1.The Interpretation of Respiratory Acidosis and Respiratory Alkalosis.
The Korean Journal of Critical Care Medicine 2002;17(2):70-74
No abstract available.
Acidosis, Respiratory*
;
Alkalosis, Respiratory*
2.Respiratory Distress and Stridor.
Journal of the Korean Medical Association 1998;41(7):764-767
No abstract available.
Respiratory Sounds*
4.Wheezing.
Korean Journal of Medicine 1998;55(4):628-633
No abstract available.
Respiratory Sounds*
7.Work Exposure to Traffic Air Pollutants (PM10, Benzene, Toluene, and Xylene) and Respiratory Health Implications among Urban Traffic Policemen in Klang Valley, Malaysia
Malaysian Journal of Medicine and Health Sciences 2018;14(SP2):63-70
Introduction: This study aimed to identify the exposure levels of traffic air pollutants specifically PM10, benzene, toluene, and xylene (BTX) among traffic policemen and the risks to their respiratory health. A cross-sectional comparative study was conducted among 42 traffic policemen and 42 desk-bound policemen as the exposed and comparative groups respectively. Methods: The questionnaire adapted from the American Thoracic Society for Adult Respiratory Health Disease (ATS-DLD) to obtain socio-demographic and respiratory symptoms data. A spirometer (Chestgraph Hi-105) was used to perform lung function test. A personal air sampling pump was used to measure the personal exposure level to PM10. A Ppbrae 3000 was used to measure the outdoor and indoor concentration of BTX during morning and afternoon peak hours respectively. Results: The mean personal exposure level of PM10 among the traffic policemen was 150.14 ± 130.66 µg/m3 compared to only 84.14 ± 94.11 µg/m3 in the comparative group. The short exposures to BTX at the roadsides were found to be slightly higher in the afternoons than in the mornings. Indoor offices air concentrations were only detectable for benzene while the mornings and afternoons values for toluene and xylene were below the detection limits. A median concentration of benzene documented significantly higher at the selected of sampling roadsides areas (median=0.157 ppm) than indoor office areas (median=0.071 ppm). Conclusion: The respiratory symptoms were significantly higher in the exposed group compared to the comparative group which they were 3.9, 4.1, and 3.5 times more likely to develop cough, wheezing, and breathlessness respectively.
Respiratory health
8.The Epidemiology of Viral Lower Respiratory Tract Infections.
Pediatric Allergy and Respiratory Disease 2008;18(1):1-4
No abstract available.
Respiratory System
;
Respiratory Tract Infections
9.Clinical evaluation of cefodizime in lower respiratory tract infections.
Korean Journal of Infectious Diseases 1992;24(1):29-35
No abstract available.
Respiratory System*
;
Respiratory Tract Infections*
10.Lower Respiratory Tract Infection of Respiratory Syncytial Virus.
Pediatric Allergy and Respiratory Disease 2005;15(2):103-105
No abstract available.
Respiratory Syncytial Viruses*
;
Respiratory System*
;
Respiratory Tract Infections*
Result Analysis
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